CN112510631A

CN112510631A - High-voltage cable deicing equipment for electric power detection

Info

Publication number: CN112510631A
Application number: CN202011560945.0A
Authority: CN
Inventors: 杨毕女
Original assignee: 杨毕女
Current assignee: Zhuji Hengda motor maintenance Co.,Ltd.
Priority date: 2020-12-25
Filing date: 2020-12-25
Publication date: 2021-03-16
Anticipated expiration: 2040-12-25
Also published as: CN112510631B

Abstract

The invention discloses a high-voltage cable deicing device for power detection, which comprises an upper shell and a lower shell, wherein the upper shell and the lower shell are hinged with each other through an articulated piece, the upper shell and the lower shell are made of plastic materials, the left ends of the inner parts of the upper shell and the lower shell are fixedly connected with a half-arc bucket, the matrix of the half-arc bucket is made of plastic materials, the inner sides of the half-arc bucket are fixedly connected with heating arc plates, the right sides of the left end half-arc buckets in the upper shell and the lower shell are fixedly connected with a first deicing assembly, the inner parts of the upper shell and the lower shell on the right side of the first deicing assembly are fixedly provided with an ice breaking assembly, the inner parts of the upper shell and the lower shell on the right side of the ice breaking assembly are fixedly provided with a second deicing assembly, the device has a simple structure, is portable and easy to carry, and can effectively remove, meanwhile, the service life of the cable can be guaranteed, the practicability is high, the application prospect is wide, and the cable is worthy of popularization and application.

Description

High-voltage cable deicing equipment for electric power detection

Technical Field

The invention relates to the technical field of cable deicing, in particular to high-voltage cable deicing equipment for power detection.

Background

The cable is an electric energy or signal transmission device, usually it is made up of several or several groups of wire, in the cold winter, especially after snowing or raining, the phenomenon of icing appears comparatively easily on the cable surface, it is long-lived, form more package ice on the cable surface easily, thus bring great burden to the cable, and then cause the cable to damage and break, therefore need in time to deice, and the erection position of the cable is often in the field environment, this has improved the degree of difficulty of deicing ground correspondingly, the artificial deicing is not only inefficient, and there is great danger, and the deicing equipment structure of present day is comparatively complicated, make because its quality is heavier when deicing, it is comparatively rough to break ice, the damage to the cable appears comparatively easily, the practicality is not high, therefore need a professional high-tension line cable deicing equipment to solve this problem.

Disclosure of Invention

1. Technical problem to be solved

Aiming at the problems in the prior art, the invention aims to provide a high-voltage cable deicing device for electric power detection, the scheme is that an upper shell and a lower shell are hinged, so that when the device is used, the upper shell and the lower shell can be opened through a locking assembly, the cable needing deicing is wrapped by the upper shell and the lower shell, at the moment, the upper shell and the lower shell are combined, magnet blocks in the locking assembly are mutually adsorbed, so that when the device is installed for deicing, preliminary installation is carried out through the adsorption of the magnet blocks, the device is prevented from falling off, the device is fixed through a buckling and locking fastener, the device is conveniently installed on the high-voltage cable, at the moment, the device is started to operate through a signal of a remote controller in a remote control device, at the moment, a driving assembly in a driving and drying mechanism is arranged, so that the device operates, the double-shaft motor at the end part of the mounting frame in the driving assembly rotates to enable the output end of the double-shaft motor to move the crawler belt, the rubber attaching block outside the surface mounting block of the moving crawler belt is attached to and fastens the cable at the moment, the rubber material has better flexibility and is attached to the smooth cable surface at the same time, the rubber attaching block can fasten the cable, the moving crawler belt rotates to drive the rubber attaching block to move correspondingly at the moment, so that power is provided for the equipment, the equipment can transversely move on the cable relatively stably, meanwhile, when the equipment moves, the semi-arc bucket forms the arc bucket to guide the cable, the cable enters the equipment, the heating arc plate on the inner side of the semi-arc bucket preliminarily preheats the cable at the moment, ice on the surface of the cable is preliminarily melted, the cable passes through the first deicing assembly at the moment, and the first heating plate inside the first deicing assembly is started, when the cable with ice passes through the space between the first heating plates, the first heating plates further heat the cable with ice to enable the ice layer to be rapidly melted, and when the ice layer is thick, the telescopic springs shrink to enable the first heating plates to retract back to the inside of the first mounting box, and the telescopic rods shrink gaps between the first heating plates to increase, so that the first deicing assembly has certain toughness to prevent the cable from being damaged due to too rapid movement when the ice layer is thick and hard, after the cable is subjected to preliminary deicing by the first deicing assembly, the cable with ice enters the ice breaking assembly, the crushing wheel in the ice breaking assembly contacts the cable with ice, the cable with ice layer on the surface is fragile at the moment due to the fact that the cable with ice is heated at two sides, the crushing wheel rolls on the surface of the cable through movement of equipment, and the crushing teeth crush ice seals on the surface, so that convenience of subsequent deicing is improved, when the ice layer is thick, the mounting rod slides in the second mounting box through the contraction and rebound of the return spring, so that the ice breaking assembly has certain toughness, the cable surface is prevented from being damaged by the pulling force when the ice layer is hard or thick, or the inside of the equipment is prevented from being damaged, the service life of the equipment and the cable is effectively prolonged, when the cable continuously moves to reach the second ice removing assembly, the second ice removing assembly is started, the vibration motor in the motor box operates to drive the second heating plate at the output end to shake, the ice breaking assembly preliminarily crushes the ice layer, the surface of the second heating plate has temperature, the thicker ice layer is quickly fallen off through the shake brought by the heat conduction cotton layer and the vibration motor, the efficiency and the precision of ice breaking and deicing are further improved, the equipment can carry out step ice breaking and deicing, and the damage to the equipment and the cable caused by the hard ice breaking when the ice layer on the surface of the cable is thicker and harder is prevented, at the moment, the ice layer on the surface of the cable is removed through the left arc filtering hopper, so that most of the ice layer on the surface of the cable is effectively reduced, the melted water on the surface of the ice layer can be scraped through the left arc filtering block after the cable is filtered by the left arc filtering hopper, so that the residue of water stain is further reduced, at the moment, the driving drying mechanism is arranged, so that when the cable is moved into a drying bin, the surface of the cable is further dried through the operation of a drying fan, at the moment, the air outlet and the drying fan form air circulation, so that the drying efficiency of the surface of the cable is improved, the separation net is arranged, so that external sundries can be prevented from entering the inside of the equipment to cause inconvenience, when the dried cable is continuously moved and passes through the right arc filtering hopper after passing through the driving assembly, the water stain which is not dried on the surface of the cable can be further scraped through the right arc filtering block inside the right arc filtering hopper, the dryness of the cable surface is further ensured, the equipment can operate without being connected with a power supply by storing electricity through the storage battery in the storage box when the equipment operates through arranging the energy storage device, thereby effectively increasing the use convenience of the equipment, the storage battery is protected by arranging the rubber sealing layer, the insulation can be better carried out, and simultaneously the storage battery can be buffered when the equipment moves, thereby ensuring the operation stability of the energy storage device, when the equipment is used in daytime, the photovoltaic panel can absorb light energy and convert the light energy into usable electric energy through the photovoltaic inverter and store the usable electric energy in the storage battery, thereby improving the cruising ability and the environmental protection ability of the energy storage device, further improving the practicability of the equipment, accumulated water is accumulated at the bottom of the lower shell in the equipment when the equipment operates and is discharged through the water outlet hopper, this equipment structure is simple, and is comparatively light easily to carry, can get rid of the cable surface ice sheet effectively, can guarantee the life of cable simultaneously, and the practicality is strong, and application prospect is extensive, is worth using widely.

