CN118954389B - A device for loading and fixing tools for aerial work - Google Patents

Abstract

The invention discloses a loading and fixing device for tools and tools for aloft work, and relates to the technical field of loading and fixing of tools and tools. Including mainboard subassembly, bearing assembly and electric connection subassembly, mainboard subassembly is carried to the high altitude by electric power maintainer, bears subassembly and electric connection subassembly and keeps somewhere ground, when electric power maintainer arrives working position, will be in the inside connecting rope of mainboard subassembly and put down, connecting rope comprises inside electric connection internal line and the wear-resisting skin of parcel at electric connection internal line outer wall. According to the invention, the connecting rope is connected with the power receiving assembly to form a loop, the driving assembly which clamps the connecting rope is arranged on the bearing assembly, the connecting rope forming the loop supplies power for the driving assembly, the first loading plate and the second loading plate which are used for placing tools are arranged on the front surface of the bearing assembly, and the bearing assembly loaded with the tools is lifted to the position of an electric power maintainer under the action of the driving assembly, so that the tools can be replaced quickly, and the electric power maintainer can use conveniently.

Description

High-altitude operation tool loading and fixing device

Technical Field

The invention relates to the technical field of loading and fixing of tools, in particular to a loading and fixing device for tools for high-altitude operation.

Background

The high-altitude operation refers to various operation activities performed at a place higher than the ground, and generally relates to construction, maintenance, cleaning and other works, because the high-altitude operation has a certain danger, the high-altitude operation is required to follow strict safety specifications and operation flows, the power line maintenance is an important work for ensuring the safe, stable and efficient operation of a power system, the high-altitude operation comprises the steps of periodically inspecting the power line, checking whether insulation, wires, brackets and the like of the line are intact, improving the inspection efficiency and the safety, timely finding and removing faults, detecting parameters such as current, voltage and the like of the line by using professional equipment, ensuring the normal operation of the line and the like, rapidly analyzing reasons for the faults, taking corresponding repair measures, and at present, in the high-altitude operation of various power line emergency maintenance works, power maintenance personnel often need to carry tools and climb to the high place of a line pole by using tools such as pedals, then starting related emergency maintenance work after reaching a working position, and carrying the required tools with the tools.

The multifunctional overhead working transferring tool with the patent publication number of CN107311025A is convenient to operate and firm in fixation, and can be suitable for various tools and equipment. In addition, the device is designed with multiple locks, so that the tools are prevented from falling in mid-air during tool transmission, and the safety is ensured. The clamping pliers can be pulled open through the sliding rod, and can be more firmly fixed when the rod body or the insulator are fixed. When the rod body and the insulator do not need to be fixed, the two clamping pincers can be butted into one clamping pincers, and the use is convenient. The supporting and locking device is arranged above the clamping pliers to play a role in locking, so that the operation safety is ensured.

The technical scheme is that in the working process of the electric power maintainer, as a plurality of tools and instruments carried by the electric power maintainer are needed to be carried on the body during high-altitude operation, the physical strength of the electric power maintainer is wasted, the working strength of the electric power maintainer is increased, and when the electric power maintainer needs to carry more tools, the electric power maintainer can only work in a mode of increasing the carrying capacity or carrying the tools in batches when the electric power maintainer is not carried at one time, but the physical consumption of the electric power maintainer is increased by increasing the carrying capacity, dangerous accidents are easy to occur, the working efficiency is influenced when the tools are carried in batches, the tools inconvenient to operate exist when the electric power maintainer works, and certain interference is caused to the work of the electric power maintainer at the moment.

Disclosure of Invention

The invention aims to provide a loading and fixing device for an aerial working tool, which solves the problems in the background technology.

