CN117791426A - Intelligent building wiring device and use method thereof - Google Patents

Abstract

The invention provides an intelligent building wiring device and a use method thereof, the intelligent building wiring device comprises a wiring disc, a hanging bracket is arranged at the top of the wiring disc, a wire inlet is radially formed in the circumferential side wall of the wiring disc, a plurality of groups of arc wire clamping ports communicated with the wire inlet are arranged in the circumferential direction of the wiring disc, the lengths of the arc wire clamping ports in the radial direction are sequentially reduced from outside to inside, an arc wire clamping plate capable of radially moving is arranged in the arc wire clamping ports, a rotating head is rotatably connected to the center of the front face of the wiring disc, a rotating arm capable of rotating by 90 degrees is arranged on the side wall of the rotating head, and a slideway is arranged on the side wall of the rotating arm along the length direction of the rotating arm. This wiring ware adopts multiunit arc card line mouth that circumference distributes, can be directly put into arc card line mouth through the line mouth with the circuit that the tip pegged graft is good to can put into the arc card line mouth that corresponds in order with the electric wire of different floors and different equipment, separate each other, whole wiring is clean and tidy, and is categorised orderly, easily investigation.

Description

Intelligent building wiring device and use method thereof

Technical Field

The invention relates to the technical field of wiring devices, in particular to an intelligent building wiring device and a using method thereof.

Background

In the modern intelligent building construction process, the wiring engineering quantity is large, and the wires are intricate and complex, so that systematic wiring is needed, so that the wires can be checked and repaired in time when the wires fail, and a tool required for systematic wiring is a router.

For the line to be neat and clean, the wire harness is restricted by the sleeve or the wire groove with the cover or the cable is fixed by the binding belt, the wire-groove-type wire-distributor needs to be wired before the equipment is plugged at one end of the wire, the wire-groove-type wire-distributor is arranged in a general wire groove, the groove covers are required to be installed next after the wire is wired, the wire is more troublesome, and the wire is still wired for different equipment on different floors.

Disclosure of Invention

Aiming at the problems, the invention provides the intelligent building wiring device and the using method thereof, wherein the wiring device adopts a plurality of groups of arc wire clamping openings distributed in the circumferential direction, can directly put the wires with the end parts spliced well into the arc wire clamping openings through the wire inlet, can orderly put the wires of different floors and different devices into the corresponding arc wire clamping openings, are mutually separated, are clean in integral wiring, are orderly classified, and are easy to check.

In order to solve the problems, the invention adopts the following technical scheme:

the utility model provides an intelligent building wiring ware, includes the wiring dish, the gallows is installed at the top of wiring dish, and the wire inlet has radially been seted up to the circumference lateral wall of wiring dish, is equipped with the multiunit in the circumference of wiring dish and the arc card line mouth of wire inlet intercommunication, and radial a plurality of arc card line mouths reduce in proper order from outer to interior length, but install radial movable's arc clamp in the arc card line mouth, the front center department rotation of wiring dish is connected with the rotating head, but 90 pivoted swinging boom is installed to the lateral wall of rotating head, the lateral wall of swinging boom is equipped with the slide along its length direction, slidable mounting has the slide on the slide, a pair of interval adjustable wire conveying wheel is installed to the lateral wall of slide, the back fixedly connected with backward extension's of wiring dish multiunit mount and multiunit arc card line mouth one-to-one, the both sides fixedly connected with multiunit mount is to wire winding rod.

Preferably, the inner wall of arc card line mouth is equipped with the mounting groove, the mounting groove internal rotation is connected with the threaded rod of radial setting, threaded connection has the slide on the threaded rod, arc clamp elastic mounting is on the slide, install the drive mechanism that can drive many threaded rods synchronous rotation on the wire distribution board.

Preferably, a pair of grooves are formed in the sliding seat, a supporting rod extending out of the grooves is elastically connected in the grooves through a first spring, and the extending end of the supporting rod is fixedly connected with the arc-shaped wire clamping plate.