2. Technical scheme

In order to solve the above problems, the present invention adopts the following technical solutions.

A high-voltage cable deicing device for electric power detection comprises an upper shell and a lower shell, wherein the middle parts of the upper shell and the lower shell are hinged with each other through an articulated piece, the upper shell and the lower shell are made of plastic materials, the left end parts of the inner parts of the upper shell and the lower shell are fixedly connected with a half-arc bucket, the matrix of the half-arc bucket is made of plastic materials, the inner sides of the half-arc bucket are fixedly connected with heating arc plates, the right sides of the left end half-arc buckets in the upper shell and the lower shell are fixedly connected with a first deicing assembly, ice breaking assemblies are fixedly arranged in the upper shell and the lower shell on the right side of each ice breaking assembly, second deicing assemblies are fixedly arranged in the upper shell and the lower shell on the right side of each ice breaking assembly, a left arc filtering bucket is fixedly arranged in the middle parts of the upper shell and the lower shell, and the matrix of the left arc filtering bucket, a left arc filtering block is fixedly installed on the left side inside the left arc filtering hopper, a driving drying mechanism is arranged on the right side inside the upper shell and the lower shell, a water outlet hopper is arranged on the left side and the middle part of the lower shell and the left side corresponding to the left arc filtering hopper, locking assemblies are fixedly installed on the front sides of the left side end part and the right side end part of the upper shell and the lower shell, a right arc filtering hopper is fixedly connected to the right side end part of the upper shell and the lower shell, a right arc filtering block is fixedly connected inside the right arc filtering hopper, the base bodies of the left arc filtering block and the right arc filtering block are both base bodies made of rubber, a controller is fixedly installed on the left side of the front side of the upper shell, a remote controller is arranged inside the controller, and energy storage devices are arranged;

the drive stoving mechanism includes drying fan and stoving storehouse, the stoving storehouse sets up in last casing and the internal right side of inferior valve, drying fan fixed mounting is on the outside right side of last casing and lower casing, both ends all are equipped with drive assembly about the right side in the stoving storehouse, the air outlet has been seted up to the positive upper end in stoving storehouse, the air outlet is seted up on last casing right side, be equipped with in the air outlet and separate the net.

Further, drive assembly includes the mounting bracket, mounting bracket fixed mounting is top and bottom in the stoving storehouse, the equal fixed mounting in the equal both sides in mounting bracket medial extremity left and right sides has double-shaft motor, double-shaft motor outside transmission is connected with the removal track, the left and right sides of removing the track all is connected with double-shaft motor's front and back both ends output transmission, the equidistant fixed mounting of removal track surface has the installation piece, the equal fixedly connected with rubber laminating piece in the installation piece outside.

Further, first deicing subassembly includes first mounting box, first mounting box is fixed mounting respectively in the left surface of last casing and lower casing, first mounting box inboard communicates with the internal portion of last casing and lower casing, the inside fixed mounting of first mounting box has expanding spring, expanding spring medial extremity fixedly connected with bracing piece, the first hot plate of bracing piece medial extremity fixedly connected with, first hot plate tangent plane shape is semi-circular.

Furthermore, the ice breaking assembly comprises a second mounting box, the second mounting box is fixedly mounted on the surfaces of the upper shell and the lower shell on the right side of the first ice removing assembly, the inner side of the second mounting box is communicated with the inner sides of the upper shell and the lower shell, a return spring is fixedly connected inside the second mounting box, a mounting rod is fixedly mounted at the inner end of the return spring, a crushing wheel is rotatably connected to the inner end of the mounting rod, and crushing teeth are arranged on the surface of the crushing wheel at equal intervals.

Further, second deicing subassembly includes the motor case, motor case fixed mounting is in the surface of casing and lower casing on the right side of the subassembly that opens ice, motor incasement side and last casing and lower casing intercommunication, the inside fixed mounting of motor case has vibrating motor, the inboard output end fixedly connected with second hot plate of vibrating motor, the tangent plane shape of second hot plate is the arc, the inboard fixedly connected with heat conduction cotton layer of second hot plate.

Further, locking Assembly includes two sets of fixed blocks, and is two sets of fixed block difference fixed mounting is in the positive both ends of last casing and lower casing, and is two sets of the inboard equal fixedly connected with magnet piece of fixed block, it is two sets of the front of fixed block difference fixed mounting of fixed block has padlock and fastener, padlock and fastener lock joint each other.

Further, energy memory includes photovoltaic board and accumulator case, the photovoltaic board, the tangent plane shape of photovoltaic board is the arc, photovoltaic board fixed mounting is in the front and the back of last casing and lower casing, accumulator case fixed mounting is in the right side top of last casing and the right side bottom of lower casing, equal fixed mounting has the battery in the accumulator case, fixed mounting has the rubber sealing layer in the outside cavity of the inside battery of accumulator case.