The invention provides a loading and fixing device for an aerial working tool, which comprises a main board assembly, a bearing assembly and an electric connection assembly, wherein the main board assembly is carried to the high altitude by an electric power maintainer, the bearing assembly and the electric connection assembly are kept on the ground, when the electric power maintainer reaches a working position, a connecting rope in the main board assembly is put down, and the connecting rope consists of an inner electric connection wire and a wear-resistant skin wrapped on the outer wall of the inner electric connection wire, so that a loop can be formed when the connecting rope is connected with the electric connection assembly, a driving assembly for clamping the connecting rope is arranged on the back surface of the bearing assembly, the connecting rope forming the loop supplies power for the driving assembly, and a first loading plate and a second loading plate for placing tools are arranged on the front surface of the bearing assembly, and under the action of the driving assembly, the bearing assembly loaded with tools is lifted to the position of the electric power maintainer, thereby being convenient for quick replacement of the tools and convenient for the use of the electric power maintainer;

The bearing assembly comprises a lifting plate, one side of the lifting plate is fixedly provided with a mechanical arm, the mechanical arm can take tools on the first loading plate and the second loading plate and interact with electric power maintenance personnel, the work of the electric power maintenance personnel is facilitated to be assisted, the connecting rope is movably limited through a clamping assembly arranged inside the main board assembly in the process of winding and unwinding, after the work of the electric power maintenance personnel is finished, the driving assembly controls the bearing assembly to descend to the ground and releases the clamping of the connecting rope, the ground staff is disconnected with the connection of the connecting rope and the electric power connection assembly, the electric power maintenance personnel in the air controls the main board assembly to recycle the connecting rope and carry the main board assembly to the ground again, and the work is completed.

Still further, the mainboard subassembly includes the main tank, and rotate between the both ends inner wall of main tank and be connected with the wind-up roll that is used for carrying out the rolling to connecting the rope, connect the equal fixed connection of rope at the surface of wind-up roll, and form the passageway under the effect of wind-up roll, the equal fixedly connected with counter weight ring in bottom of connecting the rope, be used for when releasing connecting the rope, connect the rope and can smoothly and arrive ground fast, the bottom outer wall fixedly connected with of counter weight ring and connect electric inner wire electric connection's joint, and the outer wall cover of joint has the protective housing that is used for protecting the joint, the one end outer wall rotation of main tank is connected with the carousel that is used for controlling the wind-up roll.

Still further, the clamping component comprises a moving block, a plurality of moving grooves for winding and unwinding the connecting ropes are formed in the bottom of the main box, the moving block is inserted in the moving grooves, clamping blocks are fixedly connected to the two sides of the moving block, clamping grooves matched with the clamping blocks are formed in the inner walls of the two sides of the moving groove, clamping rings used for limiting the connecting ropes are fixedly connected to the outer walls of one ends of the moving block, outer grooves capable of being directly connected with the connecting inner wires are formed in the outer walls of the connecting ropes, limiting balls in contact with the connecting inner wires are rotatably connected to the outer walls of one ends of the moving block, and the limiting balls can be clamped in the outer grooves all the time in the lifting process of the connecting ropes, so that the directions of the outer grooves are always consistent.

Still further, the drive assembly includes driving motor, and driving motor is fixed connection in one side outer wall of lifter plate respectively, the opposite side outer wall of lifter plate rotates respectively and is connected with the main dwang that is connected with driving motor, and the outer wall of main dwang is equal fixedly connected with and is used for carrying out the first spacing dish of screens to connecting the rope, the opposite side outer wall fixedly connected with of lifter plate a plurality of second solid fixed rings and first solid fixed ring, and the circumference inner wall rotation of second solid fixed ring is connected with the rotary drum, the inner wall of first solid fixed ring is provided with the horizontal pole, the one end outer wall of horizontal pole all sets up to the helicitic texture, and the horizontal pole is pegged graft at the both ends outer wall of rotary drum respectively through the screw thread, the one end outer wall of horizontal pole all fixedly connected with connects the electric shoe, connect the one end of electric shoe all to rotate and be connected with the electric ball, connect the electric ball with connect electric inner wire contact, and connect the electric post at the lifter plate back with electricity, connect the electric post to be connected with driving motor respectively.

Still further, the top and the bottom of electric connection piece all fixedly connected with second limiting plate, all rotate between the both sides inner wall of second limiting plate and be connected with auxiliary rotating rod for cooperation main rotating rod is with connecting rope clamp tightly.