Preferably, the transmission mechanism comprises a plurality of radial circular cavities, the radial circular cavities correspond to a group of arc wire clamping openings, a radial transmission shaft is connected between the radial circular cavities in a rotating mode, a tangential transmission shaft is connected between the installation groove and the corresponding circular cavity in a rotating mode, the tangential transmission shaft is in transmission connection with the corresponding threaded rod through a first bevel gear pair, the tangential transmission shaft is in transmission connection with the radial transmission shaft through a second bevel gear pair, a transmission cavity is arranged in the center of the wire distribution plate, a plurality of radial transmission shafts all extend into the transmission cavity, and a driving assembly capable of synchronously driving the radial transmission shafts to rotate is installed in the transmission cavity.

Preferably, the driving assembly comprises an inclined gear ring rotatably connected in the transmission cavity, a bevel gear meshed with the inclined gear ring is fixed at the extending end of the radial transmission shaft, a rotating handle is installed at the center of the back of the wiring board, and the axle center of the rotating handle is fixedly connected with the inclined gear ring.

Preferably, a pair of rotating shafts are arranged on the side wall of the sliding plate, a pair of wire conveying wheels are fixedly connected to the corresponding rotating shafts, meshed gears are fixedly connected to the rotating shafts, and a motor capable of driving one rotating shaft to rotate is arranged on the sliding plate.

Preferably, a sliding groove is formed in the sliding plate, a sliding block is elastically connected in the sliding groove through a second spring, a strip-shaped opening is formed in the bottom of the sliding groove, the other upper end of the rotating shaft penetrates through the strip-shaped opening and is rotationally connected to the sliding block, and the meshing depth of the transmission teeth between the gears is consistent with the sliding range of the sliding block.

Preferably, the side wall of the sliding plate is connected with a bolt in a threaded manner, and the tail end of the bolt abuts against the inner wall of the slideway.

Preferably, the top of the rotating head is provided with a plug pin, and a slot for adapting the plug pin is arranged at the position of the wire distribution disc corresponding to the wire inlet.

The invention also provides a use method of the intelligent building wiring device, which comprises the following specific steps:

s1, hoisting a wiring board through a hanger, wherein a plurality of groups of arc wire clamping openings can correspond to equipment lines of different floors, the radial arc wire clamping openings of each group are used for placing lines of different equipment of the same floor, and the arc wire clamping openings with the lengths decreasing from outside to inside are used for placing a plurality of wires with corresponding thickness;

s2, feeding a plurality of wires with corresponding thickness into corresponding arc wire clamping ports through wire inlet ports, rotating a rotating handle after paying off of a plurality of groups of arc wire clamping ports is completed, synchronously driving a plurality of threaded rods to rotate through transmission of a transmission mechanism, driving an arc wire clamping plate to move through a sliding seat and a supporting rod, and clamping the plurality of wires in the plurality of groups of arc wire clamping ports;

s3, after the longer wire passes through the arc wire clamping opening, the longer wire is wound on a plurality of pairs of winding rods, and the wiring process is completed;

s4, when one of the wires is required to be taken out, the corresponding arc-shaped wire clamping plate is pressed under the action of the first spring, and the wire is taken out from the corresponding arc-shaped wire clamping opening;

s5, when one of the wires is required to be pulled from the tail end to the front end, the rotating arm is only required to be rotated to the position corresponding to the wire inlet, the sliding plate slides to the position corresponding to the arc wire clamping opening, the taken-out wire is placed between the pair of wire conveying wheels, and the motor is started to drive the pair of wire conveying wheels to rotate in opposite directions, so that the wire can be pulled.

