CN113872099A - Tool for quickly removing winding film on line - Google Patents

Abstract

The invention discloses a tool for quickly removing a circuit winding film, which relates to the technical field of cleaning devices of high-voltage circuits and comprises an insulating support rod, a cleaning mechanism and a receiving mechanism, wherein the cleaning mechanism is arranged at the upper end of the insulating support rod, the receiving mechanism comprises a receiving rod, a receiving disc, baffles, a sliding block, a connecting rod, a sliding cylinder and an insulating operating rod, the receiving rod is arranged at the upper end of the insulating support rod, the receiving disc is arranged at the upper end of the receiving rod and is arranged below the cleaning mechanism, the edges of the receiving disc are hinged with a plurality of baffles, the sliding block is connected to the outer side of the baffles in a sliding manner, the sliding block is hinged to the upper end of the connecting rod which is obliquely arranged, the lower end of the connecting rod is connected with the sliding cylinder which is sleeved on the receiving rod, the sliding cylinder is connected with the receiving rod in a sliding manner, and the sliding cylinder is connected with the upper end of the insulating operating rod. The invention can quickly remove the wound film on the line and simultaneously collect the film separated from the line.

Description

Tool for quickly removing winding film on line

Technical Field

The invention relates to the technical field of cleaning devices for high-voltage lines, in particular to a tool for quickly cleaning a line winding film.

Background

Tens of thousands of acres of garlic are planted in white bridge towns with the beauty of 'village of garlic in China', the garlic needs higher heat preservation conditions when being planted in cold periods in winter, at present, most of the garlic adopts thin films for heat preservation, when coming in spring, the thin films are often wound on high-voltage lines along with artificial or external force damage, and frequent occurrence of strong wind weather, and the thin films wound on the high-voltage lines cause great challenges to stable and reliable operation of the lines.

At present, two main tools are available for rapidly cleaning a circuit winding film, the first tool, for example, chinese patent with application number CN201520784725.4 discloses "foreign matter removing scissors for live working of a power transmission line", as shown in fig. 1, the tool includes an insulating support rod 1 and a cleaning mechanism 2 arranged at the upper end of the insulating support rod 1, the cleaning mechanism 2 adopts a scissors structure to cut off the film wound on the circuit; secondly, for example, chinese patent application No. CN202110660950.7 discloses "laser gun of unmanned aerial vehicle for removing foreign matter from high voltage overhead transmission line and method thereof", the tool includes an unmanned aerial vehicle and a cleaning mechanism 2 carried by the unmanned aerial vehicle, the cleaning mechanism 2 includes a laser gun 21 and a laser source 22 which are electrically connected, when the unmanned aerial vehicle flies to the position on the line where the film is wound, the laser gun 21 irradiates energy laser beam onto the film, so that the film is partially fused and separated from the line.

When the two tools are used, the film wound on the line is separated from the line, the film separated from the line is left to fall, and the film separated from the line is not collected, so that the film separated from the line is easy to fall on other lines and is wound on the line again.

Therefore, how to collect the film separated from the line while quickly removing the film wound on the line is an urgent technical problem to be solved by those skilled in the art.

Disclosure of Invention

The invention aims at the defects in the prior art, and provides a tool for quickly removing a line wound film.

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

the utility model provides an instrument of clear away circuit winding film fast, including insulating support rod, clearance mechanism, receiving mechanism, the upper end of insulating support rod is equipped with clearance mechanism, receiving mechanism is including receiving the pole, the catch pan, the baffle, the slider, the connecting rod, a slide cartridge, insulating bar, the upper end of insulating support rod is equipped with the receiving rod, the upper end of receiving the pole is equipped with the catch pan, the below of clearance mechanism is located to the catch pan, the border of catch pan articulates there is a plurality of baffles, the outside sliding connection of baffle has the slider, the slider is articulated with the upper end of the connecting rod of slope setting, the lower extreme and the cover of connecting rod are established the slide cartridge on the receiving the pole and are connected, a slide cartridge and receiving rod sliding connection, the upper end of slide cartridge and insulating bar is connected.