Still further, connect the electric subassembly and include the electric box, and the top outer wall of electric box is opened and is had the electric hole that connects the electric head adaptation, and the top outer wall of electric box is provided with knob and display panel respectively, and is provided with the power cord on the electric box for connect external power source, and charge electric box self.

Furthermore, a plurality of braces, couple and guard bar of back fixedly connected with of main tank, and the guard bar is the elasticity material, and at the in-process that electric power maintainer carried on the back, can provide certain buffering protection effect to electric power maintainer's back.

Still further, the circumference outer wall fixedly connected with of rotatory section of thick bamboo a plurality of protruding poles, and protruding pole is the elasticity material, and ground staff holds and rotates rotatory section of thick bamboo control horizontal pole and remove.

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

The utility model provides a high altitude construction tool loads and fixing device, through the mainboard subassembly that sets up, mainboard subassembly is carried to the high altitude by electric power maintainer, bear subassembly and connect the electric component to keep somewhere ground, wait when electric power maintainer arrives working position, will be in the inside connecting rope of mainboard subassembly and put down, because connecting rope comprises the inside electric inner wire that connects and the wearing skin of parcel at electric inner wire outer wall, consequently, when connecting rope and electric component connection, can form the return circuit, the back of bearing the weight of the subassembly is provided with the drive assembly who is used for pressing from both sides connecting rope tight, the connecting rope that forms the return circuit is the drive assembly power supply, and the front of bearing the weight of subassembly is provided with first loading plate and the second loading plate that is used for placing the instrument, under drive assembly's effect, will load the position that the bearing the weight of instrument to electric power maintainer, be convenient for carry out quick replacement to the instrument and make things convenient for electric power maintainer's use.

Meanwhile, tools needed by ground workers are respectively arranged on the first loading plate and the second loading plate, the tools with different sizes can be respectively placed on the first loading plate and the second loading plate, the mechanical arm is controlled by an aerial power maintainer, and the mechanical arm is generally set with module data, and the positions of the first loading plate and the second loading plate are fixed, so that the power maintainer can take the tools arranged on the first loading plate and the second loading plate at the appointed position by controlling the mechanical arm through a handheld controller when the tools are needed.

Moreover, in the process of winding and unwinding the connecting rope, the winding position of the connecting rope on the outer wall of the winding roller can be changed as the winding roller is used for winding or unwinding the connecting rope, and the connecting rope is limited through the movable block capable of transversely moving and the clamping ring, so that the connecting rope is ensured to transversely move as the winding and unwinding of the winding roller, the connecting rope is prevented from being pulled, the consistency of the outer groove direction can be always kept in the process of winding and unwinding by the limiting balls, and the lifting of the driving assembly caused by winding of the connecting rope is prevented from being interfered.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present invention;

FIG. 2 is a schematic view of a power connection assembly according to the present invention;

FIG. 3 is a schematic diagram of a motherboard assembly according to the present invention;

FIG. 4 is a schematic view of the structure of the connecting rope and the connector according to the present invention;

FIG. 5 is a schematic diagram of a detent assembly according to the present invention;

FIG. 6 is a schematic view of the back structure of the motherboard assembly of the present invention;

FIG. 7 is a schematic view of a carrier assembly according to the present invention;

FIG. 8 is a schematic view of a spacing assembly according to the present invention;

Fig. 9 is a schematic view of the structure of the power receiving ball of the present invention.

In the figure, 1, a main board assembly, 101, a main box, 102, a connecting rope, 103, a movable groove, 104, a turntable, 105, an electric connection inner wire, 106, an abrasion-resistant leather, 107, a counterweight ring, 108, an electric connection head, 109, a protective shell, 110, a brace, 111, a protective rod, 112, a hook, 2, a clamping assembly, 201, a movable block, 202, a clamping groove, 203, a clamping ring, 204, a limit ball, 205, a clamping block, 3, a bearing assembly, 301, a lifting plate, 302, a first loading plate, 303, a second loading plate, 304, a mechanical arm, 4, a driving assembly, 401, a driving motor, 402, a main rotating rod, 403, a first limiting disc, 404, an electric connection block, 405, a second limiting disc, 406, an auxiliary rotating rod, 407, a cross rod, 408, a first fixing ring, 409, a rotating cylinder, 410, a convex rod, 411, a second fixing ring, 412, an electric connection column, 413, an electric connection ball, 5, an electric connection assembly, 501, an electric connection box, 502, an electric connection hole, 503, a knob, a power supply line, 505, a display panel and a wire.

