CN116111466A - Wire guide for wiring of power distribution cabinet and power distribution cabinet with wire guide structure - Google Patents

Abstract

The invention discloses a wire guider for wiring of a power distribution cabinet and the power distribution cabinet with a wire guiding structure, and belongs to the technical field of power distribution cabinets. In order to solve the problems that the lead wire device is unstable in connection with a cable, the cable is easy to fall off, operators are required to wire and fix one by one, the operation is complex, and the cable wiring efficiency is reduced, the lead wire device for wiring of the power distribution cabinet and the power distribution cabinet with the lead wire structure can improve the firmness of fixing the cable by utilizing the cooperation between the guide assembly and the lead wire mechanism, can avoid the cable falling off from the lead wire device, can synchronously fix a plurality of cables, does not need to wire and fix one by the operators, is simple and convenient to operate, improves the cable wiring efficiency, and can be convenient to assemble and disassemble by utilizing the linkage locking assembly, and is convenient to use.

Description

Wire guide for wiring of power distribution cabinet and power distribution cabinet with wire guide structure

Technical Field

The invention relates to the technical field of power distribution cabinets, in particular to a wire leading device for wiring of a power distribution cabinet and the power distribution cabinet with a wire leading structure.

Background

When electrical equipment is installed in a power distribution cabinet, it is often necessary to connect electrical wires through the power distribution cabinet to external electrical equipment. And the bottom of the power distribution cabinet is often provided with a threading hole, and wires can be routed through the threading hole. Because the electrical equipment in the power distribution cabinet is more, the wires passing through the threading holes of the power distribution cabinet are also quite more, so that the wires are easy to be confused during wiring, and wrong wires are often connected.

The Chinese patent with the publication number of CN208336847U discloses a power distribution cabinet wire guider, which comprises a wire guiding tube and a supporting tube, wherein the wire guiding tube is connected with the supporting tube through a section of corrugated tube, a flat-plate-shaped lapping plate vertical to the wire guiding tube is arranged on the side surface of the wire guiding tube, a flat-plate-shaped display board is arranged on the lower side surface of the supporting tube, a sucking disc is connected on the upper side surface of the supporting tube through an elastic rope, and the wire guiding tube, the supporting tube, the corrugated tube and the display board are of an integral structure. This switch board lead wire ware can help the electric wire to pass the through wires hole of switch board to can sign different electric wires, prevent that the electric wire from being chaotic, avoid the wiring to take place the mistake, but current lead wire ware has following defect in the use:

the connection between the wire guider and the cable is unstable, so that the cable falls off from the wire guider in the wiring process;

when the cable adopts the lead ware wiring, it needs operating personnel to fix wiring one by one, and complex operation reduces cable wiring efficiency.

Disclosure of Invention

The invention aims to provide a wire guider for wiring of a power distribution cabinet and the power distribution cabinet with a wire guiding structure, which can improve the firmness of cable fixation by utilizing the cooperation between a guide assembly and the wire guiding mechanism, can avoid the cable from falling off from the wire guider, can synchronously fix a plurality of cables, does not need operators to fix the cables by wiring one by one, is simple and convenient to operate, improves the wiring efficiency of the cables, and can be convenient to assemble and disassemble by utilizing a linkage locking assembly, so that the problems raised in the background art are solved.

In order to achieve the above purpose, the present invention provides the following technical solutions:

the utility model provides a wire guide ware for switch board wiring, includes the lead wire base, the upper end of lead wire base is provided with guide assembly, guide assembly is used for guiding the location cable, the lower extreme of lead wire base is provided with wire guide mechanism, wire guide mechanism is used for guiding spacing cable.

Further, the guide assembly comprises a first hydraulic cylinder, a push-pull guide roller, an upper supporting positioning roller and a lower supporting positioning roller, wherein the first hydraulic cylinder is arranged on the outer surface of the upper end of the lead base, a piston rod of the first hydraulic cylinder is connected with the push-pull guide roller, the push-pull guide roller is movably connected to the lead base, the inner side of the lead base is provided with the upper supporting positioning roller and the lower supporting positioning roller, the upper supporting positioning roller and the lower supporting positioning roller are arranged in parallel, and the upper supporting positioning roller is positioned right above the lower supporting positioning roller.

Further, both ends of the push-pull guide roller penetrate through the lead wire base, a guide through groove for the push-pull guide roller to transversely move is formed in the lead wire base, and the push-pull guide roller is matched with the guide through groove.