Further, clearance mechanism includes laser big gun and laser source, the upper end of insulating support rod is equipped with the laser big gun, and the laser big gun is connected with the laser source electricity.

Furthermore, the upper end of the insulating support rod is provided with a bearing plate, the bearing plate is provided with a clamp, a laser gun is arranged between the bearing plate and the clamp, and the bearing plate is connected with the clamp through a fastener.

Furthermore, the insulating support rod is provided with a support anti-skid sleeve, and the insulating operating rod is provided with an operation anti-skid sleeve.

Furthermore, support cloth is arranged between every two adjacent baffles, and the two adjacent baffles are connected with the support cloth.

Further, still include adsorption apparatus structure, adsorption apparatus structure includes adsorbs extension board, adsorbs gasbag, adsorption hose, adsorbs the extension board to locate the below of slide cartridge, adsorb the extension board with the receiving rod is connected, adsorbs the upper end of gasbag and is connected with the slide cartridge, adsorbs the lower extreme of gasbag and is connected with adsorbing the extension board, the receiving disc is equipped with the absorption hole, and the absorption hole passes through adsorption hose and adsorbs the gasbag to be connected.

Further, the receiving rod is provided with an accommodating cavity, and the adsorption hose is arranged in the accommodating cavity.

Further, still include moving mechanism, moving mechanism is including removing the seat, removing the wheel, removing the handrail, removing a section of thick bamboo, removing the telescopic link, and the lower terminal surface that removes the seat is equipped with removes the wheel, is equipped with on removing the seat and removes the handrail, the up end that removes the seat be equipped with remove a section of thick bamboo with the laser source removes and is equipped with in a section of thick bamboo insulating support rod removes the upper end and the insulating support rod of telescopic link and is connected, removes the lower extreme and the removal of telescopic link and prop up a section of thick bamboo and be connected.

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

1. the invention can separate the film wound on the line from the line by using the cleaning mechanism and can also receive the film separated from the line by using the receiving mechanism, thereby avoiding the film separated from the line from falling onto other lines, reducing the probability of winding the film on the line again and being beneficial to ensuring the safe and stable operation of the line.

In addition, in the invention, the receiving mechanism can change the state of the baffle positioned at the edge of the receiving disc, when the insulating operating rod in the receiving mechanism is pulled down, the baffle can rotate outwards around the hinged part of the baffle and the edge of the receiving disc, so that the falling film can be received by utilizing the baffle and the receiving disc together, compared with the film which is received only by utilizing the receiving disc, the receiving area is increased, and the accuracy of the receiving film is improved; when the insulating operating rod is pushed up, the baffle can rotate inwards around the hinged position of the baffle and the edge of the receiving tray, so that the film falling on the receiving tray can be folded by the baffle, the probability that the film falling on the receiving tray and the baffle is blown away by wind is reduced, and the reliability of the receiving film is improved. Therefore, the accuracy and the reliability of collecting the film separated from the line are improved, the probability that the film is wound on the line again is further reduced, and the safe and stable operation of the line is further ensured.

Furthermore, the invention is particularly suitable for use where the line is wrapped with a suspension (e.g. film, plastic bag, kite).

2. The anti-skidding support sleeve and the anti-skidding operation sleeve are arranged, so that slipping caused by sweating of the palm of a worker when the insulation support rod and the insulation operation rod are operated can be avoided, the stability of the insulation support rod and the insulation operation rod is improved, the anti-skidding support sleeve and the anti-skidding operation sleeve are more stable and reliable in use, the anti-skidding support rod and the anti-skidding operation rod are prevented from being broken due to slipping of the hand of the worker and the insulation support rod or the insulation operation rod, the service life of the anti-skidding support rod and the anti-skidding operation sleeve is prolonged, delay of cleaning operation is avoided, and the maintenance cost can be saved.