Detailed Description

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

When an electric power maintainer performs high-altitude operation, as a plurality of tools and instruments are carried about, the tools and instruments are required to be carried on a body during the high-altitude operation, the physical strength of the electric power maintainer is wasted, the working strength of the electric power maintainer is increased, the situation of potential safety hazards is accompanied, the phenomenon that the tools and instruments fall off is easy to occur, the damage of the tools and instruments is caused when the tools and instruments are light, the lower staff is injured when the tools and instruments are heavy, and the casualties are caused, the technical scheme provided by the application divides the tool loading device into three parts, wherein the first part is a main board component, the second part is a bearing component, the third part is an electric connection component, the main board component and the electric connection component are in detachable electric connection, the main board component is stopped on the ground by the electric power maintainer, when the main board component of the electric power maintainer rises to the high altitude, the main board component is fixed in the high altitude, the connecting rope in the main board component is put down and connected with the electric connecting component, and the special connecting rope can form a loop with the electric connecting component, so that when the bearing component is fixed on the surface of the connecting rope, the connecting rope can supply power to the bearing component, thereby driving the bearing component to lift, further lifting the tool arranged on the bearing component to the high altitude together, or sending the tool in the high altitude to the ground for replacement, and the main board component, the bearing component and the electric connecting component are respectively independent individuals, so that the main board component, the bearing component and the electric connecting component have the characteristics of quick assembly and disassembly and convenient use, thereby saving the physical strength of electric power maintenance personnel to the greatest extent, improving the protection effect on the electric power maintenance personnel, and in the working process of the electric power maintenance personnel, when the tool or the instrument which is inconvenient to operate exists, the mechanical arm can assist in holding the tool, for example, when the power maintenance personnel cannot conveniently hold or take the tool, the mechanical arm can assist in taking or supporting the tool, and further, the work of the power maintenance personnel is assisted.

As shown in fig. 1, 3, 4 and 7, the invention provides a technical scheme that the loading and fixing device for an aerial working tool comprises a main board component 1, a bearing component 3 and an electric connection component 5, wherein the main board component 1 is carried to the high altitude by an electric power maintenance person, the bearing component 3 and the electric connection component 5 are left on the ground, when the electric power maintenance person arrives at a working position, a connecting rope 102 positioned in the main board component 1 is put down, and because the connecting rope 102 consists of an inner electric connection line 105 and a wear-resistant skin 106 wrapped on the outer wall of the inner electric connection line 105, a loop can be formed when the connecting rope 102 is connected with the electric connection component 5, a driving component 4 for clamping the connecting rope 102 is arranged on the back surface of the bearing component 3, the driving component 4 is powered by the connecting rope 102 forming the loop, and the front surface of the bearing component 3 is provided with a first loading plate 302 and a second loading plate 303 for placing tools, and under the action of the driving component 4, the bearing component 3 loaded with tools is lifted to the position of the electric power maintenance person, so that the tools can be replaced quickly and the electric power maintenance person can use conveniently; the bearing component 3 comprises a lifting plate 301, one side of the lifting plate 301 is fixedly provided with a mechanical arm 304, the mechanical arm 304 can take tools on the first loading plate 302 and the second loading plate 303 and interact with power maintenance personnel, the work of the power maintenance personnel is facilitated to be assisted, in the process of winding and unwinding the connecting rope 102, the connecting rope 102 is movably limited through a clamping component 2 arranged in the main board component 1, after the work of the power maintenance personnel is finished, the driving component 4 controls the bearing component 3 to descend to the ground and releases the clamping of the connecting rope 102, the ground personnel disconnects the connecting rope 102 from the power connection component 5, the main board assembly 1 is controlled by an aerial power maintainer to recycle the connecting ropes 102, and the main board assembly 1 is carried back to the ground again, so that the work is completed.

