CN116722381B - Distribution network high-altitude non-stop power wiring device and wiring method - Google Patents

Abstract

The invention discloses the technical field of distribution network high-altitude uninterrupted wiring, in particular to a distribution network high-altitude uninterrupted wiring device and a wiring method, wherein the wiring device comprises an interface component and at least one C-shaped clamping unit; the interface component is provided with a connecting plate for quick connection, quick disassembly of an insulating operating rod and fixing of a cable, each C-shaped clamping unit is provided with a clamping main body, a containing channel, an adjustable C-shaped movable cable groove, a limiting hook fixed on the side surface of the clamping main body and used for being matched with the adjustable C-shaped movable cable groove to tightly hold the cable together, an X-direction connecting screw, a Y-direction adjusting ring and a Z-direction adjusting device which is perpendicular to the containing channel and used for driving the adjustable C-shaped movable cable groove to move along the Z direction. The distribution network high-altitude uninterrupted wiring device and the distribution network high-altitude uninterrupted wiring method realize rapid and efficient multidirectional adjustment, rapid fixation and rapid disassembly of one or more different main lines and/or leads by a single operator within a sufficient safe distance.

Description

Distribution network high-altitude non-stop power wiring device and wiring method

Technical field

The present invention relates to the technical field of uninterruptible power wiring devices and wiring methods, and in particular to high-altitude uninterruptible power wiring devices and wiring methods in distribution networks.

Background technique

With the access of distributed power sources, the traditional distribution network is transformed from a passive distribution network to an active distribution network. According to the requirements of power safety work regulations, safety technical measures such as power outages, power inspections, and grounding must be implemented during construction operations of distribution networks. However, the coverage rate of insulated conductors in current lines is increasing year by year, and the disconnection points between distributed power sources and the distribution network are basically insulated. Due to factors such as the failure to install the grounding ring in time when the equipment was put into operation or the access to distributed power on the user side, etc., safety measures such as power inspection and grounding could not be implemented during on-site operations.

Among the existing technologies, Chinese patent CN112242615B discloses a non-stop installation of power inspection grounding ring suitable for active distribution networks. It uses a C-shaped fixed frame, a lifting rod, and a lifting tine to realize the operation of the operator. It can realize the clamping and stable fixation of cables within a certain safe distance. However, this installation of electrical testing grounding ring can only be adjusted in the lifting direction. When fine adjustment is required in the horizontal direction, it needs to be removed, adjusted and fixed multiple times, which requires many operations and is inconvenient to use. Moreover, when it is connected to the original main line or lead wire, it needs to be installed separately one by one, and other equipment is required for connection, making it difficult to use alone.

The technical solution to be solved by this patent is: how to quickly complete the clamping and fixed installation of one or more different main wires and/or leads by a single person while ensuring a safe distance from the human body.

Contents of the invention

In order to overcome the shortcomings of the above-mentioned prior art, the present invention provides a distribution network high-altitude non-stop power wiring device and wiring that can be installed quickly and in time, and the safety distance during the operation process can be fully guaranteed without excessive insulation shielding, and the operation efficiency is greatly improved. method.

The technical solution adopted by the present invention is: a high-altitude non-stop power connection device for the distribution network. The connection device includes:

An interface assembly having a connection plate for quick connection and quick disassembly of the insulated operating rod and fixed cable; and

At least one C-type clamping unit;

Wherein: each of the C-type clamping units has a clamping body and an accommodation channel, as well as an adjustable C-type movable cable trough placed in the accommodation channel, and is fixed on the side of the clamping body for matching the adjustable The C-shaped movable cable trough is adjusted to hold the limiting hook of the cable together, and also has a C-shaped clamping unit that penetrates the clamping body to fixedly connect the C-shaped clamping unit to the interface component or its adjacent C-shaped clamping unit. The X-direction connecting screw on the top of the clamping body, and the Y-direction adjustment ring fixed on the top of the clamping body for pushing the adjustable C-type movable cable trough to slide upward from Y, and in the Z direction perpendicular to the accommodation channel A Z-direction adjustment device is arranged on the top to drive the adjustable C-shaped movable cable trough to move in the Z-direction.