3. According to the invention, the supporting cloth is arranged between the two adjacent baffles, so that the supporting cloth can be used for supplementing the gap between the two adjacent baffles after the baffles are unfolded, thereby preventing the film separated from the circuit from falling from the gap between the two adjacent baffles, further increasing the receiving area, further improving the accuracy of receiving the film, being beneficial to further reducing the probability of winding the film on the circuit again, and being more beneficial to ensuring the safe and stable operation of the circuit.

4. By arranging the adsorption mechanism, the film on the receiving disc can be adsorbed by utilizing the negative pressure generated by the adsorption air bag while the baffle in the receiving mechanism is folded towards the receiving disc, so that the wind power resistance of the film is improved, the film falling on the receiving disc and the baffle can be further prevented from being blown away by wind, the reliability of the receiving film is further improved, the probability of the film being wound on a line again is further reduced, and the safe and stable operation of the line is further ensured.

The adsorption mechanism provided by the invention can synchronously act with the receiving mechanism, when the insulating operating rod in the receiving mechanism is pulled, the baffle in the receiving mechanism is expanded, the adsorption air bag in the adsorption mechanism exhausts air outwards, and when the insulating operating rod in the receiving mechanism is pushed upwards, the adsorption air bag in the receiving mechanism generates negative pressure to adsorb the film on the receiving disc in the receiving mechanism, so that the adsorption mechanism does not need to be operated independently, only the receiving mechanism is operated, and the operation is convenient.

5. According to the invention, the receiving rod is provided with the accommodating cavity, and the adsorption hose in the adsorption mechanism is arranged in the accommodating cavity, so that the adsorption hose can be prevented from aging and cracking due to long-time exposure to the sun, the service life of the adsorption hose can be prolonged, the cost for replacing and maintaining the adsorption hose can be saved, the service life of the adsorption mechanism can be prolonged, the delay of cleaning operation can be avoided, and the maintenance cost can be saved.

6. The moving mechanism is arranged, so that the film cleaning machine can be conveniently moved, and when the film on the circuit is cleaned, workers do not need to manually lift the insulating support rod, so that the labor intensity of the workers is reduced, and the operation comfort level is improved.

Drawings

FIG. 1 is a first schematic structural diagram of the prior art;

FIG. 2 is a second schematic structural diagram of the prior art;

FIG. 3 is a schematic structural diagram of a tool for rapidly removing a wound film from a wire according to example 1;

FIG. 4 is a schematic view of the structure of a receiving mechanism according to embodiment 1;

FIG. 5 is a schematic view showing the structure of a receiving mechanism according to embodiment 2;

FIG. 6 is a schematic structural diagram of a tool for rapidly removing a wound film from a wire in accordance with embodiment 3 without a supporting cloth;

FIG. 7 is a schematic structural view of a receiving mechanism without a supporting cloth according to embodiment 3;

FIG. 8 is a cross-sectional view taken at line A-A of FIG. 7;

FIG. 9 is a schematic structural diagram of a tool for rapidly removing a wound film from a wire in accordance with example 4 without a support cloth.

In the figure:

1-an insulating support rod, 11-a bearing plate, 111-a hoop and 12-a support anti-skid sleeve,

2-cleaning mechanism, 21-laser gun, 22-laser source,

3-receiving mechanism, 31-receiving rod, 311-connecting rod, 312-containing cavity, 32-receiving disk, 321-adsorption hole, 33-baffle, 331-guide rail, 332-supporting cloth, 34-slide block, 341-dovetail groove, 35-connecting rod, 36-slide cylinder, 37-insulating operating rod and 371-operating anti-skid sleeve,

4-an adsorption mechanism, 41-an adsorption support plate, 42-an adsorption air bag, 43-an adsorption hose,

5-moving mechanism, 51-moving seat, 52-moving wheel, 53-moving handrail, 54-moving support tube and 55-moving telescopic rod.