It should be noted that when the power maintainer carries the main board assembly 1 to the high altitude and reaches the designated position, the main board assembly 1 can be fixed at the designated position, and the ground worker installs the tools to be used on the first loading board 302 and the second loading board 303 respectively, because the first loading board 302 and the second loading board 303 have different sizes, the tools with different sizes can be placed respectively, the mechanical arm 304 is controlled by the power maintainer in the air, and because the mechanical arm 304 is generally set module data, and the positions of the first loading board 302 and the second loading board 303 are fixed, the power maintainer can access the tools installed on the first loading board 302 and the second loading board 303 at the designated position by controlling the mechanical arm 304 through the handheld controller when the tools are required.

As shown in fig. 1, the main board assembly 1 comprises a main box 101, a winding roller for winding the connecting rope 102 is rotatably connected between inner walls of two ends of the main box 101, the connecting rope 102 is fixedly connected to the surface of the winding roller and forms a passage under the action of the winding roller, a counterweight ring 107 is fixedly connected to the bottom of the connecting rope 102, the connecting rope 102 can smoothly and quickly reach the ground when the connecting rope 102 is released, a connector 108 electrically connected with an internal grounding wire 105 is fixedly connected to the outer wall of the bottom of the counterweight ring 107, a protective shell 109 for protecting the connector 108 is sleeved on the outer wall of the connector 108, and a turntable 104 for controlling the winding roller is rotatably connected to the outer wall of one end of the main box 101.

It should be noted that when the electric power maintainer rotates the turntable 104, the wind-up roller can be driven to rotate, so that the connecting rope 102 drawn in on the outer wall of the wind-up roller is put down, the connecting rope 102 can stably drop to the ground under the action of the counterweight ring 107, and the protective shell 109 can protect the electric connector 108 to prevent the electric connector 108 from being impacted or damaged.

As shown in fig. 5, the clamping assembly 2 comprises a moving block 201, a plurality of moving grooves 103 for winding and unwinding the connecting rope 102 are formed in the bottom of the main box 101, the moving block 201 is inserted in the moving grooves 103, clamping blocks 205 are fixedly connected to two sides of the moving block 201, clamping grooves 202 matched with the clamping blocks 205 are formed in two inner walls of the moving grooves 103, clamping rings 203 used for limiting the connecting rope 102 are fixedly connected to one end outer wall of the moving block 201, an outer groove capable of being directly connected with the connecting inner wire 105 is formed in the outer wall of the connecting rope 102, limiting balls 204 in contact with the connecting inner wire 105 are rotatably connected to one end outer wall of the moving block 201, and the limiting balls 204 are always clamped in the outer groove in the lifting process of the connecting rope 102, so that the directions of the outer grooves are always consistent.

It should be noted that, in the process of winding and unwinding the connecting rope 102, since the winding position of the connecting rope 102 on the outer wall of the winding roller is changed as the winding roller is wound or unwound on the connecting rope 102, the connecting rope 102 is limited by the movable block 201 and the clamping ring 203 which can move transversely as the winding roller is wound and unwound, so that the connecting rope 102 is prevented from being pulled, and the limiting ball 204 can ensure that the connecting rope 102 always keeps the consistency of the outer groove direction in the winding and unwinding process, thereby preventing the lifting of the driving assembly 4 from being disturbed due to winding of the connecting rope 102.