3. Advantageous effects

Compared with the prior art, the invention has the advantages that:

(1) in the scheme, the upper shell and the lower shell are hinged through the upper shell and the lower shell, so that when the deicing device is used, the upper shell and the lower shell can be opened through the locking component, the cable needing deicing is wrapped by the upper shell and the lower shell, the upper shell and the lower shell are combined at the moment, the magnet blocks in the locking component are mutually adsorbed at the moment, preliminary installation is carried out through the adsorption of the magnet blocks during deicing installation, the equipment is prevented from falling off, and then the fastening is carried out through the fastening buckle connecting fastener, so that the equipment is conveniently installed on a high-voltage cable, the equipment is started to operate through a signal of a remote control device in the remote control device, at the moment, the driving component in a driving drying mechanism is arranged, the double-shaft motor at the end part of the mounting rack in the driving component rotates, the output end of the double-shaft motor moves a crawler belt, and the rubber laminating block outside the surface, because the rubber material has better flexibility and is simultaneously attached to the smooth cable surface, the rubber attaching block can tighten the cable, the moving crawler rotates to drive the rubber attaching block to move correspondingly, so that the equipment is provided with power, the equipment can move transversely on the cable more stably, meanwhile, when the equipment moves, the semi-arc bucket forms the arc bucket to guide the cable, the cable enters the equipment, the heating arc plate on the inner side of the semi-arc bucket preliminarily preheats the cable, so that the ice on the surface of the cable is preliminarily melted, the first heating plate inside the first deicing assembly is started to operate after passing through the first deicing assembly, when the cable with the ice passes through the first heating plate, the first heating plate further heats the cable, so that the ice layer is quickly melted, and because the ice layer has different thicknesses, when the ice layer is thick, the telescopic spring contracts to enable the first heating plate to retract back to the inside of the first mounting box, the telescopic rod contracts to enlarge the gap between the first heating plate, so that the first deicing assembly has certain toughness, the cable is prevented from being damaged due to too fast movement when the ice layer is thick and hard, the cable with ice enters the ice breaking assembly after preliminary deicing of the first deicing assembly, the crushing wheel in the ice breaking assembly contacts the cable with ice, the cable with ice is heated through two sides, the ice layer on the surface is fragile, the crushing wheel rolls on the surface of the cable through movement of equipment, the crushing teeth crush ice seals on the surface, the convenience of subsequent deicing is improved, and when the ice layer is thick, the mounting rod slides in the second mounting box through contraction and rebound of the return spring, so that the ice breaking assembly has certain toughness, the device can prevent the cable surface from being damaged by pulling force when the ice layer is hard or thick or the inside of the device from being damaged, effectively prolongs the service life of the device and the cable, when the cable continues to move to reach the second deicing component, the second deicing component is started at the moment, the vibration motor in the motor box operates to drive the second heating plate at the output end to shake, the ice layer is preliminarily crushed by the ice breaking component, the surface of the second heating plate has temperature, the thicker ice layer is quickly fallen off through the shake brought by the heat conduction cotton layer and the vibration motor, and the efficiency and precision of ice breaking and deicing are further improved, so that the device can break ice and deice step by step, the device and the cable are prevented from being damaged due to strong ice breaking when the ice layer on the cable surface is thicker and harder, and the ice layer on the cable surface is removed through the left arc filtering hopper at the moment, thereby effectively reducing most of the ice layer on the cable surface, after the left arc filtering hopper is used for filtering, the cable can be used for scraping off the melted water on the surface of the ice layer through the left arc filtering block, so that the residue of water stains is further reduced, at the moment, the cable is moved into the drying bin through the arrangement of the driving drying mechanism, the surface of the cable is further dried through the operation of the drying fan, at the moment, the air outlet and the drying fan form air circulation, so that the drying efficiency of the surface of the cable is improved, the arrangement of the partition net can prevent external sundries from entering the inside of the equipment and causing inconvenience, when the dried cable is continuously moved, the cable passes through the right arc filtering hopper after being filtered by the driving assembly, the right arc filtering block inside the right arc filtering hopper can further scrape off the water stains on the surface of the cable through the right arc filtering block inside the right arc filtering hopper, so that the dryness of the surface of the cable is further ensured, and the energy storage device is arranged to ensure that the equipment runs, the storage battery in the storage battery box can be used for storing electricity, so that the equipment can run without being connected with a power supply, the use convenience of the equipment is effectively improved, the storage battery is protected by arranging the rubber sealing layer, the insulation can be better realized, meanwhile, the storage battery can be buffered when the equipment moves, so that the running stability of the energy storage device is ensured, the photovoltaic panel is arranged, so that when the equipment is used in the daytime, the photovoltaic panel can absorb light energy and convert the light energy into usable electric energy through the photovoltaic inverter and store the usable electric energy in the storage battery, so that the cruising ability and the environmental protection ability of the energy storage device are improved, the practicability of the equipment is improved, accumulated water is accumulated at the bottom of the lower shell in the equipment and is discharged through the water outlet hopper when the equipment runs, the equipment has a simple structure, is light and easy to carry, and can effectively remove the ice, meanwhile, the service life of the cable can be guaranteed, the practicability is high, the application prospect is wide, and the cable is worthy of popularization and application.

(2) By arranging the driving component, the double-shaft motor at the end part of the mounting rack in the driving component is driven to rotate when in use, so that the output end of the double-shaft motor moves the crawler belt, the rubber attaching block outside the surface mounting block of the moving crawler belt is attached to the cable, because the rubber material has better flexibility and is simultaneously attached to the smooth surface of the cable, the rubber attaching block can clamp the cable, at the moment, the moving crawler belt rotates to drive the rubber attaching block to correspondingly move, thereby providing power for the equipment, leading the equipment to move transversely on the cable more stably, thereby leading the equipment to stably move on the surface of the cable, and simultaneously leading the rubber jointing block to slip when the ice layer is thick, therefore, the equipment can be deiced slowly, the equipment and the cable are prevented from being damaged by overlarge driving force, and the service life and the stability of the equipment and the cable are effectively ensured.

(3) Through setting up first deicing subassembly, make this equipment when using, the inside first hot plate start-up operation of first deicing subassembly, when the cable of taking ice passes through between the first hot plate, first hot plate further heats it this moment, make the ice sheet melt fast, and because the thickness on ice sheet is different, when the ice sheet is thick, the expanding spring shrink this moment, make first hot plate retract back to inside the first mounting box, the clearance increase between the first hot plate of telescopic link shrink this moment, thereby make first deicing subassembly have certain toughness, prevent that the ice sheet is thick comparatively hard because remove the damage cable too fast.

(4) Through setting up the subassembly that opens ice, make when using, the broken wheel contact area ice cable in the subassembly that opens ice, because take the ice cable through both sides heating, the surface ice layer is comparatively fragile this moment, through the removal of equipment, make broken wheel roll on the cable surface, broken tooth is sealed to surface ice and is broken, thereby the convenience of follow-up deicing has been improved, and when the ice layer is thick, shrink and bounce-back through the return spring, make the installation pole slide in the second mounting box, thereby make the subassembly that opens ice have certain toughness, prevent that the ice layer from pulling the power when hard or thick and damaging the cable surface, perhaps equipment internal damage, the life of this equipment and cable has been improved effectively.