The beneficial effects of the invention are as follows:

1. through the multiunit arc card line mouth and the line mouth of going into of installation circumference distribution, can be directly put into arc card line mouth through going into the line mouth with the good circuit of tip grafting, it is convenient to route, multiunit arc card line mouth can correspond the equipment circuit of different floors, radial a plurality of arc card line mouthfuls of every group are used for placing the circuit of the different equipment of same floor, a plurality of arc card line mouthfuls that reduce in proper order from outer to interior length are used for placing the electric wire of a plurality of corresponding thickness, whole wiring is clean and tidy, classification is orderly, easily investigation circuit problem.

2. Through installation arc clamp, threaded rod and drive mechanism, accomplish the unwrapping wire of multiunit arc card line mouth after, rotate the commentaries on classics handle, drive many threaded rods through drive mechanism's transmission and rotate in step, rethread slide and support the pole and drive arc clamp and remove, press from both sides the tight with many electric wires in the multiunit arc card line mouth simultaneously, when needs take out one of them electric wire, only need press down corresponding arc clamp under the effect of first spring, take out the electric wire from corresponding arc card line mouth in, be convenient for realize whole clamp line and single wire-taking.

3. Through installation swinging boom, slide and a pair of line transmission wheel, when needs pull single electric wire, only need rotate the swinging boom to the position that corresponds the wire inlet, the slide slides to the position that corresponds the arc card wire mouth, places the electric wire of taking out between a pair of line transmission wheel, and the starter motor drives a pair of line transmission wheel and rotates in opposite directions, can draw the electric wire, be convenient for investigation, repair or abandonment electric wire.

4. Through installing mount and many pairs of wire winding poles, can pass the arc card line mouth after longer electric wire, around establishing on many pairs of wire winding poles, avoid electric wire grafting end circuit overlength.

Drawings

FIG. 1 is a front view of the present invention;

FIG. 2 is a rear view of the present invention;

FIG. 3 is an enlarged schematic view of the structure at A in FIG. 1;

FIG. 4 is a top view of a pair of gears according to the present invention;

FIG. 5 is a schematic diagram of a slot structure according to the present invention;

FIG. 6 is a cross-sectional view of the present invention;

FIG. 7 is an enlarged schematic view of the structure at B in FIG. 6;

FIG. 8 is an enlarged schematic view of the structure at C in FIG. 6;

fig. 9 is a top view of the fixing frame according to the present invention.

In the figure: 1 wire distribution disc, 2 rotating heads, 3 bolts, 4 hanging brackets, 5 transmission cavities, 6 rotating arms, 7 arc wire clamping ports, 8 arc wire clamping plates, 9 wire inlet ports, 10 rotating handles, 11 fixing frames, 12 winding rods, 13 motors, 14 sliding ways, 15 bolts, 16 sliding plates, 17 sliding blocks, 18 second springs, 19 wire conveying wheels, 20 rotating shafts, 21 gears, 22 transmission teeth, 23 slots, 24 round cavities, 25 radial transmission shafts, 26 second bevel gear pairs, 27 threaded rods, 28 sliding seats, 29 abutting rods, 30 first springs, 31 first bevel gear pairs, 32 tangential transmission shafts, 33 mounting grooves, 34 oblique gear rings and 35 bevel gears.

Detailed Description

In order that the above objects, features and advantages of the invention will be readily understood, a more particular description of the invention will be rendered by reference to the appended drawings. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention. The invention may be embodied in many other forms than described herein and similarly modified by those skilled in the art without departing from the spirit or scope of the invention, which is therefore not limited to the specific embodiments disclosed below.

It will be understood that when an element is referred to as being "fixed to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like are used herein for illustrative purposes only and are not meant to be the only embodiment.