As shown in fig. 7, fig. 8 and fig. 9, the driving assembly 4 includes a driving motor 401, and the driving motor 401 is fixedly connected to an outer wall of one side of the lifting plate 301, an outer wall of the other side of the lifting plate 301 is rotatably connected with a main rotating rod 402 connected to the driving motor 401, and the outer walls of the main rotating rod 402 are fixedly connected with a first limiting disc 403 for clamping the connecting rope 102, a plurality of second fixing rings 411 and a first fixing ring 408 are fixedly connected to an outer wall of the other side of the lifting plate 301, a rotating cylinder 409 is rotatably connected to an inner wall of the circumference of the second fixing ring 411, a cross rod 407 is arranged on an inner wall of the first fixing ring 408, one end outer wall of the cross rod 407 is provided with a threaded structure, the cross rod 407 is respectively inserted into outer walls of two ends of the rotating cylinder 409 through threads, one end outer wall of the cross rod 407 is fixedly connected with a power receiving block 404, one end of the power receiving block 404 is rotatably connected with a power receiving ball 413, the power receiving ball 413 is in contact with the power receiving inner wire 105, and power is transmitted to a power receiving column 412 fixed to the back of the lifting plate 301, and the power receiving column 412 is respectively connected to the driving motor 401.

It should be noted that, after the ground staff connects the electrical connector 108 with the electrical connector assembly 5, the connecting rope 102 may be placed in the first limiting disc 403, and the two cross bars 407 are driven to move laterally by rotating the rotating drum 409 until the electrical connector balls 413 contact the electrical connector inner wires 105, and the electrical connector inner wires 105 form a current loop under the action of the electrical connector assembly 5, so that the current is guided to the electrical connector posts 412 and the driving motor 401 under the action of the electrical connector balls 413, and the driving motor 401 can be always in an electrical connection state under the action of the electrical connector balls 413, so as to ensure that the driving motor 401 can be continuously in an operating state.

As shown in fig. 8, the top and the bottom of the power connection block 404 are fixedly connected with a second limiting disc 405, and auxiliary rotating rods 406 are rotatably connected between the inner walls of the two sides of the second limiting disc 405 and are used for clamping the connection rope 102 in cooperation with the main rotating rod 402.

It should be noted that, when the power receiving ball 413 contacts the power receiving inner wire 105, the plurality of auxiliary rotating rods 406 contact the connecting rope 102 at the same time and clamp the connecting rope 102 under the action of the main rotating rod 402, when the driving motor 401 drives the main rotating rod 402 to rotate, the lifting plate 301 can be driven to lift along the connecting rope 102, the auxiliary rotating rod 406 contacts the main rotating rod 402 at the same time and clamp the connecting rope 102, when the main rotating rod 402 rotates, the lifting plate 301 can lift, when the main rotating rod 402 does not rotate, the lifting plate 301 can stop, and the lifting plate 301 is fixed under the action of friction force.

As shown in fig. 2, the power receiving assembly 5 includes a power receiving box 501, a power receiving hole 502 adapted to the power receiving head 108 is formed on the top outer wall of the power receiving box 501, a knob 503 and a display panel 504 are respectively disposed on the top outer wall of the power receiving box 501, and a power cord 505 is disposed on the power receiving box 501 and used for connecting an external power source and charging the power receiving box 501 itself.

As shown in fig. 6, the back of the main case 101 is fixedly connected with a plurality of braces 110, hooks 112 and a protection rod 111, and the protection rod 111 is made of elastic material, so that a certain buffering protection effect can be provided for the back of an electric power maintainer in the process of carrying the electric power maintainer.

As shown in fig. 8, a plurality of protruding rods 410 are fixedly connected to the outer wall of the circumference of the rotary cylinder 409, and the protruding rods 410 are made of elastic materials, so that the rotary cylinder 409 is rotated to control the movement of the cross rod 407.