Detailed Description

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

Example 1

As shown in fig. 3 and 4, a tool for quickly removing a winding film on a line comprises an insulating support rod 1, a cleaning mechanism 2 and a receiving mechanism 3.

The cleaning mechanism 2 comprises a laser gun 21 and a laser source 22. The upper end welding of insulating support rod 1 has bearing board 11, has placed laser big gun 21 on the bearing board 11, is equipped with clamp 111 on the bearing board 11, and clamp 111 is the arc, and clamp 111 passes through the fastener to be fixed on bearing board 11, and laser big gun 21 is hooped on bearing board 11 by clamp 111, and the fastener adopts the screw. When the laser cannon 21 needs to be installed on the upper end of the insulating support rod 1, firstly, a worker needs to put the laser cannon 21 on the bearing plate 11, then the worker buckles the hoop 111 on the laser cannon 21, and finally, the worker fixes the hoop 111 on the bearing plate 11 by using a screw of a fastener, so that the laser cannon 21 is installed on the upper end of the insulating support rod 1. The laser gun 21 is electrically connected to a laser source 22, and the laser source 22 may be placed directly on the ground.

The receiving mechanism 3 comprises a receiving rod 31, a receiving disc 32, a baffle 33, a slide block 34, a connecting rod 35, a slide cylinder 36 and an insulating operating rod 37. The upper end of insulating support rod 1 is equipped with receiving rod 31, and receiving rod 31 is vertical to be set up, and the lower extreme welding of receiving rod 31 has connecting rod 311, and connecting rod 311 is in the one end and the insulating support rod 1 welded fastening of keeping away from receiving rod 31. A receiving plate 32 is welded to the upper end of the receiving rod 31, and the receiving plate 32 is disposed below the laser gun 21 in the cleaning mechanism 2. The edge of the receiving disc 32 is hinged with a plurality of baffles 33, in the embodiment, the edge of the receiving disc 32 is hinged with four baffles 33, a guide rail 331 is welded on the outer side of each baffle 33, a dovetail groove 341 is formed in the sliding block 34, the dovetail groove 341 is matched with the guide rail 331, and the sliding block 34 can slide along the guide rail 331. The slide block 34 is hinged with the upper end of a connecting rod 35 which is obliquely arranged, the lower end of the connecting rod 35 is welded and fixed with a slide cylinder 36, the slide cylinder 36 is sleeved on the receiving rod 31, the slide cylinder 36 can slide up and down along the receiving rod 31, and the slide cylinder 36 is welded and fixed with the upper end of an insulating operating rod 37.

When the film wound on the line needs to be removed, the following operations need to be carried out: (1) firstly, a worker puts the tool for quickly removing the winding film of the line of the embodiment 1 to the vicinity of a working position and puts the laser source 22 in the cleaning mechanism 2 on the ground; (2) a worker lifts the insulating support rod 1 with one hand, and the laser gun 21 at the upper end of the insulating support rod 1 is close to the film wound on the line; (3) the other hand of the worker A pulls the insulation operating rod 37 downwards, the sliding cylinder 36 welded and fixed with the upper end of the insulation operating rod 37 downwards moves along the receiving rod 31 along with the downward movement of the insulation operating rod 37, the sliding cylinder 36 pulls the connecting rod 35 downwards along with the downward movement of the sliding cylinder 36, the connecting rod 35 pulls the sliding block 34 to downwards slide along the guide rail 331 on the baffle 33, so that the baffle 33 outwards rotates by taking the hinged part of the baffle 33 and the receiving disc 32 as a rotary center, and the baffle 33 at the edge of the receiving disc 32 outwards expands, so that the receiving disc 32 and the baffle 33 can be used for receiving the film separated from the line together; (4) the worker B starts the laser source 22 for supplying power to the laser gun 21, the laser gun 21 irradiates an energy laser beam onto the film, so that the film is partially fused and separated from the line, and the film separated from the line falls onto the receiving tray 32 and the baffle 33; (5) the worker A pushes up the insulating operating rod 37, so that the sliding barrel 36 moves upwards, the sliding barrel 36 pushes the connecting rod 35 to move upwards, the connecting rod 35 pushes the sliding block 34 to slide upwards along the guide rail 331 on the baffle 33, so that the baffle 33 rotates inwards around the hinged part of the baffle 33 and the receiving disc 32 as a rotation center, and the baffle 33 at the edge of the receiving disc 32 is folded inwards to fold the film into the receiving disc 32 and the baffle 33.