Referring to fig. 1-9, an intelligent building construction wiring ware, including wiring board 1, gallows 4 are installed at the top of wiring board 1, wire inlet 9 has radially been seted up to the circumference lateral wall of wiring board 1, the circumference of wiring board 1 is equipped with multiunit and wire inlet 9 intercommunication's arc card line mouth 7, radial a plurality of arc card line mouthfuls 7 reduce in proper order from outer to interior length, but install radial movable's arc clamp 8 in the arc card line mouth 7, multiunit arc card line mouth 7 can correspond the equipment circuit of different floors, radial a plurality of arc card line mouthfuls 7 of every group are used for placing the circuit of the different equipment of same floor, a plurality of arc card line mouthfuls 7 that reduce in proper order from outer to interior length are used for placing many corresponding thick electric wires, thick line can concentrate to place in longer arc card line mouth 7 promptly, thinner electric wire concentrate to place in the inside in short arc card line mouth 7.

Further, the inner wall of the arc wire clamping opening 7 is provided with a mounting groove 33, a threaded rod 27 which is radially arranged is rotationally connected in the mounting groove 33, a sliding seat 28 is connected to the threaded rod 27 in a threaded manner, the arc wire clamping plate 8 is elastically mounted on the sliding seat 28, and a transmission mechanism capable of driving a plurality of threaded rods 27 to synchronously rotate is mounted on the wire distribution plate 1.

Specifically, the drive mechanism includes a plurality of round cavities 24 that radially set up, a plurality of round cavities 24 that radially set up correspond a set of arc clamping line mouth 7, radial transmission shaft 25 is connected with in the rotation between a plurality of radial round cavities 24, the mounting groove 33 is connected with tangential transmission shaft 32 with corresponding round cavity 24 in the rotation, pass through first bevel gear pair 31 transmission connection between tangential transmission shaft 32 and the corresponding threaded rod 27, pass through second bevel gear pair 26 transmission connection between tangential transmission shaft 32 and the radial transmission shaft 25, the center of wire drum 1 is equipped with drive chamber 5, a plurality of radial transmission shafts 25 all extend to drive intracavity 5, install the drive assembly that can drive a plurality of radial transmission shafts 25 pivoted in step in drive chamber 5, drive assembly is including rotating the helical gear 34 of connecting in drive chamber 5, radial transmission shaft 25's extension end is fixed with the bevel gear 35 of meshing with helical gear 34, the back center department of wire drum 1 installs the commentaries on classics 10, the axle center and helical gear 34 fixed connection of commentaries on classics 10, rotate commentaries on classics 10, drive a plurality of threaded rods 27 rotation through drive in step of drive mechanism's transmission, again through 28 and lever 8 drive clamping line mouth 8, a plurality of arc-shaped slide seat 7 clamp wire simultaneously.

Further, a pair of grooves are formed in the sliding seat 28, a supporting rod 29 extending out of the grooves is elastically connected in the grooves through a first spring 30, the extending end of the supporting rod 29 is fixedly connected with the arc-shaped wire clamping plate 8, when one wire needs to be taken out, the corresponding arc-shaped wire clamping plate 8 is only pressed under the action of the first spring 30, the wire is taken out from the corresponding arc-shaped wire clamping opening 7, and then the arc-shaped wire clamping plate 8 is released to clamp other wires.

The front center of the wiring disc 1 is rotationally connected with a rotating head 2, the side wall of the rotating head 2 is provided with a rotating arm 6 capable of rotating by 90 degrees, the side wall of the rotating arm 6 is provided with a slide way 14 along the length direction of the rotating arm 6, a slide plate 16 is slidably arranged on the slide way 14, the side wall of the slide plate 16 is provided with a pair of wire conveying wheels 19 with adjustable intervals, the side wall of the slide plate 16 is provided with a pair of rotating shafts 20, the pair of wire conveying wheels 19 are fixedly connected to the corresponding rotating shafts 20, the pair of rotating shafts 20 are fixedly connected with meshed gears 21, the slide plate 16 is provided with a motor 13 capable of driving one rotating shaft 20 to rotate, a sliding groove is arranged in the slide plate 16, a sliding block 17 is elastically connected to the sliding block 17 through a second spring 18, the bottom of the sliding groove is provided with a strip-shaped opening, the upper end of the other rotating shaft 20 penetrates through the strip-shaped opening and is rotationally connected to the sliding block 17, the meshing depth of a transmission tooth 22 between the pair of gears 21 is consistent with the sliding range of the sliding block 17, and when the meshed transmission tooth 22 is still in a meshed state when adapting to different thick wires, and the wire is not in a wire conveying state, the rotating arm 6 is in a vertical wiring 1 state, and wiring is not affected.

