CN116544873B

CN116544873B - Deicing device for cable

Info

Publication number: CN116544873B
Application number: CN202310782077.8A
Authority: CN
Inventors: 梁刚; 刘大伟; 郑玉浩; 程祥; 李幸桦; 于学超; 李英涛; 顾泽林; 龚建刚
Original assignee: Weifang Power Supply Co of State Grid Shandong Electric Power Co Ltd
Current assignee: Weifang Power Supply Co of State Grid Shandong Electric Power Co Ltd
Priority date: 2023-06-29
Filing date: 2023-06-29
Publication date: 2023-08-29
Anticipated expiration: 2043-06-29
Also published as: CN116544873A

Abstract

The invention discloses a deicing device for cables, which comprises a bearing frame and a travelling mechanism, wherein the bearing frame is U-shaped, the travelling mechanism is arranged at two ends of the inside of the bearing frame, a cutting mechanism and an extrusion mechanism are arranged in the inside of the bearing frame through connecting rods, and the extrusion mechanism is arranged at one side, far away from the end travelling mechanism, of the cutting mechanism. According to the invention, the deicing operation is carried out on the frozen cable by matching the cutting mechanism with the extrusion mechanism, manual deicing at a high place is not needed, the labor intensity of manpower is reduced, the deicing speed of the cable is increased, and the working efficiency is improved.

Description

Deicing device for cable

Technical Field

The invention belongs to the technical field of line cleaning, and particularly relates to a deicing device for a cable.

Background

The high-voltage cable is the general mode of power transmission, outdoor high-voltage cable often can appear icing the phenomenon in winter, at certain cold areas, if high-voltage cable freezes for a long time or the volume of ice is too big for a long time, lead to the cable to sink, collapse easily, and also can influence power transmission, in addition, when needs carry out the maintenance or overhaul operation of a section high-voltage cable, ice layer on the high-voltage cable also can influence normal construction, consequently, need in time carry out deicing work to the cable that freezes, current deicing mode mostly is through the manual work: manual deicing is carried out by climbing to the height of the cable through staff, knocking ice blocks by using tools, deicing is carried out at a slower speed in a manual mode, and the labor intensity is high by knocking by long-time handheld tools, so that the working efficiency is reduced, meanwhile, the potential safety hazard exists in the manual deicing process, and safety accidents such as electric shock or falling are easily caused.

Disclosure of Invention

The invention aims to overcome the defects in the prior art, and provides the deicing device for the cable, which is used for deicing the frozen cable by matching the cutting mechanism with the extrusion mechanism, so that manual deicing at a high place is not needed, the manual labor intensity is reduced, the deicing speed of the cable is increased, and the working efficiency is improved.

In order to achieve the above purpose, the technical scheme adopted by the invention is as follows:

the utility model provides a defroster for cable, includes carrier, running gear, the carrier is the U type form, running gear installs at the inside both ends of carrier, carrier installs cutting mechanism and extrusion mechanism through the connecting rod inside, extrusion mechanism installs the one side that tip running gear was kept away from at cutting mechanism.

The cutting mechanism comprises a supporting seat, first L-shaped rods, first spiral cutting pieces, second spiral cutting pieces, a transmission shaft and a first motor, wherein the supporting seat is installed on a bearing frame through a connecting rod, the first L-shaped rods are installed at two ends of one side of the supporting seat, the transmission shaft is rotatably installed on the two first L-shaped rods, the first motor is installed on one of the first L-shaped rods and is connected with the transmission shaft, first supports are installed on two sides of one end of the supporting seat, the first spiral cutting pieces are rotatably installed on the two first supports, the first spiral cutting pieces are close to one end of the transmission shaft and penetrate through the first supports and are installed with first bevel gears, second supports are installed on two sides of the other end of the supporting seat, the second spiral cutting pieces are rotatably installed on the two second supports and penetrate through the second supports and are installed with third bevel gears, and fourth bevel gears meshed with the first bevel gears and second bevel gears meshed with the third bevel gears are installed on the transmission shaft.