Through the above process, it can be known that: the instrument of line winding film is clear away fast that this embodiment 1 provided can utilize clearance mechanism 2 to break away from the circuit with the film of winding on the circuit, can also utilize receiving mechanism 3 will receive from the film that has broken away from the circuit, avoids letting the film that has broken away from the circuit on other circuits wafting to reduce the film probability of winding the circuit once more, be favorable to the safety and stability operation of guarantee circuit.

Moreover, in the tool for rapidly removing the winding film on the line provided in this embodiment 1, the receiving mechanism 3 can change the state of the baffle 33 located at the edge of the receiving tray 32, when the insulating operating rod 37 in the receiving mechanism 3 is pulled down, the baffle 33 can rotate outwards around the hinge joint between the baffle 33 and the edge of the receiving tray 32, so as to receive the falling film by using the baffle 33 and the receiving tray 32 together, and compared with the case of receiving the film by using only the receiving tray 32, the receiving area is increased, and the accuracy of receiving the film is improved; when the insulating operating rod 37 is pushed upwards, the baffle 33 can rotate inwards around the hinged part of the baffle 33 and the edge of the receiving tray 32, so that the film falling on the receiving tray 32 can be folded by the baffle 33, the probability that the film falling on the receiving tray 32 and the baffle 33 is blown away by wind is reduced, and the reliability of the receiving film is improved. Therefore, the accuracy and the reliability of collecting the film separated from the line are improved, the probability that the film is wound on the line again is further reduced, and the safe and stable operation of the line is further ensured.

In addition, the tool for rapidly removing the line winding film provided by the embodiment 1 is particularly suitable for occasions where the line is wound with a suspension (such as a film, a plastic bag and a kite).

Furthermore, the insulating support rod 1 is provided with a supporting anti-skid sleeve 12, the insulating operating rod 37 is provided with an operating anti-skid sleeve 371, and the supporting anti-skid sleeve 12 and the operating anti-skid sleeve 371 both adopt rubber sleeves. Through setting up support anti-skidding cover 12 and operation anti-skidding cover 371, can avoid because the palm of the hand of staff perspires and skids when operation insulating support rod 1 and insulating action bars 37, be favorable to improving the stability when operating insulating support rod 1 and insulating action bars 37, thereby make the instrument of clearing away circuit winding film fast of this embodiment 1 more reliable and more stable when using, avoid appearing skidding and breaking the instrument of clearing away circuit winding film fast of this embodiment 1 because staff's hand and insulating support rod 1 or insulating action bars 37, be favorable to prolonging the life of the instrument of clearing away circuit winding film fast of this embodiment 1, not only avoid hindering going on of clearance operation, can also save cost of maintenance.

Example 2

As shown in fig. 5, the present embodiment 2 is further improved on the basis of embodiment 1:

in the tool for rapidly removing the winding film on the line in the embodiment 2, a supporting cloth 332 is arranged between two adjacent baffles 33, and the two adjacent baffles 33 are fixed to the supporting cloth 332 through adhesion.

In example 1, after the flaps 33 are pivoted outward with the hinge joint of the flaps 33 and the receiving pan 32 as the pivot center, there is a gap between the adjacent two flaps 33, and the film that has been separated from the line may continue to fall through the gap between the adjacent two flaps 33.