It should be noted that when the power maintainer carries the main board assembly 1 to the high altitude and reaches the designated position, the main board assembly 1 can be fixed at the designated position by the hook 112, and the tools required by the ground worker are respectively mounted on the first loading board 302 and the second loading board 303, because the first loading board 302 and the second loading board 303 have different sizes, tools with different sizes can be respectively placed, the mechanical arm 304 is controlled by the power maintainer in the air, because the mechanical arm 304 is generally set module data, and the positions of the first loading board 302 and the second loading board 303 are fixed, when the tools are required by the power maintainer, the tools mounted on the first loading board 302 and the second loading board 303 can be taken at the designated position by controlling the mechanical arm 304 through the controller held by the hand, when the electric power maintainer rotates the turntable 104, the winding roller can be driven to rotate, so that the connecting rope 102 folded on the outer wall of the winding roller is put down, the connecting rope 102 can be stably lowered to the ground under the action of the counterweight ring 107, the winding position of the connecting rope 102 on the outer wall of the winding roller can be changed at the moment as the winding roller folds or unwinds the connecting rope 102, the connecting rope 102 can be ensured to transversely move along with the winding and unwinding of the winding roller while the connecting rope 102 is limited by the movable block 201 and the clamping ring 203, the connecting rope 102 is prevented from being pulled, the limiting balls 204 can ensure that the consistency of the direction of the outer groove is always maintained in the winding and unwinding process, and the connecting rope 102 can be put in the first limiting disc 403 after the ground worker connects the power connection head 108 with the power connection assembly 5, and the rotary cylinder 409 is rotated to drive the two cross bars 407 to move transversely until the electric connection balls 413 are in contact with the electric connection inner wire 105, and the electric connection inner wire 105 forms a current loop under the action of the electric connection assembly 5, so that current is guided to the electric connection column 412 and the driving motor 401 under the action of the electric connection balls 413, the driving motor 401 is ensured to be in a working state continuously, when the electric connection balls 413 are in contact with the electric connection inner wire 105, the auxiliary rotating rods 406 are simultaneously in contact with the connecting ropes 102, the connecting ropes 102 are clamped under the action of the main rotating rods 402, and when the driving motor 401 drives the main rotating rods 402 to rotate, the lifting plate 301 can be driven to lift along the connecting ropes 102.

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

Claims (8)

1. The loading and fixing device for the high-altitude operation tool comprises a main board assembly (1), a bearing assembly (3) and an electricity receiving assembly (5), and is characterized in that the main board assembly (1) is carried to the high altitude by an electric power maintainer, the bearing assembly (3) and the electricity receiving assembly (5) are kept on the ground, when the electric power maintainer reaches a working position, a connecting rope (102) positioned in the main board assembly (1) is put down, and the connecting rope (102) consists of an internal electricity receiving inner wire (105) and a wear-resisting skin (106) wrapped on the outer wall of the electricity receiving inner wire (105), so that a loop is formed when the connecting rope (102) is connected with the electricity receiving assembly (5), a driving assembly (4) for clamping the connecting rope (102) is arranged on the back surface of the bearing assembly (3), the connecting rope (102) forming the loop supplies power for the driving assembly (4), and a first loading plate (302) and a second loading plate (303) for placing tools are arranged on the front surface of the bearing assembly (3), and the driving assembly (4) lifts the bearing assembly (3) loaded with tools to the position of the electric power maintainer for quickly replacing the tools;

The bearing assembly (3) comprises a lifting plate (301), one side of the lifting plate (301) is fixedly provided with a mechanical arm (304), the mechanical arm (304) is used for taking tools on the first loading plate (302) and the second loading plate (303) and interacting with power maintenance personnel, the work of the power maintenance personnel is assisted, the connecting rope (102) is limited by a clamping assembly (2) arranged inside the main board assembly (1) in the process of winding and unwinding, the driving assembly (4) is used for controlling the bearing assembly (3) to descend to the ground after the work of the power maintenance personnel is finished, the clamping of the connecting rope (102) is released, the ground staff is disconnected with the connection rope (102) and the power connection assembly (5), the power maintenance personnel in the air is used for controlling the main board assembly (1) to recycle the connecting rope (102), and the main board assembly (1) is carried to the ground again, and the work is completed.