The extrusion mechanism comprises a supporting plate, a first gear, a second gear, a third gear, a clamping plate and a second motor, wherein the supporting plate is installed on a bearing frame through a connecting rod, the first gear and the second gear are obliquely arranged and rotate to be installed on one side of the supporting plate, the first gear is connected with the second gear in a meshed mode, a plurality of pins are installed at the same position along the circumferential direction, the third gear is installed on the outer side between the first gear and the second gear through a bidirectional threaded rod, the third gear can be meshed with the pins on the first gear and the second gear, one end of the bidirectional threaded rod is rotatably installed on the supporting plate, the other end of the bidirectional threaded rod is rotatably installed on the bearing frame, a sliding block is installed on different threaded sections of the bidirectional threaded rod in a threaded mode, the clamping plate is installed at the top of the sliding block, the second motor is installed on one side, far away from the second gear, of the supporting plate is connected with the second gear in a penetrating mode through the supporting plate.

The running gear includes telescopic link, mounting bracket, sheave, fourth motor, the quantity of telescopic link is two and installs respectively in the both sides of bearing frame, the mounting bracket is the U type and installs the one end that keeps away from the bearing frame at the telescopic link, the sheave rotates and installs on the mounting bracket, the fourth motor is installed on one of them mounting bracket and is connected with the sheave.

Preferably, one end slidable mounting who is close to first support on the supporting seat has the connecting block, threaded mounting has the threaded rod on the connecting block, the both ends of threaded rod all extend to the both sides of connecting block, the carriage is installed to the one end that the threaded rod is close to the supporting seat, the carriage rotates with the threaded rod to be connected, the second L type pole is installed to one side that the carriage is close to first L type pole, second L type pole slidable mounting is on the transmission shaft, first support is installed on the carriage, the transmission shaft is close to the one end both sides of connecting block and installs the conducting bar, still install the axle sleeve on the transmission shaft, the one end at the axle sleeve is installed to fourth bevel gear, install the baffle on both sides, the axle sleeve of second L type pole, all seted up on axle sleeve and the fourth bevel gear with conducting bar matched with guide slot, the axle sleeve rotates with second L type pole to be connected.

Preferably, a rocking handle is arranged at one end of the threaded rod far away from the sliding frame.

Preferably, a plurality of protruding blocks are installed at one side of the clamping plate, which is close to each other.

Preferably, the extruding mechanism is kept away from cutting mechanism one side and is installed cleaning mechanism, cleaning mechanism includes branch, cleaning roller, third motor, band pulley, the quantity of branch is four and two liang symmetries install in the both sides of bearing frame, and two branch tip rotations of same side are installed and are cleaned the roller, the one end that cleans the roller extends to the outside of branch and installs the band pulley, installs the belt between two band pulleys, and the cable can pass from between the belt, the third motor is installed on branch and is connected with one of them cleaning roller.

The beneficial effects of the invention are as follows:

1) The deicing operation is carried out on the frozen cable through the cooperation of the cutting mechanism and the extrusion mechanism, manual deicing is not needed at a high place, the manual labor intensity is reduced, the deicing speed of the cable is accelerated, and the working efficiency is improved.

2) The threaded rod is rotated, the threaded rod is meshed with the connecting block, so that the threaded rod drives the sliding frame to move along the supporting seat, the first support, the first spiral cutting piece, the first bevel gear and the second L-shaped rod which are arranged on the sliding frame move along with the sliding frame, the shaft sleeve and the fourth bevel gear are driven by the second L-shaped rod to move along the conducting bar on the transmission shaft, the first bevel gear and the fourth bevel gear are always meshed, the distance between the first spiral cutting piece and the second spiral cutting piece is adjusted, ice with different thicknesses on a cable can be cut, and the application range of the device is enlarged.