In some technical solutions, the Z-direction adjustment device has:

Z-direction adjustment rod, which penetrates the clamping body and the adjustable C-shaped movable cable groove to drive and compress the cable; and

Z-direction adjustment bolt assembly, the Z-direction adjustment bolt assembly is connected to the Z-direction adjustment rod and faces the open end of the adjustable C-shaped movable cable trough, and is used to cooperate with the threaded structure provided on the Z-direction adjustment rod; and

The upper limiting lock tongue and the lower limiting lock tongue have an upper connecting part and a lower connecting part that are threadedly connected to the adjustment rod, and also have an upper connecting part and a lower connecting part for connecting the cable. The rotation is input to the upper cable receiving part and the lower cable receiving part in the adjustable C-shaped movable cable trough, and the clamping force of the Z-direction adjusting bolt assembly moves toward the adjustable C-shaped movable cable trough. Turn internally to compress the cable.

In this technical solution, the interface component also has:

At least one insulating boom interface, the insulating boom interface has a quick plug-in structure for quickly connecting or removing the insulating boom;

and at least one quick-plug insulating interface, the quick-plug insulating interface has a quick plug-in structure for quickly connecting or removing the insulating operating rod.

In some technical solutions, the interface component also has a connection groove for receiving the limiting hook. In some technical solutions, a movable top block is provided on the side of the Y-direction adjustment ring in the accommodation channel, and the movable top block is configured to press the adjustable C-shaped movable block together with the push of the Y-direction adjustment ring. Cable trough.

In some technical solutions, the X-direction connecting screw is placed in an X-direction chute that runs through the clamping body, and the X-direction chute has an adjustment displacement in the Y direction.

In other technical solutions, a universal operating rod is sleeved on the free end of the Z-direction adjustment rod to drive the Z-direction adjustment rod to perform displacement adjustment in the Z direction.

In other technical solutions, the universal operating rod has:

The insulating operation lifting rod body is used to extend the safe operating distance of the operator;

and a universal socket joint, which has a universal socket barrel that can be quickly plugged in and out.

In some other technical solutions, a sleeve joint for connecting a plurality of the universal sleeves is provided at the connection position between the universal sleeve of the universal sleeve and the insulating operation lifting rod.

In some other technical solutions, a power wrench interface is provided at the end of the insulation operation lifting rod body close to the operator, and the power supply device is connected to the insulation operation lifting rod body to directly drive its rotation.

In other technical solutions, the device further includes an insulated operating hook rod that can contact and drive the Y-direction adjustment ring to rotate within a safe distance. In other technical solutions, a flat hook is disposed at one end of the insulating operating hook rod body of the insulating operating hook rod close to the Y-direction adjustment ring, and the bent portion of the flat hook is perpendicular to the insulating operating hook rod body.

The high-altitude uninterruptible power wiring method of the distribution network, the right to use the high-altitude uninterruptible power wiring device of the distribution network described in any one of the above to perform cable wiring, at least includes the following steps:

Connect the insulated boom, insulated operating rod, and adjustable C-shaped movable cable trough to the wiring device respectively;

And fix the main cables and lead cables to be overlapped in the adjustable C-shaped movable cable trough respectively;

The wiring device connected to the lifting device is flush with the main line to be connected;

After fixing the insulated operating rod with a fixing device, use the insulated operating hook rod to hook the Y-direction adjustment ring to tighten the main cable and lead cable;

And use the universal operating rod to clamp the adjustable C-shaped movable cable trough.

Compared with the prior art, the beneficial effects of the present invention are:

1. One of the interface components can connect two or more C-type clamping units to realize the fastening of cables. The beneficial effects of this are directly reflected in good fastening and holding performance, and can Better suitable for simultaneous installation of multiple lines.