Further, lead wire mechanism includes second pneumatic cylinder, traction link, guide bracket, wire clamp seat and lead wire subassembly, the second pneumatic cylinder is installed on the surface of lead wire base lower extreme, the piston rod of second pneumatic cylinder is connected with traction link, traction link linkage lead wire subassembly, lead wire subassembly is installed on the lead wire base, is provided with the guide bracket on the lead wire subassembly, the guide bracket runs through the lead wire base, installs the wire clamp seat on the guide bracket, wire clamp seat centre gripping cable.

Further, the lead assembly comprises a transmission rack, a guide sliding seat, a transmission gear, a transmission shaft rod and a support plate, wherein the transmission rack is connected to the traction connecting rod, the transmission rack is provided with the guide sliding seat, the guide sliding seat is embedded on the lead base, the side end face of the transmission rack is provided with the transmission gear, the transmission rack is meshed with the transmission gear, the transmission gear is installed on the transmission shaft rod through a spline, the transmission shaft rod is installed on the support plate through a bearing, and the support plate is installed on the outer surface of the lower end of the lead base.

Further, a guide limit groove for the guide sliding seat to transversely move is formed in the lead base, the guide sliding seat is matched with the guide limit groove, and the guide sliding seat drives the traction connecting rod to move through the second hydraulic cylinder so as to transversely move in the guide limit groove.

Further, the lead assembly further comprises a transmission worm wheel, a first transmission worm and a second transmission worm, the transmission worm wheel is located above the transmission gear, the transmission worm wheel is installed on the transmission shaft rod through a spline, one side end face of the transmission worm wheel is provided with the first transmission worm, the transmission worm wheel is meshed with the first transmission worm, the other side end face of the transmission worm wheel is provided with the second transmission worm, the transmission worm wheel is meshed with the second transmission worm, and the first transmission worm and the second transmission worm are installed on the support plate through bearings.

Further, the lead assembly further comprises a transmission unit, the first transmission worm and the second transmission worm are both connected with the transmission unit, the transmission unit is installed on the lead base and comprises a driven shaft rod, a transmission disc and a transmission supporting rod, the first transmission worm and the second transmission worm are both connected with the driven shaft rod through a coupling, the driven shaft rod is installed on the lead base through a bearing, the transmission disc is arranged on the driven shaft rod, and the transmission supporting rod is installed on the transmission disc.

Further, the transmission unit further comprises a linkage support and a transmission base rod, the periphery of the transmission support rod is provided with the linkage support, the transmission support rod is movably connected with the linkage support, the transmission base rod is installed on the linkage support, one end of the transmission base rod penetrates through the lead wire base, and the transmission base rod is connected with the guide support.

According to another aspect of the invention, there is provided a power distribution cabinet with a lead structure, comprising a cabinet body, wherein a cabinet door is arranged at the front end of the cabinet body, and a lead device with the lead structure is arranged at a lead inlet of the cabinet body;

the wire guider is arranged on the cabinet body through a linkage locking assembly, the linkage locking assembly comprises a supporting support, a first compression spring, a first telescopic guide post, a connecting substrate, a linkage locking rod, a traction connecting rod and a traction handle, the supporting support is arranged on the cabinet body, two ends of the supporting support are connected with the connecting substrate through the first compression spring and the first telescopic guide post, the linkage locking rod is arranged on the connecting substrate, the linkage locking rod is inserted into the wire base, the traction connecting rod is further arranged on the connecting substrate, one end of the traction connecting rod, far away from the connecting substrate, penetrates through the supporting support, and the traction connecting rod is connected with the traction handle;

the linkage locking assembly further comprises an anti-shifting unit, the anti-shifting unit comprises a second compression spring, a second telescopic guide post and an anti-shifting inserted rod, the anti-shifting inserted rod is connected to the support through the second compression spring and the second telescopic guide post, and the anti-shifting inserted rod is inserted into the traction connecting rod.

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

the invention relates to a wire guider for wiring of a power distribution cabinet and the power distribution cabinet with a wire guiding structure, wherein the upper end of a wire guiding base is provided with a guiding component, the guiding component is used for guiding and positioning a cable, the guiding component comprises a first hydraulic cylinder, a push-pull guiding roller, an upper supporting and positioning roller and a lower supporting and positioning roller, the cable penetrates into the power distribution cabinet upwards from the bottom of the wire guider, the cable is positioned in a gap between the upper supporting and positioning roller and the push-pull guiding roller, the first hydraulic cylinder is started, the push-pull guiding roller is driven to move by the first hydraulic cylinder, so that the push-pull guiding roller moves towards a direction close to the upper supporting and positioning roller until the push-pull guiding roller guides and positions the cable on the upper supporting and positioning roller and the lower supporting and positioning roller, the cable is initially positioned and fixed, and the firmness of cable fixation is improved.