Further, the side wall threaded connection of slide 16 has bolt 15, and the terminal of bolt 15 is contradicted the inner wall of slide 14, and after slide 16 moved to relevant position, screw up bolt 15 and can fix its position, bolt 3 is installed at the top of rotating head 2, and the position department that corresponds line inlet 9 on the wiring board 1 is equipped with the slot 23 of adaptation bolt 3, pulls out bolt 3 and can rotate rotating head 2, and when rotating arm 6 rotated to corresponding line inlet 9, inserts bolt 3 in corresponding slot 23 and can fix the swinging arm 6 position.

The back fixedly connected with backward extension's multiunit mount 11 of wire drum 1, multiunit mount 11 and multiunit arc card line mouth 7 one-to-one, multiunit mount 11's both sides fixedly connected with a plurality of pairs of wire winding poles 12, longer electric wire is around establishing on a plurality of pairs of wire winding poles 12 after passing arc card line mouth 7, accomplishes the wiring process.

The invention also provides a use method of the intelligent building wiring device, which comprises the following specific steps:

s1, hoisting a wire distribution disc 1 through a hanger 4, wherein a plurality of groups of arc wire clamping ports 7 can correspond to equipment lines of different floors, a plurality of radial arc wire clamping ports 7 of each group are used for placing lines of different equipment of the same floor, and a plurality of arc wire clamping ports 7 with the lengths decreasing from outside to inside are used for placing a plurality of wires with corresponding thickness;

s2, feeding a plurality of wires with corresponding thickness into the corresponding arc wire clamping ports 7 through the wire inlet 9, rotating the rotating handle 10 after paying off of a plurality of groups of arc wire clamping ports 7 is completed, synchronously driving a plurality of threaded rods 27 to rotate through transmission of the transmission mechanism, driving the arc wire clamping plates 8 to move through the sliding seat 28 and the supporting rods 29, and simultaneously clamping a plurality of wires in a plurality of groups of arc wire clamping ports 7;

s3, after the longer wire passes through the arc wire clamping opening 7, the longer wire is wound on the plurality of pairs of winding rods 12, and the wiring process is completed;

s4, when one of the wires is required to be taken out, the corresponding arc-shaped wire clamping plate 8 is pressed under the action of the first spring 30, and the wire is taken out from the corresponding arc-shaped wire clamping opening 7;

s5, when one of the wires is required to be pulled from the tail end to the front end, the rotating arm 6 is only required to be rotated to the position corresponding to the wire inlet 9, the sliding plate 16 slides to the position corresponding to the arc wire clamping opening 7, the taken-out wire is placed between the pair of wire conveying wheels 19, and the motor 13 is started to drive the pair of wire conveying wheels 19 to rotate in opposite directions, so that the wire can be pulled.

Working principle: the wire distribution disc 1 is hoisted through the hanging frame 4, a plurality of groups of arc wire clamping openings 7 can correspond to equipment lines of different floors, a plurality of radial arc wire clamping openings 7 of each group are used for placing lines of different equipment of the same floor, a plurality of arc wire clamping openings 7 with the lengths reduced from outside to inside are used for placing a plurality of wires with corresponding thicknesses, namely, thick wires can be placed in the longer arc wire clamping openings 7 in a concentrated manner, and thinner wires are placed in the arc wire clamping openings 7 with the inner side short in a concentrated manner.