2. It has multiple installation operation interfaces. Operators can use interface components to quickly connect and quickly remove insulated operating rods and fixed cables from a long distance.

3. The operator can remotely adjust the displacement in the Y and Z directions to achieve fine-tuning, shorten adjustment time, and improve cable installation efficiency.

4. The operator can use multiple operating rods (insulated boom, insulated operating rod and insulated operating hook rod) to cooperate in batches and can be operated by a single person.

The high-altitude non-stop power wiring device and method of this solution enable a single operator to realize fast and efficient multi-directional adjustment, quick fixing and quick disassembly of one or more different main lines and/or leads within a sufficient safe distance. .

Description of the drawings

Figure 1 is a three-dimensional structural diagram of an embodiment of a distribution network high-altitude uninterruptible power wiring device;

Figure 2 is a three-dimensional structural view of the embodiment of Figure 1 from another direction;

Figure 3 is a front view of the embodiment of Figure 1;

Figure 4 is a left side view of Figure 3;

Figure 5 is a rear view of Figure 3;

Figure 6 is a structural diagram of a connection embodiment of the high-altitude uninterruptible power wiring device of the distribution network connecting the insulating operating rod 40, the insulating boom 50, the universal operating rod 60 and the insulating operating hook rod 70;

Figure 7 is a three-dimensional structural view of the embodiment of Figure 6 from another angle;

Figure 8 is an enlarged detailed view of A of Figure 6;

Figure 9 is an enlarged detailed view of B of Figure 7;

Figure 10 is a structural diagram of an embodiment of the insulating boom 50;

Figure 11 is a three-dimensional structural diagram of an embodiment of the insulated operating rod 40;

Figure 12 is a three-dimensional structural diagram of an embodiment of the universal operating lever 60;

Figure 13 is an enlarged view of position A of Figure 12;

Figure 14 is a three-dimensional structural diagram of another embodiment of the universal operating lever 60;

Figure 15 is an enlarged view of position A of Figure 14;

Figure 16 is a three-dimensional structural diagram of an embodiment of the insulated operating hook rod 70;

Figure 17 is a schematic structural diagram of the Z-direction adjustment device 27;

Figure 18 is a state diagram when the cable 30 is fixed in the adjustable C-shaped movable cable trough 23 through the Z-direction adjustment device 27;

Among them: 10-interface component, 11-connection plate, 12-insulation boom interface, 13-quick plug insulation interface, 14-connection groove;

20-C-type clamping unit, 21-clamping body, 211-X-direction chute; 22-accommodating channel, 23-adjustable C-type movable cable trough, 24-limit hook, 25-X-direction connecting screw, 26-Y-direction adjustment ring, 27-Z-direction adjustment device, 271-Z-direction adjustment rod, 272-Z-direction adjustment bolt assembly, 273-limit upper lock tongue, 2731-upper connection part, 2732-upper cable receiving part, 2733-upper threaded connection hole; 274-limiting lower lock tongue, 2741-lower connection part, 2742-lower cable receiving part, 2743-lower threaded connection hole; 28-movable top block;

30-cable, 40-insulated operating rod, 50-insulated boom, 51-hook; 60-universal operating rod, 61-insulated operating lifting rod body, 62-universal socket joint, 621-universal socket barrel , 622-sleeve joint; 63-power wrench interface, 631-wrench interface joint; 70-insulated operating hook rod, 71-insulated operating hook rod body, 72-flat hook.

Implementation

Embodiments of the present invention are described in detail below, examples of which are illustrated in the accompanying drawings, wherein the same or similar reference numerals throughout represent the same or similar elements or elements with the same or similar functions. The embodiments described below with reference to the drawings are exemplary and are only used to explain the present invention and cannot be understood as limiting the present invention.