(5) Through setting up second deicing subassembly, make this equipment when using, the vibrating motor operation of motor incasement, the second hot plate that drives the output rocks, because the subassembly that opens ice has carried out preliminary breakage to the ice sheet, the second hot plate surface has the temperature this moment, rock through what the cotton layer of heat conduction brought with vibrating motor, make thick ice sheet drop fast, and then efficiency and the precision of broken ice and deicing have further been improved, thereby make this equipment can open ice deicing step by step, prevent that the damage that the strong hard broken ice caused equipment and cable when the cable surface ice sheet is thick.

(6) Through setting up locking Assembly, make this equipment when using, accessible locking Assembly opens casing and lower casing, will go up the cable that casing and casing parcel need deicing down this moment, this moment through going up casing and casing down and closing, the inside magnetite piece of locking Assembly adsorbs each other this moment, make when the deicing installation, the absorption through the magnetite piece carries out preliminary installation, thereby prevent that this equipment from dropping, rethread hasp connects the fastener to fix, thereby it is comparatively convenient to make this equipment fixing on the high tension cable.

(7) Through setting up energy memory, make this equipment when the operation, the accessible carries out the electric power storage with the battery of accumulator case, thereby realized that equipment need not to connect the power and can move, thereby increased the convenient to use nature of equipment effectively, protect the battery through setting up the rubber sealing layer, can insulate better, can also cushion the battery when equipment removes simultaneously, thereby energy memory's operating stability has been guaranteed, through setting up the photovoltaic board, make when using daytime, the photovoltaic board can absorb light energy and change into usable electric energy through photovoltaic inverter, thereby save and improved energy memory's duration and environmental protection ability inside the battery, and then make the practicality of this equipment improve.

Drawings

FIG. 1 is a schematic view of the internal structure of the present invention;

FIG. 2 is a schematic view of a backside surface structure of the present invention;

FIG. 3 is a schematic view of the front surface structure of the present invention;

FIG. 4 is a schematic view of the driving assembly of the present invention;

FIG. 5 is a schematic structural view of a second deicing assembly of the present invention;

FIG. 6 is a schematic structural view of the ice breaking assembly of the present invention;

FIG. 7 is a schematic view of a first deicing assembly mechanism of the present invention;

FIG. 8 is a schematic diagram of an electronic system connection module according to the present invention.

The reference numbers in the figures illustrate:

1. an upper housing; 2. a lower housing; 3. a half arc bucket; 4. heating the arc plate; 5. a first de-icing assembly; 51. a first mounting box; 52. a tension spring; 53. a support bar; 54. a first heating plate; 6. an ice breaking assembly; 61. a second mounting box; 62. a return spring; 63. mounting a rod; 64. a crushing wheel; 65. crushing teeth; 7. a second deicing assembly; 71. a motor case; 72. a vibration motor; 73. a second heating plate; 74. a heat conductive cotton layer; 8. a left arc filtering hopper; 9. a left arc filtering block; 10. driving a drying mechanism; 101. drying the fan; 102. a drying bin; 103. a drive assembly; 1031. a mounting frame; 1032. a double-shaft motor; 1033. moving the caterpillar; 1034. mounting blocks; 1035. a rubber fitting block; 104. an air outlet; 105. separating the net; 11. a water outlet hopper; 12. a locking assembly; 121. a fixed block; 122. a magnet block; 123. locking; 124. a fastener; 13. a right arc filtering hopper; 14. a right arc filtering block; 15. a controller; 16. an energy storage device; 161. a photovoltaic panel; 162. an accumulator case; 163. a storage battery; 164. and a rubber sealing layer.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention; it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments, and all other embodiments obtained by those skilled in the art without any inventive work are within the scope of the present invention.

In the description of the present invention, it should be noted that the terms "upper", "lower", "inner", "outer", "top/bottom", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "disposed," "sleeved/connected," "connected," and the like are to be construed broadly, e.g., "connected," which may be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example (b):

referring to fig. 1-8, a high-voltage cable deicing device for power detection comprises an upper casing 1 and a lower casing 2, wherein the upper casing 1 and the lower casing 2 are hinged to each other through an articulation piece, the upper casing 1 and the lower casing 2 are both made of plastic materials, the left ends of the insides of the upper casing 1 and the lower casing 2 are fixedly connected with a half-arc bucket 3, the base body of the half-arc bucket 3 is made of plastic materials, the inner sides of the half-arc bucket 3 are fixedly connected with a heating arc plate 4, the right sides of the left-end half-arc buckets 3 in the upper casing 1 and the lower casing 2 are fixedly connected with a first deicing assembly 5, the insides of the upper casing 1 and the lower casing 2 on the right side of the first deicing assembly 5 are fixedly provided with an ice breaking assembly 6, the insides of the upper casing 1 and the lower casing 2 on the right side of the ice breaking assembly 6 are fixedly provided with a second deicing assembly 7, the middles of the upper casing 1 and the lower casing 2 are, the left arc filtering hopper 8 is made of plastic, a left arc filtering block 9 is fixedly mounted on the left side inside the left arc filtering hopper 8, a driving and drying mechanism 10 is arranged on the right side inside the upper casing 1 and the lower casing 2, a water outlet hopper 11 is arranged on the left side and the middle part of the lower casing 2 and on the left side corresponding to the left arc filtering hopper 8, locking assemblies 12 are fixedly mounted on the front sides of the left and right side end parts of the upper casing 1 and the lower casing 2, a right arc filtering hopper 13 is fixedly connected to the right side end part of the upper casing 1 and the lower casing 2, a right arc filtering block 14 is fixedly connected inside the right arc filtering hopper 13, the bases of the left arc filtering block 9 and the right arc filtering block 14 are both bases made of rubber, a controller 15 is fixedly mounted on the left side of the front of the upper casing 1, a remote controller 15 is internally provided with a remote controller, the remote controller is a HENJEL wireless remote controller, an energy storage device 16 is arranged on the surfaces of the, the heating arc plate 4 is electrically connected with the controller 15;