3) And a rocking handle is arranged at one end of the threaded rod, which is far away from the sliding frame, so that the threaded rod is convenient to hold and rotate through the rocking handle, and the efficiency of work is improved.

4) Through installing a plurality of protruding pieces in the side that splint are close to each other, carry out extrusion through protruding piece to the cable that freezes and can improve the work efficiency of deicing.

5) Through keeping away from cutting mechanism one side at extrusion mechanism and installing cleaning mechanism, the work of third motor drives one of them and cleans the roller and rotate, and another cleans the roller and realizes rotating through band pulley and belt to realize two and clean the roller synchronous rotation, can clean the cable after the extrusion, prevent that the ice-cube from remaining on the cable, improved the effect of cable deicing.

Drawings

Fig. 1 is a schematic structural view of a deicing device for cables according to the present invention.

Fig. 2 is a bottom view of the present invention.

Fig. 3 is a schematic structural view of a cutting mechanism in the deicing device for cables according to the present invention.

Fig. 4 is a schematic view of a shaft sleeve structure of a deicing device for cables according to the present invention.

Fig. 5 is a schematic structural view of an extrusion mechanism in a deicing device for cables according to the present invention.

Fig. 6 is a schematic view of another side structure of an extrusion mechanism in the deicing device for cables according to the present invention.

Fig. 7 is a schematic structural view of a cleaning mechanism in the deicing device for cables.

Fig. 8 is a schematic view of a travelling mechanism in a deicing device for cables according to the present invention.

In the figure: 1. a carrier; 2. a walking mechanism; 201. a telescopic rod; 202. a mounting frame; 203. a sheave; 204. a fourth motor; 3. a cutting mechanism; 301. a support base; 302. a carriage; 303. a first L-shaped rod; 304. a connecting block; 305. a threaded rod; 306. a rocking handle; 307. a first support; 308. a first spiral cut sheet; 309. a first bevel gear; 310. a second support; 311. a second spiral cut sheet; 312. a second bevel gear; 313. a third bevel gear; 314. a transmission shaft; 315. a fourth bevel gear; 316. a second L-shaped rod; 317. a shaft sleeve; 318. a baffle; 319. a conducting bar; 320. a first motor; 4. an extrusion mechanism; 401. a support plate; 402. a first gear; 403. a second gear; 404. a pin; 405. a third gear; 406. a two-way threaded rod; 407. a slide block; 408. a clamping plate; 409. a protruding block; 410. a second motor; 5. a cleaning mechanism; 501. a support rod; 502. a cleaning roller; 503. a third motor; 504. a belt wheel; 505. a belt.

Detailed Description

The following description of the embodiments of the present invention will be made more fully hereinafter with reference to the accompanying drawings, in which it is shown, however, in an illustrative embodiment of the invention, in which some, but not all embodiments of the invention are shown. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

In the description of the present invention, it should be understood that the terms "longitudinal," "transverse," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like indicate or are based on the orientation or positional relationship shown in the drawings, merely to facilitate description of the present invention, and do not indicate or imply that the devices or elements referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be construed as limiting the present invention.