In the description of the present invention, it should be understood that the orientation or positional relationship indicated by the terms "center", "upper", "lower", "front", "back", "left", "right", etc. is based on the appended The orientations or positional relationships shown in the figures are only for the convenience of describing the present invention and simplifying the description, and do not indicate or imply that the combinations or elements referred to must have specific orientations, be constructed and operated in specific orientations, and therefore cannot be understood as limiting the present invention. Limitations of Invention. In addition, during the description of the embodiments of the present invention, the positional relationships of devices such as "upper", "lower", "front", "back", "left", and "right" in all figures are based on Figure 1.

As shown in Figure 1, the distribution network high-altitude non-stop power wiring device includes:

Interface assembly 10, the interface assembly 10 has a connecting plate 11, the connecting plate 11 is used for quick connection and quick disassembly of the insulating operating rod 40 and the fixed cable 30; and

at least one C-shaped clamping unit 20;

Wherein: each of the C-shaped clamping units 20 has a clamping body 21 and a receiving channel 22, as well as an adjustable C-shaped movable cable groove 23 placed in the receiving channel 22, and is fixed on the clamping body. The side of 21 is used to cooperate with the adjustable C-shaped movable cable groove 23 to hold the cable 30 together with the limiting hook 24, and also has a penetrating clamping body 21 to fixedly connect the C-shaped clamping unit 20 to the The X-direction connecting screw 25 on the interface assembly 10 or its adjacent C-shaped clamping unit 20, and a screw fixed on the top of the clamping body 21 for pushing the adjustable C-shaped movable cable trough 23 from Y upward to slide The Y-direction adjustment ring 26 and the Z-direction adjustment device 27 are arranged in the Z direction perpendicular to the accommodation channel 22 to drive the adjustable C-shaped movable cable groove 23 to move in the Z direction. In addition, it can be seen from Figure 3 that one of the interface components 10 can connect two or more C-type clamping units 20 to achieve a tight connection of cables. The beneficial effect of this is directly reflected in the tightness. It has good holding performance and can be better suited for the simultaneous installation of multiple wire harnesses. It should be noted that, in order to improve the cable installation efficiency and improve the service life of the entire wiring device, in some specific embodiments, all components of the interface assembly 10 and the C-type clamping unit 20 can be made of metal materials. , it is better to use stainless steel, aluminum alloy, magnesium alloy and other materials.

In some embodiments, as shown in Figure 4, the Z-direction adjustment device 27 has:

The Z-direction adjustment rod 271 penetrates the clamping body 21 and the adjustable C-shaped movable cable groove 23 to drive and compress the cable 30; and

Z-direction adjustment bolt assembly 272, which is connected to the Z-direction adjustment rod 271 and faces the open end of the adjustable C-shaped movable cable groove 23, for connecting with the thread provided on the Z-direction adjustment rod 271. structural fit; and

The upper limiting lock tongue 273 and the lower limiting lock tongue 274 are configured such that when one of them rotates close to or away from its corresponding adjustable C-shaped When the raised edge of the cable groove 23 is moved to lock or loosen the cable 30, the Z-direction adjustment device 27 of this structure can not only adjust the Z-direction distance of the cable 30, but also lock it at the limit position. The two cables 30 are pressed simultaneously under the limits of the tongue 273 and the limit lower lock tongue 274, and are placed on the uninterruptible wiring device for installation, thereby improving the installation efficiency. As shown in Figures 17 and 18, there is an upper limit lock tongue 273 and a lower limit lock tongue 274. The upper limit lock tongue 273 and the lower limit lock tongue 274 have threaded connections with the adjustment rod 271. The upper connecting part 2731 and the lower connecting part 2741 also have an upper cable receiving part 2732 and a lower cable receiving part 2742 for rotating the cable 30 into the adjustable C-shaped movable cable trough 23. In the Z Under the action of the pressing force of the adjusting bolt assembly 272 , the cable 30 is rotated and compressed into the adjustable C-shaped movable cable groove 23 . In the specific implementation process, as shown in Figure 17, the upper limit lock tongue 273 and the lower limit lock tongue 274 also have an upper thread connection hole 2733 and a lower thread connection hole 2743 respectively. The upper thread connection hole 2733 and the lower thread The connecting hole 2743 allows the Z-direction adjustment rod 271 to pass through, so that the Z-direction adjustment bolt assembly 272 can move the Z-direction on the Z-direction adjustment rod 271 and compress the upper limit lock tongue 273 and the lower limit lock tongue 274. At this time The cable 30 placed in the upper limiting locking tongue 273 and the lower limiting locking tongue 274 can be tightly held and fixed.