After paying off of the plurality of groups of arc wire clamping ports 7 is completed, the rotating handle 10 is rotated, the bevel gears 35 are driven to rotate through the bevel gear 34, the radial transmission shafts 25 and the second bevel gear pair 26 drive the radial transmission shafts 32 to rotate, the threaded rods 27 are finally synchronously driven to rotate, the arc wire clamping plates 8 are driven to move through the sliding seat 28 and the supporting rods 29, and meanwhile the plurality of wires in the plurality of groups of arc wire clamping ports 7 are clamped.

When one of the wires is required to be taken out, the corresponding arc-shaped wire clamping plate 8 is pressed under the action of the first spring 30, the wire is taken out from the corresponding arc-shaped wire clamping opening 7, the arc-shaped wire clamping plate 8 is released to clamp other wires, when the taken out wire is required to be pulled to the front end from the tail end, the rotating arm 6 is required to be rotated to the position corresponding to the wire inlet 9, the rotating arm 6 is rotated by 90 degrees again, the rotating arm 6 is enabled to be parallel to the wire inlet 9, the sliding plate 16 slides to the position corresponding to the arc-shaped wire clamping opening 7, the position of the sliding plate 16 is locked by the screw 15, the taken out wire is placed between the pair of wire conveying wheels 19, the wire is clamped under the action of the second spring 18, the motor 13 is started, and the pair of wire conveying wheels 19 are driven to rotate in opposite directions by the pair of gears 21, so that the wire can be pulled.

The foregoing description of the preferred embodiments of the invention is not intended to limit the invention to the precise form disclosed, and any such modifications, equivalents, and alternatives falling within the spirit and scope of the invention are intended to be included within the scope of the invention.

Claims (10)

1. The utility model provides an intelligent building wiring ware, includes wiring dish (1), its characterized in that, gallows (4) are installed at the top of wiring dish (1), and wire inlet (9) have radially been seted up to the circumference lateral wall of wiring dish (1), are equipped with multiunit and arc card line mouth (7) of wire inlet (9) intercommunication in the circumference of wiring dish (1), and radial a plurality of arc card line mouthful (7) reduce in proper order from outer to interior length, install radial movable's arc clamp plate (8) in arc card line mouth (7), the front center department rotation of wiring dish (1) is connected with rotating head (2), but rotating arm (6) of 90 rotation are installed to the lateral wall of rotating head (2), the lateral wall of rotating arm (6) is equipped with slide (14) along its length direction, slidable mounting has slide (16) on slide (14), the lateral wall of slide (16) installs a pair of interval adjustable wire conveying wheel (19), but the back fixedly connected with multiunit (11) of wire (11) that extend backward of wiring dish (1) and multiunit card line (7) are connected with multiunit wire (11) one-to-one side fixing frame (12).

2. The intelligent building wiring device according to claim 1, wherein an installation groove (33) is formed in the inner wall of the arc-shaped wire clamping opening (7), a threaded rod (27) which is radially arranged is rotationally connected to the installation groove (33), a sliding seat (28) is connected to the threaded rod (27) in a threaded manner, the arc-shaped wire clamping plate (8) is elastically installed on the sliding seat (28), and a transmission mechanism capable of driving a plurality of threaded rods (27) to synchronously rotate is installed on the wiring board (1).

3. An intelligent building wiring device according to claim 2, wherein the slide (28) is provided with a pair of grooves, a supporting rod (29) extending out of the grooves is elastically connected in the grooves through a first spring (30), and the extending end of the supporting rod (29) is fixedly connected with the arc-shaped wiring board (8).

4. The intelligent building wiring device according to claim 2, wherein the transmission mechanism comprises a plurality of radial circular cavities (24), the radial circular cavities (24) correspond to a group of arc-shaped wire clamping openings (7), radial transmission shafts (25) are rotatably connected between the radial circular cavities (24), tangential transmission shafts (32) are rotatably connected between the mounting grooves (33) and the corresponding circular cavities (24), the tangential transmission shafts (32) are in transmission connection with the corresponding threaded rods (27) through first bevel gear pairs (31), the tangential transmission shafts (32) are in transmission connection with the radial transmission shafts (25) through second bevel gear pairs (26), the center of the wiring board (1) is provided with a transmission cavity (5), and a plurality of radial transmission shafts (25) extend into the transmission cavity (5), and driving assemblies capable of synchronously driving the plurality of radial transmission shafts (25) to rotate are mounted in the transmission cavity (5).