the driving drying mechanism 10 comprises a drying fan 101 and a drying bin 102, the drying bin 102 is arranged on the right side inside the upper shell 1 and the lower shell 2, the drying fan 101 is fixedly arranged on the right side outside the upper shell 1 and the lower shell 2, the drying fan 101 is electrically connected with the controller 15, driving components 103 are arranged at the upper end and the lower end of the right side in the drying bin 102, an air outlet 104 is formed in the upper end of the front side of the drying bin 102, the air outlet 104 is formed in the right side of the upper shell 1, and a partition net 105 is arranged in the air outlet 104;

in the scheme, the upper shell 1 and the lower shell 2 are hinged through the arrangement of the upper shell 1 and the lower shell 2, so that the upper shell 1 and the lower shell 2 can be opened through the locking component 12 when in use, the cable needing deicing is wrapped on the upper shell 1 and the lower shell 2 at the moment, the upper shell 1 and the lower shell 2 are combined together at the moment, the magnet blocks 122 in the locking component 12 are mutually adsorbed at the moment, preliminary installation is carried out through the adsorption of the magnet blocks 122 when in deicing installation, the equipment is prevented from falling off, the equipment is conveniently installed on a high-voltage cable by fixing the buckling and locking fastener 124 through the buckling and locking fastener 123, the equipment is started to run through a signal of a remote controller in the remote control device, and the driving component 103 in the driving drying mechanism 10 is arranged at the moment, so that the double-shaft motor at the end part of the mounting rack 1031 in the driving, the output end of the double-shaft motor 1032 is made to move the crawler 1033, at this time, the rubber attaching block 1035 outside the surface mounting block 1034 of the moving crawler 1033 is made to attach and fasten the cable, because the rubber material has better flexibility and is attached to the smooth cable surface at the same time, the rubber attaching block 1035 can fasten the cable, at this time, the moving crawler 1033 rotates to drive the rubber attaching block 1035 to move correspondingly, so as to provide power for the equipment, the equipment can move transversely on the cable more stably, at the same time, when the equipment moves, the half-arc bucket 3 forms an arc bucket to guide the cable, the cable enters the equipment, at this time, the heating arc plate 4 inside the half-arc bucket preheats the cable preliminarily, so that the ice on the surface of the cable is melted preliminarily, at this time, the first heating plate 54 inside the first deicing component 5 starts to operate, when the cable with ice passes through the space between the first heating plates 54, the first heating plates 54 further heat the cable with ice to melt the ice layer quickly, and when the ice layer is thick, the expansion springs 52 contract to retract the first heating plates 54 to the inside of the first mounting box 51, and the expansion rods contract to enlarge the gap between the first heating plates 54, so that the first deicing component 5 has certain toughness to prevent the cable from being damaged due to too fast movement when the ice layer is thick and hard, after the cable passes through the primary deicing of the first deicing component 5, the cable with ice enters the ice breaking component 6, the crushing wheels 64 in the ice breaking component 6 contact the cable with ice, and because the cable with ice is heated on two sides, the surface ice layer is fragile, the crushing wheels 64 roll on the surface of the cable through the movement of the equipment, and the crushing teeth 65 crush the surface ice seal, therefore, the convenience of subsequent deicing is improved, when the ice layer is thick, the mounting rod 63 slides in the second mounting box 61 through the contraction and rebound of the return spring 62, so that the ice breaking assembly 6 has certain toughness, the situation that the cable surface is damaged by the pulling force when the ice layer is hard or thick or the internal damage of the equipment is prevented, the service life of the equipment and the cable is effectively prolonged, when the cable continuously moves to reach the second deicing assembly 7, the second deicing assembly 7 is started at the moment, the vibration motor 72 in the motor box 71 operates to drive the second heating plate 73 at the output end to shake, as the ice breaking assembly 6 preliminarily crushes the ice layer, the surface of the second heating plate 73 has temperature, and the thicker ice layer quickly falls off through the shake brought by the heat conduction cotton layer 74 and the vibration motor 72, so that the efficiency and the precision of ice breaking and deicing are further improved, so that the equipment can be used for breaking ice and removing ice step by step, the damage of the equipment and the cable caused by strong and hard ice breaking when the ice layer on the surface of the cable is thicker and harder is prevented, at the moment, the ice layer on the surface of the cable is removed through the left arc filtering hopper 8, thereby effectively reducing most of the ice layer on the surface of the cable, the cable can be further scraped off by melting water on the surface of the ice layer through the left arc filtering block 9 after being filtered by the left arc filtering hopper 8, further reducing the residue of water stain, at the moment, the cable is moved into the drying bin 102 by arranging the driving drying mechanism 10, the surface of the cable is further dried through the operation of the drying fan 101, at the moment, the air outlet 104 and the drying fan 101 form air circulation, thereby improving the drying efficiency on the surface of the cable, the separation net 105 is arranged to prevent external sundries from entering the equipment and causing inconvenience, and when the dried cable is continuously moved, after passing through the driving assembly 103, then passing through the right arc filtering hopper 13, the right arc filtering block 14 inside the right arc filtering hopper 13 can further scrape off water stains which are not dried on the surface of the cable, so as to further ensure the dryness of the surface of the cable, by arranging the energy storage device 16, when the equipment is in operation, the storage battery 163 in the storage battery box 162 can be used for storing electricity, so that the equipment can operate without being connected with a power supply, thereby effectively increasing the convenience of the equipment, the storage battery 163 is protected by arranging the rubber sealing layer 164, the insulation can be better performed, meanwhile, the storage battery 163 can be buffered when the equipment moves, so as to ensure the operation stability of the energy storage device 16, by arranging the photovoltaic panel 161, when the equipment is used in daytime, the photovoltaic panel 161 can absorb light energy and convert the light energy into usable electric energy through the photovoltaic inverter, thereby save inside duration and the environmental protection ability that has improved energy memory 16 in battery 163, and then make the practicality of this equipment improve, ponding deposit in equipment time casing 2's bottom and through play water bucket 11 discharge, this equipment structure is simple, and is comparatively light easily carried, can get rid of cable surface ice sheet effectively, can guarantee the life of cable simultaneously, and the practicality is strong, and application prospect is extensive, is worth using widely.