In the specific implementation process, the Z-direction adjustment bolt assembly 272 is connected at a position where the Z-direction adjustment rod 271 is parallel to the opening of the adjustable C-shaped movable cable trough 23. As long as the Z-direction adjustment bolt assembly 272 is rotated and the Z-direction adjustment bolt assembly 272 is pressed tightly, The upper limit locking tongue 273 or the lower limit locking tongue 274 are in contact with the raised edge of the adjustable C-shaped movable cable groove 23, so that the cable 30 inside can be locked, and the cable 30 to be installed can be placed. In the adjustable C-shaped movable cable trough 23, adjust the corresponding positions of the X-direction connecting screw 25, the Y-direction adjustment ring 26 and the Z-direction adjustment device 27 respectively, so that they can be respectively adjusted to be placed in the adjustable C-shaped movable cable trough 23. The micro distance of the cables in all directions allows for quick adjustment, fastening and disassembly. In specific implementation, the Z-direction adjusting bolt assembly 272 can be a general nut and washer assembly, or a locking nut and washer assembly.

In the specific implementation process, the insulated operating rod 40 can be used to quickly connect the interface assembly 10 to adjust the overall height, and other auxiliary tools can be used to rotate and push the adjustable C-shaped movable cable trough 23 to move the Y-direction micro of the cable 30 Displacement adjustment, and using a tool to rotate the Z-direction adjustment rod 271 to adjust the displacement of the cable 30 in the Z direction. During the actual installation process, a cable 30 , such as a main cable and a lead wire, or two lead wires, can also be installed in both channels of the adjustable C-shaped movable cable trough 23 isolated by the limit hook 24 . Installing at the same time can better save installation efficiency.

In some embodiments, as shown in Figures 2 and 5, the interface component 10 also has:

At least one insulating boom interface 12, the insulating boom interface 12 has a quick plug-in structure for quickly connecting or disassembling the insulating boom 50;

and at least one quick-plug insulating interface 13. The quick-plug insulating interface 13 has a quick plug-in structure for quickly connecting or disassembling the insulated operating rod 40; the quick plug-in structure described here generally refers to the quick plug-in interface commonly used in machinery. , it can also be a fast plug-in interface with rotating bolts, or a quick-release structure such as an electromagnetic, as long as it can quickly operate after quick plug-in when installing the cable, and quick disassembly after the operation is completed, both are within the protection scope of the present invention.

In some embodiments, the interface assembly 10 also has a connection groove 14 for receiving the limiting hook 24. This structure is shown in Figures 2 and 5. The connection groove 14 is mainly provided to achieve the structure. Quick plug-in operation, and quick disassembly after the operation is completed.

In other embodiments, a movable top block 28 is provided in the accommodation channel 22 close to the Y-direction adjustment ring 26 , and the movable top block 28 is configured to press the Y-direction adjustment ring 26 together under the push of the Y-direction adjustment ring 26 . The adjustable C-shaped movable cable trough 23 is used to press the cable 30 placed in the adjustable C-shaped movable cable trough 23 in the Y direction to realize the Y-direction micro-displacement adjustment of the cable 30 during the operation process to meet specific requirements. The operation needs, which can also be seen from Figure 4.