The deicing device for cables comprises a bearing frame 1 and a traveling mechanism 2, wherein the bearing frame 1 is U-shaped, the traveling mechanism 2 is arranged at two ends inside the bearing frame 1, a cutting mechanism 3 and an extruding mechanism 4 are arranged inside the bearing frame 1 through connecting rods, the extruding mechanism 4 is arranged at one side of the cutting mechanism 3 far away from the end traveling mechanism 2, the cutting mechanism 3 comprises a supporting seat 301, a first L-shaped rod 303, a first spiral cutting blade 308, a second spiral cutting blade 311, a transmission shaft 314 and a first motor 320, the supporting seat 301 is arranged on the bearing frame 1 through connecting rods, the first L-shaped rod 303 is arranged at two ends of one side of the supporting seat 301, the transmission shaft 314 is rotatably arranged on two first L-shaped rods 303, the first motor 320 is arranged on one first L-shaped rod 303 and is connected with the transmission shaft 314, a first supporting seat 307 is arranged at two sides of one end of the supporting seat 301, the first spiral cutting blades 308 are rotatably installed on the two first supports 307, one end of the first spiral cutting blade 308, which is close to the transmission shaft 314, passes through the first supports 307 and is provided with a first bevel gear 309, two sides of the other end of the supporting seat 301 are provided with second supports 310, the second spiral cutting blade 311 is rotatably installed on the two second supports 310, one end of the second spiral cutting blade 311, which is close to the transmission shaft 314, passes through the second supports 310 and is provided with a third bevel gear 313, the transmission shaft 314 is provided with a fourth bevel gear 315 meshed with the first bevel gear 309 and a second bevel gear 312 meshed with the third bevel gear 313, an icing cable is placed below the transmission shaft 314 between the first spiral cutting blade 308 and the second spiral cutting blade 311, the first motor 320 operates to drive the transmission shaft 314 to rotate, the fourth bevel gear 315 positioned on the transmission shaft 314, the second bevel gear 312 rotates along with the rotation, the first bevel gear 309 is meshed with the fourth bevel gear 315 to drive the first spiral cutting blade 308 to rotate, and the second bevel gear 312 is meshed with the third bevel gear 313 to drive the second spiral cutting blade 311 to rotate, so that the surface of the cable is cut, the tightness of the cable is damaged, and the cable is convenient to extrude.

The end of the supporting seat 301 close to the first support 307 is slidably provided with a connecting block 304, the connecting block 304 is provided with a threaded rod 305 in a threaded manner, both ends of the threaded rod 305 extend to both sides of the connecting block 304, one end of the threaded rod 305 close to the supporting seat 301 is provided with a sliding frame 302, the sliding frame 302 is rotationally connected with the threaded rod 305, one side of the sliding frame 302 close to the first L-shaped rod 303 is provided with a second L-shaped rod 316, the second L-shaped rod 316 is slidably arranged on a transmission shaft 314, the first support 307 is arranged on the sliding frame 302, both sides of one end of the transmission shaft 314 close to the connecting block 304 are provided with guide bars 319, the transmission shaft 314 is also provided with a shaft sleeve 317, the fourth bevel gear 315 is arranged at one end of the shaft sleeve 317, both sides of the second L-shaped rod 316 and the shaft sleeve 317 are provided with baffles 318, the shaft sleeve 317 and the fourth bevel gear 315 are provided with guide grooves matched with the guide bars 319, the shaft sleeve 317 is rotationally connected with the second L-shaped rod 316, the threaded rod 305 is meshed with the connecting block 304 through rotating the threaded rod 305, so that the threaded rod 305 drives the sliding frame 302 to move along the supporting seat 301, the first support 307, the first spiral cutting blade 308, the first bevel gear 309 and the second L-shaped rod 316 which are positioned on the sliding frame 302 move along with the sliding frame, the second L-shaped rod 316 drives the shaft sleeve 317 and the fourth bevel gear 315 to move along the guide bars 319 on the transmission shaft 314, so that the first bevel gear 309 and the fourth bevel gear 315 are always meshed, the distance between the first spiral cutting blade 308 and the second spiral cutting blade 311 is adjusted, ice with different thicknesses on a cable can be cut, the using range of the device is enlarged, one end of the threaded rod 305 which is far away from the sliding frame 302 is provided with the rocking handle 306, the rocking handle 305 is convenient to hold and rotate through the rocking handle 306, is beneficial to improving the working efficiency.