2. The device for loading and fixing the aerial working tool according to claim 1, wherein the main board assembly (1) comprises a main box (101), a winding roller for winding the connecting rope (102) is rotatably connected between inner walls of two ends of the main box (101), the connecting rope (102) is fixedly connected to the surface of the winding roller and forms a passage in the winding roller, a counterweight ring (107) is fixedly connected to the bottom of the connecting rope (102), when the connecting rope (102) is released, the connecting rope (102) smoothly and quickly reaches the ground, a connector (108) electrically connected with the grounding inner wire (105) is fixedly connected to the outer wall of the counterweight ring (107), a protective shell (109) for protecting the connector (108) is sleeved on the outer wall of the connector (108), and a turntable (104) for controlling the winding roller is rotatably connected to the outer wall of one end of the main box (101).

3. The loading and fixing device for the high-altitude operation tool is characterized in that the clamping assembly (2) comprises a moving block (201), a plurality of moving grooves (103) for collecting and releasing the connecting ropes (102) are formed in the bottom of the main box (101), the moving block (201) is inserted into the moving grooves (103), clamping blocks (205) are fixedly connected to two sides of the moving block (201), clamping grooves (202) matched with the clamping blocks (205) are formed in two side inner walls of the moving groove (103), a clamping ring (203) for limiting the connecting ropes (102) is fixedly connected to one end outer wall of the moving block (201), an outer groove directly connected with the connecting inner wires (105) is formed in the outer wall of the connecting ropes (102), limiting balls (204) in contact with the connecting inner wires (105) are rotatably connected to one end outer wall of the moving block (201), and the limiting balls (204) are always clamped in the outer groove in the lifting process of the connecting ropes (102) to ensure that the directions of the outer groove are always consistent.

4. The loading and fixing device for the high-altitude operation tool according to claim 1, wherein the driving assembly (4) comprises a driving motor (401), the driving motor (401) is fixedly connected to one side outer wall of the lifting plate (301) respectively, the other side outer wall of the lifting plate (301) is rotatably connected with a main rotating rod (402) connected with the driving motor (401) respectively, the outer walls of the main rotating rod (402) are fixedly connected with a first limiting disc (403) for clamping a connecting rope (102), the other side outer wall of the lifting plate (301) is fixedly connected with a plurality of second fixing rings (411) and a first fixing ring (408), the circumferential inner wall of the second fixing ring (411) is rotatably connected with a rotating cylinder (409), the inner wall of the first fixing ring (408) is provided with a cross rod (407), one end outer wall of the cross rod (407) is in a threaded structure, the two end outer walls of the cross rod (407) are respectively connected with a connecting block (404) in a threaded manner, one end outer wall of the cross rod (407) is fixedly connected with a ball bearing (413) respectively, one end of the connecting block (413) is electrically connected with the ball bearing(s) (413) electrically connected with the ball bearings (301) electrically and connected with the lifting plate (413), the power connection posts (412) are respectively connected with the driving motor (401).

5. The loading and fixing device for the high-altitude operation tool of claim 4, wherein the top and the bottom of the power receiving block (404) are fixedly connected with second limiting plates (405), auxiliary rotating rods (406) are rotatably connected between inner walls of two sides of the second limiting plates (405), and the auxiliary rotating rods are matched with the main rotating rods (402) to clamp the connecting ropes (102).

6. The loading and fixing device for the high-altitude operation tool according to claim 2, wherein the power receiving assembly (5) comprises a power receiving box (501), a power receiving hole (502) matched with the power receiving head (108) is formed in the outer wall of the top of the power receiving box (501), a knob (503) and a display panel (504) are respectively arranged on the outer wall of the top of the power receiving box (501), a power wire (505) is arranged on the power receiving box (501), and the power receiving box is connected with an external power supply and charges the power receiving box (501).

7. The loading and fixing device for the high-altitude operation tool of claim 2, wherein the back of the main box (101) is fixedly connected with a plurality of braces (110), hooks (112) and protection rods (111), the protection rods (111) are made of elastic materials, and a certain buffering protection effect is provided for the back of an electric power maintainer in the process of carrying the electric power maintainer.

8. The device of claim 4, wherein the outer wall of the circumference of the rotary cylinder (409) is fixedly connected with a plurality of protruding rods (410), the protruding rods (410) are made of elastic materials, and a ground worker holds and rotates the rotary cylinder (409) to control the transverse rod (407) to move.