In some embodiments, the X-direction connecting screw 25 is placed in the X-direction chute 211 that connects the clamping body 21 , and the X-direction chute 211 has an adjustment displacement in the Y direction, thereby solving the problem when multiple The straightness error caused by the connection between each C-type clamping unit 20 and the same interface component 10, and the design of this structure can also realize the adjustment of the cable 30 clamped in a single C-type clamping unit 20 in the Y direction. A slight displacement to meet the installation requirements, which can also be seen in Figure 4.

In other embodiments, a universal operating rod 60 is sleeved on the free end of the Z-direction adjustment rod 271 to drive the Z-direction adjustment rod 271 to perform displacement adjustment in the Z direction. The use of the universal operating rod 60 , the operator can stand in a lower position and rotate or push and pull the universal operating rod 60 through manual or power driving, thereby driving the Z-direction adjustment rod to adjust the displacement in the Z direction. It can be operated by one person, and the operation is convenient and quick. This can be seen in Figure 6.

In other embodiments, as can be seen in conjunction with Figures 12 and 13, the universal operating rod 60 has:

Insulation operation lifting rod 61, the insulation operation lifting rod 61 is used to extend the safe operating distance of the operator;

And the universal socket joint 62 has a universal socket barrel 621 that can be quickly plugged in and out; thereby enabling operation within a safe distance to fine-tune the installation displacement of the cable in the Z direction, and extend the cable. The space range for cable operation improves the simplicity of its installation.

In some embodiments, as shown in Figures 7 and 13, at the connection position between the universal socket barrel 621 of the universal socket joint 62 and the insulating operation lifting rod 61, there are provided The universal socket 621 is connected to the sleeve joint 622, so that the universal socket 621 of different specifications can be connected to the sleeve joint 622 as needed, so that the same universal operating rod 60 can meet a variety of different specifications. Adjustment of the Z-direction adjustment rod 271.

In other embodiments, as shown in FIG. 13 , a power wrench interface 63 is provided at the end of the insulation operation lifting rod 61 close to the operator, and the power supply device is connected to the insulation operation lifting rod 61 to directly drive it. Rotate to adjust the Z-direction adjustment rod 271. During the specific operation process, as shown in the figure, the power wrench interface 63 at least has a sleeve fixed to the insulating operation lifting rod 61, and a quick-pluggable plug fixed on the sleeve. interface, the structure of the power wrench interface 63 can also be seen from Figures 14 and 15. As seen from Figure 15, power wrenches such as electric wrenches, hydraulic wrenches, and pneumatic wrenches can be inserted into the corresponding wrench interface connector 631 , then the universal operating rod 60 can be quickly adjusted, which can be seen from Figure 14.

In some embodiments, as shown in FIG. 6 , the non-stop wiring device also includes an insulated operating hook rod 70 that can contact and drive the Y-direction adjustment ring 26 to rotate within a safe distance. When the operator uses the device When installing the cable 30, the insulated operating hook rod 70 with a certain length of safe distance can be used to hook the Y-direction adjustment ring 26 within a safe distance range to push, pull or rotate, thereby adjusting the slight deviation of the cable in the Y direction. Displacement.

In other embodiments, a flat hook 72 is disposed at one end of the insulating operating hook rod body 71 of the insulating operating hook rod 70 close to the Y-direction adjustment ring 26 , and the bent portion of the flat hook 72 is in contact with the insulating operating hook. The rod body 71 is vertical, so that when the operator is using it at a low place, he can quickly hook into the ring of the Y-direction adjustment ring 26 to achieve quick connection and quick separation after the work is completed; in the specific implementation process, the number of flat hooks 72 It can be 1 or 2 or more, which can be seen from the combination of Figure 6, Figure 7 and Figure 16.