The extrusion mechanism 4 comprises a supporting plate 401, a first gear 402, a second gear 403, a third gear 405, a clamping plate 408 and a second motor 410, wherein the supporting plate 401 is installed on the bearing frame 1 through a connecting rod, the first gear 402 and the second gear 403 are obliquely arranged and rotatably installed on one side of the supporting plate 401, the first gear 402 and the second gear 403 are in meshed connection, a plurality of pins 404 are installed at the same position along the circumferential direction, the third gear 405 is installed on the outer side between the first gear 402 and the second gear 403 through a bidirectional threaded rod 406, the third gear 405 can be in meshed connection with the pins 404 on the first gear 402 and the second gear 403, one end of the bidirectional threaded rod 406 is rotatably installed on the supporting plate 401, the other end of the bidirectional threaded rod 406 is rotatably installed on the bearing frame 1, sliding blocks 407 are threadedly installed on different thread sections of the bidirectional threaded rod 406, the clamping plate 408 is installed on the top of each sliding block 407, the second motor 410 is installed on one side of the support plate 401 far away from the second gear 403, the second motor 410 passes through the support plate 401 to be connected with the second gear 403, the second motor 410 works to drive the second gear 403 to rotate, the second gear 403 is meshed with the first gear 402 to drive the first gear 402 to rotate, when a pin column 404 on the first gear 402 contacts with a third gear 405, the third gear 405 rotates clockwise to drive a bidirectional threaded rod 406 to rotate to drive two sliding blocks 407 to move towards each other, further drive two clamping plates 408 to squeeze the cut frozen cable, ice on the surface of the squeezed cable is crushed, thereby completing the cable deicing work, when the pin column 404 on the second gear 403 contacts with the third gear 405, the third gear 405 rotates anticlockwise to drive the bidirectional threaded rod 406 to rotate and drive the two sliding blocks 407 to move away from each other, the process is repeated, frozen cable can be continuously squeezed, a plurality of protruding blocks 409 are installed to the side that splint 408 is close to each other, extrudes the cable that freezes through protruding blocks 409 can improve deicing's work efficiency.

Running gear 2 includes telescopic link 201, mounting bracket 202, sheave 203, fourth motor 204, the quantity of telescopic link 201 is two and installs respectively in the both sides of bearing frame 1, mounting bracket 202 is the U type and installs the one end of keeping away from bearing frame 1 at telescopic link 201, sheave 203 rotates and installs on mounting bracket 202, fourth motor 204 is installed on one of them mounting bracket 202 and is connected with sheave 203, drives sheave 203 through the extension of telescopic link 201 and moves to the both sides of cable, drives sheave 203 through fourth motor 204 work and rotates to make two sheaves 203 follow the cable motion, and then realize the removal of whole device.

The extrusion mechanism 4 is kept away from cutting mechanism 3 one side and is installed and clean mechanism 5, clean mechanism 5 includes branch 501, cleans roller 502, third motor 503, band pulley 504, the quantity of branch 501 is four and two liang symmetries install in the both sides of bearing frame 1, and two branch 501 tip rotations of same side are installed and are cleaned roller 502, the one end that cleans roller 502 extends to the outside of branch 501 and installs band pulley 504, installs belt 505 between two band pulleys 504, and the cable can pass between belt 505, third motor 503 installs on branch 501 and is connected with one of them cleans roller 502, drives one of them and cleans roller 502 through the work of third motor 503 and rotates, and another cleans roller 502 and belt 505 realization rotate to realize two and clean roller 502 synchronous rotations, can clean the cable after the extrusion, prevent that the ice-cube from remaining on the cable, improved the effect of cable deicing.

The foregoing is merely illustrative and explanatory of the invention, as it is well within the scope of the invention as claimed, as it relates to various modifications, additions and substitutions for those skilled in the art, without departing from the inventive concept and without departing from the scope of the invention as defined in the accompanying claims.