Referring to fig. 1 and 4, the driving assembly 103 includes a mounting bracket 1031, the mounting bracket 1031 is fixedly mounted at the top and the bottom of the drying bin 102, a dual-shaft motor 1032 is fixedly mounted at both left and right sides of an inner side end of the mounting bracket 1031, a moving track 1033 is in transmission connection with an outer side of the dual-shaft motor 1032, both left and right sides of the moving track 1033 are in transmission connection with output ends of front and rear ends of the dual-shaft motor 1032, mounting blocks 1034 are fixedly mounted on an outer surface of the moving track 1033 at equal intervals, rubber fitting blocks 1035 are fixedly connected with outer sides of the mounting blocks 1034, and the dual-shaft motor 1032 is electrically connected with the controller 15; by providing the drive assembly 103 such that, in use, the dual shaft motor 1032 at the end of the mounting frame 1031 in the drive assembly 103 rotates, so that the output end of the double-shaft motor 1032 moves the caterpillar 1033, at this time, the rubber attaching block 1035 outside the surface mounting block 1034 of the caterpillar 1033 is moved to attach and tighten the cable, because the rubber material has better flexibility and is simultaneously attached to the smooth surface of the cable, the rubber attaching block 1035 can clamp the cable, at the moment, the moving crawler 1033 rotates to drive the rubber attaching block 1035 to move correspondingly, thereby providing power for the equipment, leading the equipment to move transversely on the cable more stably, thereby leading the equipment to stably move on the surface of the cable, and when the ice layer is thick, the rubber attaching block 1035 can slide, therefore, the equipment can be deiced slowly, the equipment and the cable are prevented from being damaged by overlarge driving force, and the service life and the stability of the equipment and the cable are effectively ensured.

Referring to fig. 1 and 7, the first deicing assembly 5 includes a first mounting box 51, the first mounting box 51 is respectively and fixedly mounted on the left side surfaces of the upper housing 1 and the lower housing 2, the inner side of the first mounting box 51 is communicated with the interiors of the upper housing 1 and the lower housing 2, an extension spring 52 is fixedly mounted in the first mounting box 51, the end of the inner side of the extension spring 52 is fixedly connected with a support rod 53, the end of the inner side of the support rod 53 is fixedly connected with a first heating plate 54, the section of the first heating plate 54 is semicircular, and the first heating plate 54 is electrically connected with the controller 15; through setting up first deicing subassembly 5, make this equipment when using, the inside first hot plate 54 of first deicing subassembly 5 starts the operation, when the cable of taking ice passes through between first hot plate 54, first hot plate 54 further heats it this moment, make the ice sheet melt fast, and because the thickness on ice sheet is different, when the ice sheet is thick, expanding spring 52 shrink this moment, make first hot plate 54 retract back to inside first mounting box 51, the clearance increase between the first hot plate 54 of telescopic link shrink this moment, thereby make first deicing subassembly 5 have certain toughness, damage the cable owing to moving too fast when preventing that the ice sheet is thick comparatively hard.

Referring to fig. 1 and 6, the ice breaking assembly 6 includes a second mounting box 61, the second mounting box 61 is fixedly mounted on the surfaces of the upper shell 1 and the lower shell 2 on the right side of the first ice removing assembly 5, the inner side of the second mounting box 61 is communicated with the inner sides of the upper shell 1 and the lower shell 2, a return spring 62 is fixedly connected inside the second mounting box 61, a mounting rod 63 is fixedly mounted at the end of the inner side of the return spring 62, a breaking wheel 64 is rotatably connected to the end of the inner side of the mounting rod 63, and breaking teeth 65 are arranged on the surface of the breaking wheel 64 at equal intervals; through setting up icebreaking subassembly 6, make when using, the broken wheel 64 contact area ice cable in the icebreaking subassembly 6, because take the ice cable to heat through both sides, the surface ice layer is comparatively fragile this moment, through the removal of equipment, make broken wheel 64 roll on the cable surface, broken tooth 65 carries out the breakage to the surface ice-sealed, thereby the convenience of follow-up deicing has been improved, and when the ice layer is thick, shrink and bounce-back through return spring 62, make installation pole 63 slide in second mounting box 61, thereby make icebreaking subassembly 6 have certain toughness, prevent that the hard or thick time of ice layer from dragging the power and damaging the cable surface, perhaps equipment internal damage, the life of this equipment and cable has been improved effectively.

Referring to fig. 1 and 5, the second deicing assembly 7 includes a motor box 71, the motor box 71 is fixedly mounted on the outer surfaces of the upper housing 1 and the lower housing 2 on the right side of the deicing assembly 6, the inner side of the motor box 71 is communicated with the upper housing 1 and the lower housing 2, a vibration motor 72 is fixedly mounted inside the motor box 71, a second heating plate 73 is fixedly connected to an output end of the inner side of the vibration motor 72, the section of the second heating plate 73 is arc-shaped, a heat conductive cotton layer 74 is fixedly connected to the inner side of the second heating plate 73, and both the second heating plate 73 and the vibration motor 72 are electrically connected to the controller 15; through setting up second deicing subassembly 7, make this equipment when using, vibrating motor 72 in the motor case 71 moves, the second hot plate 73 that drives the output rocks, because the subassembly 6 that opens ice has carried out preliminary breakage to the ice sheet, second hot plate 73 surface has the temperature this moment, through rocking that heat conduction cotton layer 74 and vibrating motor 72 brought, make thick ice sheet drop fast, and then the efficiency and the precision of broken ice and deicing have further been improved, thereby make this equipment can open ice deicing step by step, prevent that the damage of broken ice caused equipment and cable when the cable surface ice sheet is harder.

Referring to fig. 3, the locking assembly 12 includes two sets of fixing blocks 121, the two sets of fixing blocks 121 are respectively and fixedly mounted at two ends of the front surfaces of the upper housing 1 and the lower housing 2, the inner sides of the two sets of fixing blocks 121 are respectively and fixedly connected with a magnet block 122, the front surfaces of the two sets of fixing blocks 121 are respectively and fixedly mounted with a buckle 123 and a fastener 124, and the buckle 123 and the fastener 124 are fastened to each other; through setting up locking Assembly 12, make this equipment when using, accessible locking Assembly 12 is opened casing 1 and casing 2 down, will go up casing 1 and casing 2 parcel cable that needs the deicing down this moment, this moment through coming up casing 1 and casing 2 down together, the inside magnetite piece 122 of locking Assembly 12 adsorbs each other this moment, make when the deicing installation, the absorption through magnetite piece 122 carries out preliminary installation, thereby prevent that this equipment from dropping, rethread lock 123 buckle 124 is fixed, thereby it is comparatively convenient to make this equipment install on the high tension cable.