The high-altitude uninterruptible power wiring method of the distribution network uses the above-mentioned high-altitude uninterruptible power wiring device of the distribution network for cable wiring, which at least includes the following steps:

Connect the insulating boom 50, the insulating operating rod 40, and the adjustable C-shaped movable cable trough 23 to the wiring device respectively; the insulating boom 50 is shown in Figure 10;

And fix the main cables and lead cables to be overlapped in the adjustable C-shaped movable cable trough 23 respectively;

The wiring device connected to the lifting device is flush with the main line to be connected;

After fixing the insulating operating rod 40 with a fixing device, use the insulating operating hook rod 70 to hook the Y-direction adjustment ring to tighten the main cable and lead cable; the structural diagram of the insulating operating rod 40 is shown in Figure 11, and it is connected to the interface Generally speaking, one end of the connection of the component 10 is provided with a quick-release interface component, which is used to realize quick connection and quick disassembly, so as to facilitate the operator's operation. It is also important to emphasize here that the insulating operating rod 40 can be fixed using a commonly used method. The tool clip can be used to fix the operating end. The specific operation method can be implemented according to the needs and surrounding tools. As for the insulating boom 50, its specific structure is shown in Figure 10. A hook 51 is provided on the top, which is used to hook the entire device on the cable at the top of the distribution network at a long distance to realize wire change.

The non-power-off wiring method also includes using the universal operating rod 60 to clamp the adjustable C-shaped movable cable trough 23, and then fixing the main cable and the lead cable to achieve reliable connection. Then use the insulated operating hook rod to hook the Y-direction adjustment ring 26 of the device and rotate it to loosen it;

Release the insulating operating rod from the fixing device, remove the insulating operating rod and place it in the tool bag;

Follow the same steps to complete the installation of the other two phases and remove the insulated operating rod. The above wiring method can be understood with reference to Figures 6 and 7.

In addition, with reference to Figures 6 and 8, as well as Figures 7 and 9, it can be understood that when the insulated operating hook rod 70 is used to adjust to hook the Y-direction adjustment ring 26, whether it is rotating, pushing or pulling, at the operator end Operate to realize its displacement in the Y direction and adjust the relative displacement of the cable 30 to achieve rapid long-distance adjustment, avoid rework, and greatly improve the efficiency of the high-altitude non-stop power wiring device of the distribution network.

The embodiments of the present invention disclose preferred embodiments, but are not limited thereto. Persons of ordinary skill in the art can easily understand the spirit of the present invention based on the above embodiments and make different extensions and changes. However, as long as they do not deviate from the spirit of the present invention, they are all within the protection scope of the present invention.

Claims (11)