The invention relates to a wire guide for a wiring of a power distribution cabinet and the power distribution cabinet with a wire guide structure, wherein the lower end of a wire guide base is provided with the wire guide mechanism, the wire guide mechanism is used for guiding a limiting cable, the wire guide mechanism comprises a second hydraulic cylinder, a traction connecting rod, a guide bracket, a wire clamp seat and a wire guide assembly, the wire guide assembly comprises a transmission rack, a guide sliding seat, a transmission gear, a transmission shaft rod, a support plate, a transmission worm wheel, a first transmission worm, a second transmission worm and a transmission unit, the second hydraulic cylinder is started and drives the traction connecting rod and the transmission rack to transversely move under the guiding action of the guide sliding seat, the transmission gear, the transmission shaft rod, the transmission worm wheel, the first transmission worm and the second transmission worm are enabled to rotate, the guide bracket and the wire clamp seat are driven to move by the transmission unit until the wire clamp seat clamps a cable, the cable is secondarily fixed at the moment, the cable is prevented from falling off from the wire guide, and after the cable is placed in the wire clamp seat, a plurality of cables can be synchronously fixed without wiring and fixing one by operators, the operator, the operation is simple and the wiring efficiency of the cable is improved.

The invention relates to a wire guide device for wiring of a power distribution cabinet and the power distribution cabinet with a wire guide structure, wherein a transmission unit comprises a driven shaft rod, a transmission disc, a transmission supporting rod, a linkage support and a transmission base rod, a first transmission worm and a second transmission worm can drive the driven shaft rod, the transmission disc and the transmission supporting rod to rotate in the rotating process, and the transmission supporting rod is movably connected with the linkage support, so that the transmission supporting rod can drive the linkage support and the transmission base rod to transversely move on a wire guide base in the rotating process, and the transmission base rod can drive a guide support and a wire guide seat to move until the wire guide seat clamps a cable, so that cables with different sizes can be fixed to a certain extent, and the use is flexible.

The invention relates to a wire guider for wiring of a power distribution cabinet and the power distribution cabinet with a wire guiding structure, wherein the wire guider is arranged on a cabinet body through a linkage locking assembly, the linkage locking assembly comprises a supporting support, a first compression spring, a first telescopic guide post, a connecting substrate, a linkage locking rod, a traction connecting rod, a traction handle and an anti-displacement unit, the anti-displacement unit comprises a second compression spring, a second telescopic guide post and an anti-displacement inserting rod, and the wire guider can be assembled and disassembled conveniently by utilizing the linkage locking assembly.

Drawings

Fig. 1 is a schematic forward view of a wire guide for a power distribution cabinet wiring of the present invention;

fig. 2 is a schematic backward view of the wire guide for the wiring of the power distribution cabinet of the present invention;

FIG. 3 is a schematic view of a lead frame of the present invention with a guide assembly thereon;

FIG. 4 is a schematic view of a lead frame of the present invention with a lead mechanism;

fig. 5 is a left side schematic view of a lead assembly of the present invention;

fig. 6 is a right side schematic view of a lead assembly of the present invention;

fig. 7 is a partial bottom view of a lead assembly of the present invention;

FIG. 8 is a partial schematic view of the meshing of the drive rack and drive gear of the present invention;

FIG. 9 is a right side schematic view of the transmission unit of the present invention;

FIG. 10 is a schematic view of a transmission unit disposed on a lead frame of the present invention;

fig. 11 is a schematic view of a power distribution cabinet with a lead structure of the present invention;

fig. 12 is a bottom view of the power distribution cabinet with the lead structure of the present invention;

FIG. 13 is a bottom view of the power distribution cabinet of the present invention with a ganged locking assembly;

FIG. 14 is a schematic view of a ganged locking assembly of the present invention;

FIG. 15 is an enlarged view of FIG. 14 at A in accordance with the present invention;

fig. 16 is an enlarged view of the shift preventing unit of the present invention.