In this embodiment 2, after the baffles 33 rotate outward with the hinge joint of the baffles 33 and the receiving tray 32 as the rotation center, the supporting cloth 332 between two adjacent baffles 33 is unfolded, and the film can be blocked by the supporting cloth 332; after the flaps 33 are rotated inward with the hinge of the flaps 33 and the catch tray 32 as a center of rotation, the support cloth 332 positioned between two adjacent flaps 33 can be stacked because the support cloth 332 is flexible.

Through the above process, it can be known that: this embodiment 2 is through setting up bearing cloth 332 between two adjacent baffles 33, can utilize bearing cloth 332 to supply the space between two adjacent baffles 33 after baffle 33 expandes, thereby can prevent that the film that has broken away from the circuit from dropping from the space between two adjacent baffles 33, then further increased the receiving area, further improved the accuracy of receiving the film, be favorable to further reducing the film probability of twining the circuit again, be favorable to guaranteeing the safe and stable operation of circuit more.

Example 3

As shown in fig. 6-8, the present embodiment 3 is further improved on the basis of embodiment 2:

in the tool for rapidly removing the winding film on the line of the embodiment 3, an adsorption mechanism 4 is further included. The suction mechanism 4 includes a suction stay 41, a suction bladder 42, and a suction hose 43. The suction stay 41 is provided below the slide tube 36, and the suction stay 41 is welded to the receiving rod 31. The upper end of the adsorption air bag 42 is fixed to the lower end of the slide tube 36 by adhesive, and the lower end of the adsorption air bag 42 is fixed to the upper end face of the adsorption plate 41 by adhesive. The receiving tray 32 is provided with an adsorption hole 321, the adsorption hole 321 is communicated with the adsorption air bag 42 through an adsorption hose 43, the receiving rod 31 is provided with an accommodating cavity 312, and the adsorption hose 43 is arranged in the accommodating cavity 312.

When the film wound on the line needs to be removed, the following operations need to be carried out: (1) firstly, a worker puts the tool for quickly removing the winding film of the line of the embodiment 3 to the vicinity of a working position and puts the laser source 22 in the cleaning mechanism 2 on the ground; (2) a worker lifts the insulating support rod 1 with one hand, and the laser gun 21 at the upper end of the insulating support rod 1 is close to the film wound on the line; (3) the other hand of the worker A pulls the insulation operating rod 37, the insulation operating rod 37 pulls the sliding cylinder 36 to move downwards, on one hand, the sliding cylinder 36 pulls the connecting rod 35 to move downwards along with the downward movement of the sliding cylinder 36, the connecting rod 35 pulls the sliding block 34 to slide downwards along the guide rail 331 on the baffle 33, so that the baffle 33 rotates outwards by taking the hinged joint of the baffle 33 and the receiving disc 32 as a rotary center, and the baffle 33 positioned at the edge of the receiving disc 32 is unfolded outwards, on the other hand, the downward moving sliding cylinder 36 presses the adsorption air bag 42 downwards, so that the inner cavity of the adsorption air bag 42 is squeezed and shrunk, and the air in the adsorption air bag 42 is discharged from the adsorption hole 321 of the receiving disc 32 through the adsorption hose 43; (4) the worker B starts the laser source 22 for supplying power to the laser gun 21, the laser gun 21 irradiates an energy laser beam onto the film, so that the film is partially fused and separated from the line, and the film separated from the line falls onto the receiving tray 32 and the baffle 33; (5) the worker pushes up the insulating operation rod 37 to move the sliding cylinder 36, on one hand, the sliding cylinder 36 pushes the connecting rod 35 to move upwards, the connecting rod 35 pushes the sliding block 34 to slide upwards along the guide rail 331 on the baffle 33, so that the baffle 33 rotates inwards with the hinged part of the baffle 33 and the receiving disc 32 as a rotation center, the baffle 33 at the edge of the receiving disc 32 is folded inwards to fold the film into the receiving disc 32 and the baffle 33, on the other hand, the sliding cylinder 36 pulls the adsorption air bag 42 to enlarge the inner cavity of the adsorption air bag 42, so that negative pressure exists in the inner cavity of the adsorption air bag 42, air above the receiving disc 32 enters the adsorption air bag 42 from the adsorption hose 43, and the film is adsorbed on the receiving disc 32 due to the fact that the film is carried on the receiving disc 32.