Referring to fig. 1-3, the energy storage device 16 includes a photovoltaic panel 161 and a storage battery box 162, the photovoltaic panel 161 has an arc-shaped cross section, the photovoltaic panel 161 is fixedly mounted on the front and back of the upper casing 1 and the lower casing 2, the storage battery box 162 is fixedly mounted on the top of the right side of the upper casing 1 and the bottom of the right side of the lower casing 2, a storage battery 163 is fixedly mounted in each storage battery box 162, a rubber sealing layer 164 is fixedly mounted in the outer cavity of the storage battery 163 inside the storage battery box 162, the photovoltaic panel 161 is electrically connected to the storage battery 163 through a photovoltaic inverter, and the storage battery 163 is electrically connected to the controller 15; through setting up energy memory 16, make this equipment when the operation, the accessible carries out the electric power storage with battery 163 in electric storage box 162, thereby it can move to have realized that equipment need not to connect the power, thereby the convenient to use nature of equipment has been increased effectively, protect battery 163 through setting up rubber sealing layer 164, can insulate better, simultaneously can also cushion battery 163 when equipment removes, thereby energy memory 16's operating stability has been guaranteed, through setting up photovoltaic board 161, make when using daytime, photovoltaic board 161 can absorb light energy and pass through photovoltaic inverter and change into usable electric energy, thereby the duration and the feature of environmental protection ability of energy memory 16 have been improved inside storage battery 163, and then make the practicality of this equipment improve.

Referring to fig. 1-8, in use, the upper housing 1 and the lower housing 2 are opened by the locking assembly 12, the cable to be deiced is wrapped by the upper housing 1 and the lower housing 2, the upper housing 1 and the lower housing 2 are combined, the magnet blocks 122 inside the locking assembly 12 are mutually adsorbed, so that the equipment is preliminarily mounted by the adsorption of the magnet blocks 122 during deiced mounting, the equipment is prevented from falling off, the equipment is conveniently mounted on the high-voltage cable by fastening the fastening fastener 124 through the fastening lock 123, the equipment is started to operate by a signal of a remote controller inside the remote control device through the remote control device, the driving assembly 103 inside the drying mechanism 10 is arranged, the double-shaft motor 1032 at the end part of the mounting rack 1031 in the driving assembly 103 rotates during operation of the equipment, and the output end moving track 1033 of the double-shaft motor moves, at this time, the rubber attaching block 1035 outside the surface mounting block 1034 of the movable crawler 1033 is attached to fasten the cable, because the rubber material has better flexibility and is attached to the smooth surface of the cable, the rubber attaching block 1035 can fasten the cable, at this time, the movable crawler 1033 rotates to drive the rubber attaching block 1035 to move correspondingly, so as to provide power for the equipment, so that the equipment can move transversely on the cable more stably, meanwhile, when the equipment moves, the semi-arc bucket 3 forms an arc bucket to guide the cable, the cable enters the equipment, at this time, the heating arc plate 4 inside the semi-arc bucket preheats the cable preliminarily, so that the ice on the surface of the cable melts preliminarily, at this time, the first heating plate 54 inside the first deicing component 5 starts to operate through the first deicing component 5, when the cable with ice passes between the first heating plates 54, at the moment, the first heating plate 54 further heats the ice layer to rapidly melt the ice layer, and due to different thicknesses of the ice layer, when the ice layer is thick, the expansion spring 52 contracts to enable the first heating plate 54 to retract back to the inside of the first mounting box 51, and at the moment, the expansion link contracts to increase the gap between the first heating plate 54, so that the first deicing assembly 5 has certain toughness, the cable is prevented from being damaged due to too fast movement when the ice layer is thick and hard, after the first deicing assembly 5 carries out preliminary deicing, the cable with ice enters the ice breaking assembly 6, at the moment, the crushing wheel 64 in the ice breaking assembly 6 is in contact with the cable with ice, because the cable with ice is heated at two sides, the ice layer on the surface is fragile at the moment, the crushing wheel 64 rolls on the surface of the cable through the movement of the equipment, and the crushing teeth 65 crush the ice seal on the surface, thereby improving the convenience of subsequent deicing, when the ice layer is thick, the mounting rod 63 slides in the second mounting box 61 through the contraction and rebound of the return spring 62, so that the ice breaking assembly 6 has certain toughness, the damage to the surface of the cable or the damage to the inside of the equipment due to the pulling force when the ice layer is hard or thick is prevented, the service life of the equipment and the cable is effectively prolonged, when the cable continuously moves to reach the second ice breaking assembly 7, the second ice breaking assembly 7 is started, the vibration motor 72 in the motor box 71 operates to drive the second heating plate 73 at the output end to shake, the ice breaking assembly 6 preliminarily breaks the ice layer, the surface of the second heating plate 73 has temperature, the thicker ice layer is quickly fallen through the shake brought by the heat conduction cotton layer 74 and the vibration motor 72, the ice breaking and removing efficiency and precision are further improved, and the equipment can further break ice and remove ice, the damage of equipment and cables caused by strong and hard ice breaking when the ice layer on the surface of the cable is thick and hard is prevented, the ice layer on the surface of the cable is removed through the left arc filtering hopper 8 at the moment, so that the vast majority of ice layers on the surface of the cable are effectively reduced, the cable can be further scraped through the left arc filtering block 9 at the moment after being filtered by the left arc filtering hopper 8, so that the residue of water stain is further reduced, at the moment, the cable is moved into the drying bin 102 through the driving drying mechanism 10, the surface of the cable is further dried through the operation of the drying fan 101, at the moment, the air outlet 104 and the drying fan 101 form air circulation, so that the drying efficiency on the surface of the cable is improved, the separation net 105 is arranged to prevent external sundries from entering the equipment to cause inconvenience, when the dried cable is continuously moved and passes through the driving assembly 103, at this time, the water stain which is not dried on the surface of the cable can be further scraped by the right arc filtering block 14 inside the right arc filtering hopper 13 through the right arc filtering hopper 13, so that the dryness of the surface of the cable is further ensured, the energy storage device 16 is arranged, so that when the equipment is operated, the storage battery 163 in the storage battery box 162 can store electricity, the equipment can operate without being connected with a power supply, the use convenience of the equipment is effectively improved, the storage battery 163 is protected by arranging the rubber sealing layer 164, the insulation can be better realized, meanwhile, the storage battery 163 can be buffered when the equipment moves, so that the operation stability of the energy storage device 16 is ensured, when the equipment is used in daytime, the photovoltaic panel 161 can absorb light energy and convert the light energy into usable electric energy through the photovoltaic inverter, and the endurance and the environmental protection capability of the energy storage device 16 are improved by storing the photovoltaic panel 161 inside the storage battery 163, and then make the practicality of this equipment improve, the bottom of casing 2 and discharge through play water bucket 11 under the equipment operation ponding deposits in equipment operation, this equipment structure is simple, comparatively lightly easily carries, can get rid of the cable surface ice sheet effectively, can guarantee the life of cable simultaneously, and the practicality is strong, and application prospect is extensive, is worth using widely.