In the figure: 1. a lead base; 11. a guide through groove; 2. a guide assembly; 21. a first hydraulic cylinder; 22. a push-pull guide roller; 23. an upper supporting positioning roller; 24. a lower support positioning roller; 3. a wire-guiding mechanism; 31. a second hydraulic cylinder; 32. a traction link; 33. a guide bracket; 34. a lead clamp seat; 35. a lead assembly; 351. a drive rack; 352. a guide slide; 353. a transmission gear; 354. a transmission shaft lever; 355. supporting the support plate; 356. a drive worm wheel; 357. a first drive worm; 358. a second drive worm; 359. a transmission unit; 3591. a driven shaft; 3592. a drive disc; 3593. a transmission support rod; 3594. a linkage bracket; 3595. a transmission base rod; 4. a cabinet body; 41. a cabinet door; 5. a linkage locking assembly; 51. a support base; 52. a first compression spring; 53. a first telescoping guiding post; 54. a connection substrate; 55. a linkage locking lever; 56. a traction link; 57. a traction handle; 58. an anti-shift unit; 581. a second compression spring; 582. the second telescopic guide post; 583. an anti-displacement plunger.

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.

Example 1

In order to solve the technical problems that the existing wire guider is unstable in connection with a cable, so that the cable falls off from the wire guider in the wiring process, operators are required to wire and fix the wire one by one, the operation is complex, and the wiring efficiency of the cable is reduced, please refer to fig. 1-10, the embodiment provides the following technical scheme:

the utility model provides a wire guide ware for switch board wiring, includes lead wire base 1, and the upper end of lead wire base 1 is provided with guide assembly 2, and guide assembly 2 is used for guiding the location cable, and the lower extreme of lead wire base 1 is provided with lead wire mechanism 3, and lead wire mechanism 3 is used for guiding spacing cable.

Specifically, the guide assembly 2 and the lead mechanism 3 are matched, so that the firmness of cable fixation can be improved, the cable can be prevented from falling off from the lead device, a plurality of cables can be synchronously fixed, operators are not required to wire and fix one by one, the operation is simple and convenient, and the cable wiring efficiency is improved.

The guide assembly 2 comprises a first hydraulic cylinder 21, a push-pull guide roller 22, an upper supporting and positioning roller 23 and a lower supporting and positioning roller 24, wherein the first hydraulic cylinder 21 is arranged on the outer surface of the upper end of the lead base 1, a piston rod of the first hydraulic cylinder 21 is connected with the push-pull guide roller 22, the push-pull guide roller 22 is movably connected to the lead base 1, the upper supporting and positioning roller 23 and the lower supporting and positioning roller 24 are arranged on the inner side of the lead base 1, the upper supporting and positioning roller 23 and the lower supporting and positioning roller 24 are arranged in parallel, and the upper supporting and positioning roller 23 is positioned right above the lower supporting and positioning roller 24.

Specifically, the cable upwards penetrates into the power distribution cabinet from the bottom of the wire guider, the cable is placed between the adjacent wire clamp seats 34, the cable upwards extends and penetrates into the power distribution cabinet, at the moment, the cable is located in a gap between the upper supporting and positioning roller 23 and the push-pull guide roller 22, the first hydraulic cylinder 21 is started, the push-pull guide roller 22 is driven to move by the first hydraulic cylinder 21, the push-pull guide roller 22 moves towards a direction close to the upper supporting and positioning roller 23 until the push-pull guide roller 22 guides and positions the cable on the upper supporting and positioning roller 23 and the lower supporting and positioning roller 24, the cable is initially positioned and fixed, and the firmness of cable fixation is improved.

Both ends of the push-pull guide roller 22 penetrate through the lead base 1, a guide through groove 11 for the push-pull guide roller 22 to transversely move is arranged on the lead base 1, and the push-pull guide roller 22 is matched with the guide through groove 11.

Specifically, the first hydraulic cylinder 21 is started, and the first hydraulic cylinder 21 drives the push-pull guide roller 22 to move in the guide through groove 11, so that the purpose that the push-pull guide roller 22 guides and positions the cable on the upper support positioning roller 23 and the lower support positioning roller 24 is achieved.

The lead wire mechanism 3 comprises a second hydraulic cylinder 31, a traction connecting rod 32, a guide support 33, a lead wire clamp seat 34 and a lead wire assembly 35, wherein the second hydraulic cylinder 31 is installed on the outer surface of the lower end of the lead wire base 1, a piston rod of the second hydraulic cylinder 31 is connected with the traction connecting rod 32, the traction connecting rod 32 is linked with the lead wire assembly 35, the lead wire assembly 35 is installed on the lead wire base 1, the guide support 33 is arranged on the lead wire assembly 35, the guide support 33 penetrates through the lead wire base 1, the lead wire clamp seat 34 is installed on the guide support 33, and the lead wire clamp seat 34 clamps a cable.