According to the process, the absorbing mechanism 4 is arranged in the embodiment 3, when the baffle 33 in the receiving mechanism 3 is folded towards the receiving tray 32, the negative pressure generated by the absorbing air bag 42 can be utilized to absorb the film on the receiving tray 32, the capability of the film for resisting wind power is improved, the film falling on the receiving tray 32 and the baffle 33 can be further prevented from being blown away by wind, the reliability of the receiving film is further improved, the probability that the film is wound on a circuit again is further reduced, and the safe and stable operation of the circuit is further facilitated to be ensured.

Further, the suction mechanism 4 provided in embodiment 3 can operate in synchronization with the receiving mechanism 3, and when the insulating operation rod 37 in the receiving mechanism 3 is pulled, the baffle 33 in the receiving mechanism 3 is extended, and the suction air bag 42 in the suction mechanism 4 is exhausted outward, and when the insulating operation rod 37 in the receiving mechanism 3 is pushed up, the suction air bag 42 in the receiving mechanism 3 generates a negative pressure to suck the film on the receiving tray 32 in the receiving mechanism 3, so that the suction mechanism 4 does not need to be operated alone, and only the receiving mechanism 3 needs to be operated, which is convenient to operate.

In addition, hold chamber 312 through the upper end setting at insulating bar 37, and establish the adsorption flexible pipe 43 among the adsorption apparatus 4 in holding chamber 312, can avoid adsorption flexible pipe 43 because expose for a long time under the sunlight and ageing cracked, be favorable to prolonging the life of adsorption flexible pipe 43, save the cost that the change maintenance adsorption flexible pipe 43 consumes, thereby be favorable to prolonging the life of adsorption apparatus 4, then be favorable to prolonging the life of the tool of this embodiment 3's a quick clear line winding film, avoid delaying going on of clearance operation, save cost of maintenance.

Example 4

As shown in fig. 9, the present embodiment 4 is further improved on the basis of embodiment 3:

in the tool for rapidly removing the winding film on the line of the embodiment 4, a moving mechanism 5 is further included. The moving mechanism 5 includes a moving base 51, a moving wheel 52, a moving armrest 53, a moving support 54, and a moving telescopic rod 55. Remove the lower terminal surface of seat 51 and install and remove wheel 52, remove the welding on the seat 51 and have a removal handrail 53, remove the welding of the up end of seat 51 and have a removal 54, remove and be equipped with insulating supporting rod 1 in the tube 54, remove telescopic link 55 and adopt electric putter, remove the upper end and the insulating supporting rod 1 welded fastening of telescopic link 55, remove the lower extreme and the removal 54 welded fastening of a section of thick bamboo of telescopic link 55. The laser source 22 in the cleaning mechanism 2 is placed on the movable base 51.

When the film wound on the line needs to be removed, the following operations need to be carried out: (1) the worker A firstly holds the movable handrail 53 to push the tool for quickly removing the winding film of the line of the embodiment 4 to the vicinity of the working position; (2) the first worker starts an electric push rod serving as a movable telescopic rod 55, the electric push rod extends, the extended electric push rod pushes up the insulating support rod 1, and when a laser gun 21 at the upper end of the insulating support rod 1 is close to a film wound on a line, the electric push rod is stopped; (3) the worker pulls the insulating operation rod 37 downward, so that the baffle 33 positioned at the edge of the receiving pan 32 is unfolded outward, and the air in the adsorption air bag 42 is exhausted from the adsorption hole 321 of the receiving pan 32 through the adsorption hose 43; (4) the first staff starts the laser source 22 for supplying power to the laser gun 21, the laser gun 21 irradiates energy laser beams on the film, so that the film is partially fused and separated from the line, and the film separated from the line falls onto the receiving tray 32 and the baffle 33; (5) the worker A pushes up the insulating operating rod 37, so that the baffle 33 positioned at the edge of the receiving tray 32 is folded inwards, negative pressure exists in the inner cavity of the adsorption air bag 42, and the film is adsorbed on the receiving tray 32.