Claims

1. The deicing device for the cable comprises a bearing frame and a travelling mechanism, wherein the bearing frame is U-shaped, and the travelling mechanism is arranged at two ends of the inside of the bearing frame; the cutting mechanism comprises a supporting seat and a first L

The support seat is arranged on the bearing frame through a connecting rod, the first L-shaped rods are arranged at two ends of one side of the support seat, the transmission shaft is rotatably arranged on the two first L-shaped rods, the first motor is arranged on one of the first L-shaped rods and is connected with the transmission shaft, first supports are arranged at two sides of one end of the support seat, the first spiral cutting sheets are rotatably arranged on the two first supports, the first spiral cutting sheets penetrate through the first supports near one end of the transmission shaft and are provided with first bevel gears, the second supports are arranged at two sides of the other end of the support seat, the second spiral cutting sheets are rotatably arranged on the two second supports, the second spiral cutting sheets penetrate through the second supports near one end of the transmission shaft and are provided with third bevel gears, and fourth bevel gears meshed with the first bevel gears and second bevel gears meshed with the third bevel gears are arranged on the transmission shaft;

the connecting block is slidably mounted at one end, close to the first support, of the supporting seat, the threaded rod is mounted on the connecting block in a threaded manner, two ends of the threaded rod extend to two sides of the connecting block, a sliding frame is mounted at one end, close to the supporting seat, of the threaded rod, the sliding frame is rotationally connected with the threaded rod, a second L-shaped rod is mounted at one side, close to the first L-shaped rod, of the sliding frame, the second L-shaped rod is slidably mounted on the transmission shaft, the first support is mounted on the sliding frame, guide bars are mounted at two sides, close to the connecting block, of the transmission shaft, a shaft sleeve is further mounted on the transmission shaft, a fourth bevel gear is mounted at one end of the shaft sleeve, baffle plates are mounted on two sides and the shaft sleeve of the second L-shaped rod, guide grooves matched with the guide bars are formed in the shaft sleeve and the fourth bevel gear, and the shaft sleeve is rotationally connected with the second L-shaped rod;

the extrusion mechanism comprises a supporting plate, a first gear, a second gear, a third gear, a clamping plate and a second motor, wherein the supporting plate is installed on a bearing frame through a connecting rod, the first gear and the second gear are obliquely arranged and rotatably installed on one side of the supporting plate, the first gear is in meshed connection with the second gear, a plurality of pins are installed at the same position along the circumferential direction, the third gear is installed on the outer side between the first gear and the second gear through a bidirectional threaded rod, the third gear can be in meshed connection with the pins on the first gear and the second gear, one end of the bidirectional threaded rod is rotatably installed on the supporting plate, the other end of the bidirectional threaded rod is rotatably installed on the bearing frame, sliding blocks are installed on different thread sections of the bidirectional threaded rod in a threaded mode, the clamping plate is installed at the top of the sliding blocks, the second motor is installed on one side, far away from the second gear, of the supporting plate, and the second motor penetrates through the supporting plate and is connected with the second gear;

the utility model discloses a cleaning machine, including cutting mechanism, extruding mechanism is kept away from cutting mechanism one side and is installed cleaning mechanism, cleaning mechanism includes branch, cleaning roller, third motor, band pulley, the quantity of branch is four and two liang symmetries install in the both sides of bearing frame, and two branch tip rotations of same side are installed and are cleaned the roller, the one end that cleans the roller extends to the outside of branch and installs the band pulley, installs the belt between two band pulleys, and the cable can pass between the belt, the third motor is installed on branch and is connected with one of them cleaning roller.

2. A deicing device for electric cables according to claim 1, characterized in that said threaded rod is provided with a rocking handle at the end remote from the carriage.

3. A deicing device for electric cables according to claim 1, characterized in that said clamping plates are provided with a plurality of protruding blocks on the side thereof which is close to each other.

4. The deicing device for cables according to claim 1, wherein the travelling mechanism comprises two telescopic rods, two mounting frames, a sheave and a fourth motor, the two telescopic rods are respectively arranged on two sides of the bearing frame, the mounting frames are U-shaped and are arranged at one ends of the telescopic rods far away from the bearing frame, the sheave is rotatably arranged on the mounting frames, and the fourth motor is arranged on one of the mounting frames and is connected with the sheave.