The foregoing is only a preferred embodiment of the present invention; the scope of the invention is not limited thereto. Any person skilled in the art should be able to cover the technical scope of the present invention by equivalent or modified solutions and modifications within the technical scope of the present invention.

Claims

1. A high-voltage cable deicing device for power detection comprises an upper shell (1) and a lower shell (2), and is characterized in that; the middle of the upper shell (1) and the middle of the lower shell (2) are hinged with each other through an articulated piece, the upper shell (1) and the lower shell (2) are made of plastic materials, the left end parts inside the upper shell (1) and the lower shell (2) are fixedly connected with a semi-arc bucket (3), the base body of the semi-arc bucket (3) is made of plastic materials, the inner side of the semi-arc bucket (3) is fixedly connected with a heating arc plate (4), the right side of the left end semi-arc bucket (3) in the upper shell (1) and the lower shell (2) is fixedly connected with a first deicing assembly (5), the upper shell (1) and the lower shell (2) on the right side of the first deicing assembly (5) are fixedly provided with an icebreaking assembly (6), the upper shell (1) and the lower shell (2) on the right side of the icebreaking assembly (6) are fixedly provided with a second deicing assembly (7), the left filtering arc bucket (8) is fixedly installed inside the middle of the upper shell (1) and the lower shell (2), the base material of the left filtering arc bucket (8) is made of plastic, the left filtering arc bucket (8) is fixedly installed on the left side inside the left filtering arc bucket (9), the driving drying mechanism (10) is arranged on the right side in the upper shell (1) and the lower shell (2), the water outlet bucket (11) is arranged on the left side and the middle of the lower shell (2) and on the left side corresponding to the left filtering arc bucket (8), the locking assemblies (12) are fixedly installed on the front sides of the end parts of the left side and the right side of the upper shell (1) and the lower shell (2), the right filtering arc bucket (13) is fixedly connected to the right side, the right filtering arc block (14) is fixedly connected to the right side inside the right filtering arc bucket (13), and the base bodies of the left filtering arc block (9) and the right filtering arc block (14) are made of rubber, a controller (15) is fixedly installed on the left side of the front face of the upper shell (1), a remote controller is arranged in the controller (15), and energy storage devices (16) are arranged on the surfaces of the upper shell (1) and the lower shell (2);

drive stoving mechanism (10) are including drying fan (101) and stoving storehouse (102), stoving storehouse (102) set up in last casing (1) and the inside right side of casing (2) down, drying fan (101) fixed mounting is in the outside right side of last casing (1) and casing (2) down, both ends all are equipped with drive assembly (103) about the right side in stoving storehouse (102), air outlet (104) have been seted up to stoving storehouse (102) positive upper end, casing (1) right side is seted up in air outlet (104), be equipped with in air outlet (104) and separate net (105).

2. The deicing apparatus for high-voltage cables for power detection according to claim 1, wherein: drive assembly (103) include mounting bracket (1031), mounting bracket (1031) fixed mounting is in top and bottom in stoving storehouse (102), the equal fixed mounting in both sides has double-shaft motor (1032) about mounting bracket (1031) medial extremity, double-shaft motor (1032) outside transmission is connected with removal track (1033), the left and right sides of removing track (1033) all is connected with the transmission of double-shaft motor (1032)'s front and back both ends output, it has installation piece (1034) to remove equidistant fixed mounting in track (1033) surface, the equal fixedly connected with rubber laminating piece (1035) in installation piece (1034) outside.

3. The deicing apparatus for high-voltage cables for power detection according to claim 1, wherein: first deicing subassembly (5) include first mounting box (51), first mounting box (51) respectively fixed mounting in the left surface of last casing (1) and casing (2) down, first mounting box (51) inboard is linked together with last casing (1) and casing (2) are inside down, the inside fixed mounting of first mounting box (51) has expanding spring (52), expanding spring (52) medial extremity fixedly connected with bracing piece (53), bracing piece (53) medial extremity fixedly connected with first hot plate (54), first hot plate (54) tangent plane shape is semi-circular.

4. The deicing apparatus for high-voltage cables for power detection according to claim 1, wherein: the ice breaking assembly (6) comprises a second mounting box (61), the second mounting box (61) is fixedly mounted on the surfaces of an upper shell (1) and a lower shell (2) on the right side of the first ice removing assembly (5), the inner side of the second mounting box (61) is communicated with the inner side of the upper shell (1) and the inner side of the lower shell (2), a return spring (62) is fixedly connected to the inner side of the second mounting box (61), a mounting rod (63) is fixedly mounted at the inner side end of the return spring (62), a breaking wheel (64) is rotatably connected to the inner side end of the mounting rod (63), and breaking teeth (65) are equidistantly arranged on the surface of the breaking wheel (64).

5. The deicing apparatus for high-voltage cables for power detection according to claim 1, wherein: second deicing subassembly (7) are including motor case (71), motor case (71) fixed mounting is in the surface of casing (1) and casing (2) down on the right side of subassembly (6) that opens ice, motor case (71) inboard is linked together with last casing (1) and casing (2) down, the inside fixed mounting of motor case (71) has vibrating motor (72), vibrating motor (72) inboard output end fixedly connected with second hot plate (73), the tangent plane shape of second hot plate (73) is the arc, the cotton layer of second hot plate (73) inboard fixedly connected with heat conduction (74).

6. The deicing apparatus for high-voltage cables for power detection according to claim 1, wherein: locking Assembly (12) are including two sets of fixed block (121), and are two sets of fixed block (121) fixed mounting is in the front both ends of last casing (1) and casing (2) down respectively, and is two sets of fixed block (121) inboard equal fixedly connected with magnet piece (122), two sets of there are padlock (123) and fastener (124) in the front of fixed block (121) fixed mounting respectively, padlock (123) and fastener (124) are lock joint each other.

7. The deicing apparatus for high-voltage cables for power detection according to claim 1, wherein: energy memory (16) include photovoltaic board (161) and accumulator case (162), photovoltaic board (161), the tangent plane shape of photovoltaic board (161) is the arc, photovoltaic board (161) fixed mounting is in the front and the back of last casing (1) and lower casing (2), accumulator case (162) fixed mounting is in the right side top of last casing (1) and the right side bottom of casing (2) down, equal fixed mounting has battery (163) in accumulator case (162), fixed mounting has rubber seal layer (164) in the outside cavity of accumulator case (162) inside battery (163).