Through the above process, it can be known that: this embodiment 4 is through setting up moving mechanism 5, can conveniently remove the instrument of this embodiment 4's a clear away circuit winding film fast to when clearing away the film on the circuit, need not staff and lift insulating support rod 1 with the manpower, be favorable to reducing staff's intensity of labour, improve operating comfort.

It will be apparent to those skilled in the art that various changes and modifications may be made in the present invention without departing from the spirit and scope of the invention. Thus, if such modifications and variations of the present invention fall within the scope of the claims of the present invention and their equivalents, the present invention is also intended to include such modifications and variations.

Claims (8)

1. The utility model provides a clear away instrument of circuit winding film fast, includes insulating support bar, clearance mechanism, and the upper end of insulating support bar is equipped with clearance mechanism, its characterized in that still includes receiving mechanism, and receiving mechanism includes receiving rod, catch pan, baffle, slider, connecting rod, slide cartridge, insulating bar, the upper end of insulating support bar is equipped with the receiving rod, and the upper end of receiving rod is equipped with the catch pan, and the catch pan is located clearance mechanism's below, the border of catch pan articulate has a plurality of baffles, and the outside sliding connection of baffle has the slider, and the slider is articulated with the upper end of the connecting rod that the slope set up, and the lower extreme and the cover of connecting rod are established and are established the slide cartridge on the receiving rod and be connected, slide cartridge and receiving rod sliding connection, and slide cartridge is connected with the upper end of insulating bar.

2. The tool for rapidly removing the wound film on the wire as claimed in claim 1, wherein the cleaning mechanism comprises a laser gun and a laser source, the upper end of the insulating support rod is provided with the laser gun, and the laser gun is electrically connected with the laser source.

3. The tool for rapidly removing the wire wrapping film as claimed in claim 2, wherein a support plate is provided at an upper end of the insulating support rod, a clamp is provided on the support plate, a laser gun is provided between the support plate and the clamp, and the support plate is connected to the clamp by a fastening member.

4. The tool for rapidly removing the winding film on the line as claimed in claim 2, wherein the insulating support rod is provided with a supporting anti-slip sleeve, and the insulating operation rod is provided with an operating anti-slip sleeve.

5. The tool for rapidly removing the wound film on the line according to claim 2, wherein a supporting cloth is arranged between two adjacent baffles, and the two adjacent baffles are connected with the supporting cloth.

6. The tool for rapidly removing the winding film on the line as claimed in claim 2, further comprising an adsorption mechanism, wherein the adsorption mechanism comprises an adsorption support plate, an adsorption air bag and an adsorption hose, the adsorption support plate is arranged below the sliding barrel, the adsorption support plate is connected with the receiving rod, the upper end of the adsorption air bag is connected with the sliding barrel, the lower end of the adsorption air bag is connected with the adsorption support plate, the receiving tray is provided with adsorption holes, and the adsorption holes are connected with the adsorption air bag through the adsorption hose.

7. The tool for rapidly removing the wound film on the line as claimed in claim 6, wherein the receiving rod is provided with a containing cavity, and the suction hose is arranged in the containing cavity.

8. The tool for rapidly removing the winding film on the line according to any one of claims 2 to 7, further comprising a moving mechanism, wherein the moving mechanism comprises a moving seat, a moving wheel, a moving handrail, a moving support tube and a moving telescopic rod, the moving wheel is arranged on the lower end surface of the moving seat, the moving handrail is arranged on the moving seat, the moving support tube and the laser source are arranged on the upper end surface of the moving seat, the insulating support rod is arranged in the moving support tube, the upper end of the moving telescopic rod is connected with the insulating support rod, and the lower end of the moving telescopic rod is connected with the moving support tube.

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