The lead assembly 35 comprises a transmission rack 351, a guide slide seat 352, a transmission gear 353, a transmission shaft rod 354 and a support plate 355, wherein the transmission rack 351 is connected to the traction connecting rod 32, the transmission rack 351 is provided with the guide slide seat 352, the guide slide seat 352 is embedded in the lead base 1, the side end face of the transmission rack 351 is provided with the transmission gear 353, the transmission rack 351 is meshed with the transmission gear 353, the transmission gear 353 is arranged on the transmission shaft rod 354 through a spline, the transmission shaft rod 354 is arranged on the support plate 355 through a bearing, and the support plate 355 is arranged on the outer surface of the lower end of the lead base 1.

Specifically, the second hydraulic cylinder 31 is started, the second hydraulic cylinder 31 drives the traction link 32 to move, the traction link 32 moves to drive the transmission rack 351 to move transversely under the guiding action of the guiding slide seat 352, and the transmission rack 351 is meshed with the transmission gear 353, so that the transmission rack 351 can drive the transmission gear 353, the transmission shaft rod 354 and the transmission worm gear 356 to rotate in the transverse moving process.

The lead base 1 is provided with a guide limit groove for the guide slide seat 352 to transversely move, the guide slide seat 352 is matched with the guide limit groove, and the guide slide seat 352 drives the traction connecting rod 32 to move through the second hydraulic cylinder 31 so as to transversely move in the guide limit groove.

The lead assembly 35 further comprises a drive worm gear 356, a first drive worm 357 and a second drive worm 358, wherein the drive worm gear 356 is located above the drive gear 353, the drive worm gear 356 is mounted on the drive shaft 354 through a spline, one side end face of the drive worm gear 356 is provided with the first drive worm 357, the drive worm gear 356 is meshed with the first drive worm 357, the other side end face of the drive worm gear 356 is provided with the second drive worm 358, the drive worm gear 356 is meshed with the second drive worm 358, and the first drive worm 357 and the second drive worm 358 are mounted on the support plate 355 through bearings.

Specifically, the second hydraulic cylinder 31 is started, the second hydraulic cylinder 31 drives the traction link 32 to move, the traction link 32 moves to drive the transmission rack 351 to move transversely under the guiding action of the guiding slide seat 352, the transmission rack 351 is meshed with the transmission gear 353, so that the transmission rack 351 can drive the transmission gear 353, the transmission shaft rod 354 and the transmission worm gear 356 to rotate in the transverse moving process, and the first transmission worm 357 and the second transmission worm 358 are meshed with the transmission worm gear 356, so that the transmission worm gear 356 can drive the first transmission worm 357 and the second transmission worm 358 to rotate in the rotating process.

The lead assembly 35 further comprises a transmission unit 359, the first transmission worm 357 and the second transmission worm 358 are both connected with the transmission unit 359, the transmission unit 359 is installed on the lead base 1, the transmission unit 359 comprises a driven shaft rod 3591, a transmission disc 3592 and a transmission support rod 3593, the first transmission worm 357 and the second transmission worm 358 are both connected with the driven shaft rod 3591 through a coupling, the driven shaft rod 3591 is installed on the lead base 1 through a bearing, the transmission disc 3592 is arranged on the driven shaft rod 3591, and the transmission support rod 3593 is installed on the transmission disc 3592.

The transmission unit 359 further comprises a linkage support 3594 and a transmission base rod 3595, the periphery of the transmission support rod 3593 is provided with the linkage support 3594, the transmission support rod 3593 is movably connected with the linkage support 3594, the transmission base rod 3595 is installed on the linkage support 3594, one end of the transmission base rod 3595 penetrates through the lead base 1, and the transmission base rod 3595 is connected with the guide support 33.

Specifically, the first transmission worm 357 and the second transmission worm 358 can drive the driven shaft rod 3591, the transmission disc 3592 and the transmission support 3593 to rotate in the rotating process, and because the transmission support 3593 is movably connected with the linkage support 3594, the transmission support 3593 can drive the linkage support 3594 and the transmission base rod 3595 to transversely move on the lead base 1 in the rotating process, the transmission base rod 3595 can drive the guide support 33 and the lead clamp seat 34 to move until the lead clamp seat 34 clamps a cable, the cable is secondarily fixed at the moment, the cable can be prevented from falling off from the lead device, the plurality of cables can be synchronously fixed after the cable is placed in the lead clamp seat 34, operators are not required to wire and fix one by one, the operation is simple and convenient, and the cable wiring efficiency is improved.