1. High-altitude uninterruptible power wiring device for distribution network, characterized in that the wiring device includes: Interface assembly (10), the interface assembly (10) has a connecting plate (11), the connecting plate (11) is used for quick connection and quick disassembly of the insulated operating rod (40) and fixed cable (30); and At least one C-shaped clamping unit (20); Among them: each C-shaped clamping unit (20) has a clamping body (21) and an accommodation channel (22), as well as an adjustable C-type movable cable trough (22) placed in the accommodation channel (22). 23), and a limit hook (24) fixed on the side of the clamping body (21) for holding the cable (30) together with the adjustable C-shaped movable cable trough (23), and also has a hook that runs through the Clamp the main body (21) to fixedly connect the C-type clamping unit (20) to the X-direction connecting screw (25) on the interface assembly (10) or its adjacent C-type clamping unit (20), And there is a Y-direction adjustment ring (26) fixed on the top of the clamping body (21) for pushing the adjustable C-shaped movable cable trough (23) from Y upward to slide, and in a position perpendicular to the accommodation channel ( 22) A Z-direction adjustment device (27) is arranged in the Z-direction to drive the adjustable C-shaped movable cable trough (23) to move in the Z-direction; The Z-direction adjustment device (27) has: Z-direction adjustment rod (271), which penetrates the clamping body (21) and the adjustable C-shaped movable cable groove (23) to drive and compress the cable (30); and Z-direction adjustment bolt assembly (272), the Z-direction adjustment bolt assembly (272) is connected to the Z-direction adjustment rod (271) and faces the open end of the adjustable C-shaped movable cable trough (23), and is used to adjust the Z-direction adjustment bolt assembly (272). Fit into the threaded structure provided on the adjusting rod (271); and The upper limit lock tongue (273) and the limit lower lock tongue (274) have a threaded connection with the adjustment rod (271). The upper connecting part (2731) and the lower connecting part (2741) also have an upper cable receiving part (2732) for rotating the cable (30) into the adjustable C-shaped movable cable trough (23) and The lower cable receiving part (2742) rotates and compresses the cable (30) into the adjustable C-shaped movable cable trough (23) under the action of the pressing force of the Z-direction adjusting bolt assembly (272); The X-direction connecting screw (25) is placed in the X-direction chute (211) that passes through the clamping body (21), and the X-direction chute (211) has an adjustment displacement in the Y direction. 2. The high-altitude non-stop power wiring device for distribution network according to claim 1, characterized by: The interface component (10) also has: At least one insulating boom interface (12), the insulating boom interface (12) has a quick plug-in structure for quickly connecting or disassembling the insulating boom (50); and At least one quick-plug insulating interface (13) has a quick-plug structure for quickly connecting or removing the insulating operating rod (40). 3. The high-altitude uninterruptible power connection device of the distribution network according to claim 2, characterized in that: The interface assembly (10) also has a connection groove (14) for receiving the limiting hook (24). 4. The high-altitude uninterruptible power connection device of the distribution network according to claim 1, characterized in that: A movable top block (28) is provided in the accommodation channel (22) close to the Y-direction adjustment ring (26). The movable top block (28) is configured to move together under the push of the Y-direction adjustment ring (26). Press the adjustable C-shaped movable cable trough (23). 5. The high-altitude non-stop power wiring device for distribution network according to any one of claims 1 to 4, characterized by: A universal operating rod (60) is connected to the free end of the Z-direction adjustment rod (271) for driving the Z-direction adjustment rod (271) to perform displacement adjustment in the Z direction. 6. The high-altitude uninterruptible power connection device of the distribution network according to claim 5, characterized in that: The universal operating rod (60) has: An insulated operating lifting rod (61) used to extend the operator's safe operating distance; and A universal socket joint (62) has a universal socket barrel (621) that can be quickly plugged in and pulled out. 7. The high-altitude uninterruptible power connection device of the distribution network according to claim 6, characterized in that: At the connection position between the universal socket barrel (621) of the universal socket joint (62) and the insulation operation lifting rod (61), there are provided multiple universal socket barrels (621). Connected sleeve joint (622). 8. The high-altitude uninterruptible power wiring device of the distribution network according to claim 7, characterized in that: A power wrench interface (63) is also provided at the end of the insulation operation lifting rod (61) close to the operator. 9. The high-altitude uninterruptible power connection device of the distribution network according to claim 8, characterized in that: The device also includes an insulated operating hook rod (70) that can contact and drive the Y-adjusting ring (26) to rotate within a safe distance. 10. The high-altitude uninterruptible power wiring device of the distribution network according to claim 9, characterized in that: A flat hook (72) is disposed at one end of the insulating operating hook rod body (71) of the insulating operating hook rod (70) close to the Y-direction adjustment ring (26). The bent portion of the flat hook (72) is in contact with the Y-direction adjustment ring (26). The insulated operating hook rod body (71) is vertical. 11. The high-altitude uninterruptible power connection method of the distribution network is characterized by: using the high-altitude uninterruptible power connection device of the distribution network according to any one of claims 2-10 to perform cable wiring, which at least includes the following steps: Connect the insulated boom, insulated operating rod, and adjustable C-shaped movable cable trough to the wiring device respectively; And fix the main cables and lead cables to be overlapped in the adjustable C-shaped movable cable trough respectively; The wiring device connected to the lifting device is flush with the main line to be connected; After fixing the insulated operating rod with a fixing device, use the insulated operating hook rod to hook the Y-direction adjustment ring to tighten the main cable and lead cable; And use the universal operating rod to clamp the adjustable C-shaped movable cable trough.