5. An intelligent building wiring device according to claim 4, wherein the driving assembly comprises an inclined gear ring (34) rotatably connected in the transmission cavity (5), a bevel gear (35) meshed with the inclined gear ring (34) is fixed at the extending end of the radial transmission shaft (25), a rotating handle (10) is installed at the center of the back of the wiring board (1), and the axle center of the rotating handle (10) is fixedly connected with the inclined gear ring (34).

6. An intelligent building wiring device according to claim 1, wherein a pair of rotating shafts (20) are mounted on the side wall of the sliding plate (16), a pair of wire conveying wheels (19) are fixedly connected to the corresponding rotating shafts (20), meshed gears (21) are fixedly connected to the rotating shafts (20), and a motor (13) capable of driving one rotating shaft (20) to rotate is mounted on the sliding plate (16).

7. The intelligent building wiring device according to claim 6, wherein a sliding groove is formed in the sliding plate (16), a sliding block (17) is elastically connected in the sliding groove through a second spring (18), a strip-shaped opening is formed in the bottom of the sliding groove, the upper end of the other rotating shaft (20) penetrates through the strip-shaped opening and is rotatably connected to the sliding block (17), and the meshing depth of the transmission teeth (22) between the pair of gears (21) is consistent with the sliding range of the sliding block (17).

8. An intelligent building wiring device according to claim 1, wherein the side wall of the sliding plate (16) is in threaded connection with a bolt (15), and the tail end of the bolt (15) abuts against the inner wall of the slideway (14).

9. An intelligent building wiring device according to claim 1, characterized in that the top of the rotary head (2) is provided with a plug pin (3), and the position of the wiring board (1) corresponding to the wire inlet (9) is provided with a slot (23) for adapting the plug pin (3).

10. A method of using an intelligent building wiring device according to any one of claims 1 to 9, comprising the specific steps of:

s1, hoisting a wiring board (1) through a hanging bracket (4), wherein a plurality of groups of arc wire clamping openings (7) can correspond to equipment lines of different floors, the radial arc wire clamping openings (7) of each group are used for placing lines of different equipment of the same floor, and a plurality of arc wire clamping openings (7) with the lengths decreasing from outside to inside are used for placing a plurality of wires with corresponding thickness;

s2, feeding a plurality of wires with corresponding thickness into corresponding arc wire clamping ports (7) through wire inlet ports (9), rotating a rotating handle (10) after paying off of a plurality of groups of arc wire clamping ports (7) is completed, synchronously driving a plurality of threaded rods (27) to rotate through transmission of a transmission mechanism, driving an arc wire clamping plate (8) to move through a sliding seat (28) and a supporting rod (29), and clamping a plurality of wires in a plurality of groups of arc wire clamping ports (7);

s3, after the longer wire passes through the arc wire clamping opening (7), the longer wire is wound on a plurality of pairs of winding rods (12) to finish the wiring process;

s4, when one of the wires is required to be taken out, the corresponding arc-shaped wire clamping plate (8) is pressed under the action of the first spring (30), and the wire is taken out from the corresponding arc-shaped wire clamping opening (7);

s5, when one of the wires is required to be pulled from the tail end to the front end, the rotating arm (6) is only required to be rotated to the position corresponding to the wire inlet (9), the sliding plate (16) slides to the position corresponding to the arc wire clamping opening (7), the taken-out wire is placed between the pair of wire conveying wheels (19), and the motor (13) is started to drive the pair of wire conveying wheels (19) to rotate in opposite directions, so that the wire can be pulled.