And (3) a cable wiring process: the cable upwards penetrates into the power distribution cabinet from the bottom of the wire guider, the cable is placed between the adjacent wire clamp seats 34, the cable upwards extends and penetrates into the power distribution cabinet, at the moment, the cable is located in a gap between the upper supporting and positioning roller 23 and the push-pull guide roller 22, the first hydraulic cylinder 21 is started, the push-pull guide roller 22 is driven to move by the first hydraulic cylinder 21, the push-pull guide roller 22 moves towards a direction close to the upper supporting and positioning roller 23 until the push-pull guide roller 22 guides and positions the cable on the upper supporting and positioning roller 23 and the lower supporting and positioning roller 24, the cable is initially positioned and fixed, and the firmness of cable fixation is improved.

After the cable is initially fixed, the second hydraulic cylinder 31 is started, the second hydraulic cylinder 31 drives the traction connecting rod 32 to move, the traction connecting rod 32 moves to drive the transmission rack 351 to move transversely under the guiding action of the guiding sliding seat 352, the transmission rack 351 is meshed with the transmission gear 353, so that the transmission rack 351 can drive the transmission gear 353, the transmission shaft rod 354 and the transmission worm gear 356 to rotate in the transverse moving process, the first transmission worm 357 and the second transmission worm 358 are meshed with the transmission worm gear 356, the transmission worm gear 356 can drive the first transmission worm 357 and the second transmission worm 358 to rotate in the rotating process, the first transmission worm 357 and the second transmission worm 358 can drive the driven shaft 3591, the transmission disc 3592 and the transmission support 3593 to rotate under the guiding action of the guiding sliding seat 352, the transmission support 3593 and the transmission base 3595 can be driven to move transversely on the lead wire base 1 at the moment in the rotating process, the transmission base 3595 can drive the guiding support 33 and the lead wire seat 34 to move until the lead wire seat 34 is clamped, the cable is prevented from falling off from the cable holder, the cable is prevented from being laid in the cable holder, and the cable holder is fixed in the cable holder is not needed to be fixed one by one, and the operator can be fixed, and the cable holder is easy to be fixed.

Example two

In order to solve the technical problems that the existing wire guider is fixed on the power distribution cabinet by bolts, so that the wire guider is inconvenient to assemble and disassemble and inconvenient to use, referring to fig. 11-16, the embodiment provides the following technical scheme:

the utility model provides a switch board with lead wire structure, includes the cabinet body 4, and the front end of the cabinet body 4 is provided with cabinet door 41, and the lead wire ware that has the lead wire structure is installed to the inlet wire of the cabinet body 4.

This switch board with lead wire structure, when the cable passes switch board and is connected with outside electrical equipment, can improve the fixed fastness of cable, can avoid the cable to drop from the lead wire ware, can fix a plurality of cables in step, need not operating personnel to fix by wiring one, easy and simple to handle improves cable wiring efficiency.

The wire guider is installed on the cabinet body 4 through the linkage locking assembly 5, the linkage locking assembly 5 includes support base 51, first compression spring 52, first flexible guide post 53, connection base plate 54, linkage locking lever 55, traction link 56 and traction handle 57, support base 51 installs on the cabinet body 4, the both ends of support base 51 all are connected with connection base plate 54 through first compression spring 52 and first flexible guide post 53, install linkage locking lever 55 on the connection base plate 54, linkage locking lever 55 inserts in the lead base 1, still install traction link 56 on the connection base plate 54, traction link 56 keeps away from the one end of connection base plate 54 and runs through support base 51, traction link 56 is connected with traction handle 57.

The linkage locking assembly 5 further includes an anti-displacement unit 58, the anti-displacement unit 58 includes a second compression spring 581, a second telescopic guide column 582 and an anti-displacement insert rod 583, the anti-displacement insert rod 583 is connected to the support base 51 through the second compression spring 581 and the second telescopic guide column 582, and the anti-displacement insert rod 583 is inserted into the traction link 56.

Specifically, the anti-displacement insert rod 583 is pressed, the second compression spring 581 and the second telescopic guide column 582 are contracted due to extrusion until the anti-displacement insert rod 583 is no longer inserted into the traction link 56, the connection base plate 54 and the linkage locking rod 55 are driven to move by the traction handle 57, the first compression spring 52 and the first telescopic guide column 53 are contracted due to extrusion force until the linkage locking rod 55 is no longer blocked by the lead base 1 to be installed on the cabinet body 4, at the moment, the lead base 1 is installed on the cabinet body 4, the traction handle 57 is released, the first compression spring 52 and the first telescopic guide column 53 are extended due to no longer extrusion force, the connection base plate 54 and the linkage locking rod 55 are pushed to move, the linkage locking rod 55 is inserted into the lead base 1, the anti-displacement insert rod 583 is released, the second compression spring 581 and the second telescopic guide column 582 are extended due to no longer extrusion force, the anti-displacement insert rod 583 is pushed into the traction link 56, and the lead wire device can be conveniently and quickly installed and removed by using the linkage locking assembly 5.

Example III

The lead base 1 is provided with a collector and a processor, wherein

The collector is used for collecting wiring information of the wire guider to the cable in real time;

the processor is used for processing the wiring information acquired in real time;

the processor comprises a feature analysis module, a data storage module and an instruction execution module, wherein

The characteristic analysis module is used for carrying out characteristic analysis on the wiring information acquired in real time;

the data storage module is used for storing category thresholds for feature analysis comparison;

the instruction execution module is used for executing corresponding instructions;

the feature analysis module refers to the threshold value stored in the data storage module, performs feature analysis on the wiring information, feeds analysis results back to the instruction execution module, and performs execution of corresponding instructions through the instruction execution module, so that normal starting and stopping of the first hydraulic cylinder 21 and the second hydraulic cylinder 31 are arranged, and smooth performance of cable wiring work is ensured.

In summary, the lead wire device for the wiring of the power distribution cabinet and the power distribution cabinet with the lead wire structure can improve the firmness of cable fixation by utilizing the cooperation between the guide component 2 and the lead wire mechanism 3, can avoid the cable from falling off from the lead wire device, can synchronously fix a plurality of cables, does not need operators to fix the cables by wiring one by one, is simple and convenient to operate, improves the wiring efficiency of the cables, and can be convenient to assemble and disassemble by utilizing the linkage locking component 5, and is convenient to use.

The present invention is not limited to the above-mentioned embodiments, but any person skilled in the art, based on the technical solution of the present invention and the inventive concept thereof, can be replaced or changed equally within the scope of the present invention.

Claims (10)

1. The utility model provides a wire guide ware for switch board wiring, includes lead wire base (1), its characterized in that, the upper end of lead wire base (1) is provided with guide assembly (2), guide assembly (2) are used for guiding the location cable, the lower extreme of lead wire base (1) is provided with lead wire mechanism (3), lead wire mechanism (3) are used for guiding spacing cable.

2. The wire guide for the wiring of the power distribution cabinet according to claim 1, wherein the guide assembly (2) comprises a first hydraulic cylinder (21), a push-pull guide roller (22), an upper supporting and positioning roller (23) and a lower supporting and positioning roller (24), the first hydraulic cylinder (21) is arranged on the outer surface of the upper end of the wire guide base (1), a piston rod of the first hydraulic cylinder (21) is connected with the push-pull guide roller (22), the push-pull guide roller (22) is movably connected on the wire guide base (1), an upper supporting and positioning roller (23) and a lower supporting and positioning roller (24) are arranged on the inner side of the wire guide base (1), the upper supporting and positioning roller (23) and the lower supporting and positioning roller (24) are arranged in parallel, and the upper supporting and positioning roller (23) is positioned right above the lower supporting and positioning roller (24).

3. A wire guide for a power distribution cabinet wire connection according to claim 2, characterized in that two ends of the push-pull guide roller (22) penetrate through the wire guide base (1), a guide through groove (11) for the push-pull guide roller (22) to transversely move is arranged on the wire guide base (1), and the push-pull guide roller (22) is matched with the guide through groove (11).

4. A wire guide for a power distribution cabinet wire connection according to claim 1, characterized in that the wire guide mechanism (3) comprises a second hydraulic cylinder (31), a traction connecting rod (32), a guide bracket (33), a wire clamp seat (34) and a wire guide assembly (35), the second hydraulic cylinder (31) is installed on the outer surface of the lower end of the wire guide base (1), a piston rod of the second hydraulic cylinder (31) is connected with the traction connecting rod (32), the traction connecting rod (32) is linked with the wire guide assembly (35), the wire guide assembly (35) is installed on the wire guide base (1), the guide bracket (33) penetrates through the wire guide base (1), the wire clamp seat (34) is installed on the guide bracket (33), and the wire clamp seat (34) clamps a cable.

5. The wire guide device for the wiring of the power distribution cabinet according to claim 4, wherein the wire guide assembly (35) comprises a transmission rack (351), a guide sliding seat (352), a transmission gear (353), a transmission shaft lever (354) and a support supporting plate (355), the transmission rack (351) is connected to the traction connecting rod (32), the guide sliding seat (352) is arranged on the transmission rack (351), the guide sliding seat (352) is embedded on the wire guide base (1), the transmission gear (353) is arranged on the side end face of the transmission rack (351), the transmission rack (351) is meshed with the transmission gear (353), the transmission gear (353) is installed on the transmission shaft lever (354) through a spline, the transmission shaft lever (354) is installed on the support supporting plate (355) through a bearing, and the support supporting plate (355) is installed on the outer surface of the lower end of the wire guide base (1).

6. A wire guide for a power distribution cabinet according to claim 5, wherein the wire guide base (1) is provided with a guiding limit groove for the guiding slide seat (352) to move transversely, the guiding slide seat (352) is matched with the guiding limit groove, and the guiding slide seat (352) drives the traction connecting rod (32) to move transversely in the guiding limit groove through the second hydraulic cylinder (31).

7. The wire guide for the power distribution cabinet wire connection according to claim 5, wherein the wire guide assembly (35) further comprises a transmission worm wheel (356), a first transmission worm (357) and a second transmission worm (358), the transmission worm wheel (356) is located above the transmission gear (353), the transmission worm wheel (356) is installed on the transmission shaft rod (354) through a spline, one side end face of the transmission worm wheel (356) is provided with the first transmission worm (357), the transmission worm wheel (356) is meshed with the first transmission worm (357), the other side end face of the transmission worm wheel (356) is provided with the second transmission worm (358), the transmission worm wheel (356) is meshed with the second transmission worm (358), and the first transmission worm (357) and the second transmission worm (358) are installed on the support plate (355) through bearings.

8. The wire guide for the wiring of the power distribution cabinet according to claim 7, wherein the wire guide assembly (35) further comprises a transmission unit (359), the first transmission worm (357) and the second transmission worm (358) are both connected with the transmission unit (359), the transmission unit (359) is installed on the wire guide base (1), the transmission unit (359) comprises a driven shaft lever (3591), a transmission disc (3592) and a transmission support rod (3593), the first transmission worm (357) and the second transmission worm (358) are both connected with the driven shaft lever (3591) through a coupling, the driven shaft lever (3591) is installed on the wire guide base (1) through a bearing, the transmission disc (3592) is arranged on the driven shaft lever (3591), and the transmission support rod (3593) is installed on the transmission disc (3592).

9. The wire guide device for the wiring of the power distribution cabinet according to claim 8, wherein the transmission unit (359) further comprises a linkage support (3594) and a transmission base rod (3595), the periphery of the transmission support rod (3593) is provided with the linkage support (3594), the transmission support rod (3593) is movably connected with the linkage support (3594), the transmission base rod (3595) is installed on the linkage support (3594), one end of the transmission base rod (3595) penetrates through the wire guide base (1), and the transmission base rod (3595) is connected with the guide support (33).

10. A power distribution cabinet with a lead structure, comprising a cabinet body (4), wherein a cabinet door (41) is arranged at the front end of the cabinet body (4), and a lead wire device for wiring of the power distribution cabinet as claimed in any one of claims 1-9 is arranged at a lead wire inlet of the cabinet body (4);

the wire guider is arranged on the cabinet body (4) through a linkage locking assembly (5), the linkage locking assembly (5) comprises a supporting support (51), a first compression spring (52), a first telescopic guide post (53), a connecting base plate (54), a linkage locking rod (55), a traction connecting rod (56) and a traction handle (57), the supporting support (51) is arranged on the cabinet body (4), the two ends of the supporting support (51) are connected with the connecting base plate (54) through the first compression spring (52) and the first telescopic guide post (53), the linkage locking rod (55) is arranged on the connecting base plate (54), the linkage locking rod (55) is inserted into the wire base (1), the traction connecting rod (56) is further arranged on the connecting base plate (54), one end of the traction connecting rod (56) far away from the connecting base plate (54) penetrates through the supporting support (51), and the traction connecting rod (56) is connected with the traction handle (57).

The linkage locking assembly (5) further comprises an anti-displacement unit (58), the anti-displacement unit (58) comprises a second compression spring (581), a second telescopic guide column (582) and an anti-displacement inserting rod (583), the anti-displacement inserting rod (583) is connected to the supporting support (51) through the second compression spring (581) and the second telescopic guide column (582), and the anti-displacement inserting rod (583) is inserted into the traction connecting rod (56).

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