CN113517660A - Computer network engineering wiring construction equipment - Google Patents

Abstract

The invention discloses a wiring construction device for computer network engineering, which comprises a longitudinal hack lever, a transverse slide rail longitudinal slide rail and a wire arranging device, wherein the longitudinal hack lever on the left side and the transverse hack lever on the right side and the transverse hack lever arranged on the upper side and the lower side form a splicing type wiring construction bracket, and the inner side plate surfaces of the left and right longitudinal hack levers are provided with horizontally corresponding longitudinal chutes, the left and right end heads of the transverse slide rail are embedded into the left and right longitudinal chutes to be connected in a sliding manner, the transverse slide rail is internally provided with a strip-shaped slide cavity which is communicated up and down, and the inner side plate surfaces of the transverse hack levers at the upper side and the lower side are provided with separating blocks, a transverse sliding rod is arranged between the separating blocks, the horizontal sliding rod is sleeved with a half-winding displacement device, the upper end and the lower end of the longitudinal sliding rail penetrate through the strip-shaped sliding cavity and are fixed with the half-winding displacement device above and below the longitudinal sliding rail, and the winding displacement device is sleeved on the outer side of the sliding rail at the intersection of the longitudinal sliding rail and the horizontal sliding rail.

Description

Computer network engineering wiring construction equipment

Technical Field

The invention relates to the technical field of wiring construction of network storage engineering, in particular to a wiring construction device for computer network engineering.

Background

The computer network engineering needs to use a winding displacement auxiliary support in the construction process for winding and unwinding the network cable. Wherein, in the network cable laying process, the cable twist knot often can appear, twist reverse irregular form such as, influence the signal transmission rate in the network cable, lead to the later stage cable construction completion after, network signal is more weak, and is unstable, influence daily online, demands such as official working, and at the laying process of network cable, the cable regularly receives the tractive, lead to the cable to receive the great tractive dynamics of ephemeral and intensity, make outside coating film of net twine cable and inside light all receive the stress and drag, lead to the toughness structure of coating film self to receive the damage, the life-span to light protection has been reduced, thereby cause the transmission of network signal to be stable inadequately.

Accordingly, one skilled in the art provides a wiring construction device for computer network engineering to solve the above problems in the background art.

Disclosure of Invention

In order to achieve the purpose, the invention provides the following technical scheme: a computer network engineering wiring construction device comprises longitudinal frame rods, transverse sliding rail longitudinal sliding rails and a wire arranging device, wherein the longitudinal frame rods on the left side and the right side and the transverse frame rods arranged on the upper side and the lower side form a splicing type wiring construction support, in addition, the inner side plate surfaces of the longitudinal frame rods on the left side and the right side are provided with horizontally corresponding longitudinal sliding grooves, the left end head and the right end head of each transverse sliding rail are embedded into the longitudinal sliding grooves on the left side and the right side to be in sliding connection, and strip-shaped sliding cavities which are communicated up and down are formed in the transverse sliding rails;

the upper side and the lower side of the transverse hack lever are provided with separating blocks on the inner side plate surface, transverse sliding rods are arranged between the separating blocks, a half-winding displacement device is sleeved on each transverse sliding rod, and the upper end and the lower end of each longitudinal sliding rail penetrate through a strip-shaped sliding cavity and are fixed with the half-winding displacement device above and below;

the wire arranging devices are sleeved outside the slide rails at the intersection of the longitudinal slide rails and the transverse slide rails, and damping chambers are arranged on the longitudinal slide rails among the plurality of groups of wire arranging devices.

According to a preferred technical scheme, the wire arranging device comprises a chamfer fixing plate, an L-shaped fixing frame, an I-shaped sliding sleeve and a wiring leading-out assembly, wherein the L-shaped fixing frame clamped on the outer side face of a sliding rail is arranged at four chamfers of the chamfer fixing plate, the I-shaped sliding sleeve is vertically fixed on a flat angle plate in the adjacent L-shaped fixing frame, and the I-shaped sliding sleeve is sleeved on the outer side face of the sliding rail;

wiring leading-out assemblies are arranged on the left side and the right side of the chamfering fixing plate, and a bearing column is arranged on the rear side face of the chamfering fixing plate;

and the upper side and the lower side of the I-shaped sliding sleeve are fixed with a guide sliding column close to the outer side flat plate surface, and the inner side of the guide sliding column is provided with a longitudinal damping spring.

As a preferred technical scheme of the invention, the wiring leading-out assembly comprises a fixed cylinder, a driving device, an anti-torsion assembly, a pressing assembly and a traction protection assembly, wherein the anti-torsion assembly is embedded in the left end and the right end of the fixed cylinder in bilateral symmetry, the driving device is sleeved on the right side of the anti-torsion assembly on the right side, and the pressing assembly is sleeved on the left side of the anti-torsion assembly on the left side;

the inner part of the fixed cylinder is fixed with a fixed plate frame, the surface of the fixed plate frame is provided with a traction protection assembly, and the central point of the fixed plate frame is used as a base point and is arranged in an upper group and a lower group in a centrosymmetric manner.

As a preferable technical scheme of the invention, the driving device comprises a driving shell, a main driving component and auxiliary walking components, wherein the main driving component is arranged at the position, close to the center, of the driving shell, and the auxiliary walking components are arranged on the left side and the right side of the main driving component.

As a preferred technical scheme, the auxiliary walking assembly comprises six groups of positioning rods, flexible rolling rings and arc-shaped shafts, the six groups of arc-shaped shafts are circumferentially arranged, the left end and the right end of each arc-shaped shaft are hinged with the positioning rods, the bottom ends of the positioning rods are hinged to arc-shaped block seats, and the flexible rolling rings are sleeved on the outer sides of the arc-shaped shafts.

As a preferred technical scheme of the invention, the main driving assembly comprises three groups of stretching machines, a clip frame and driving wheels, the stretching machines are arranged in a circumferential array, the clip frame is fixed at the output end of the stretching machines, transversely symmetrical rotating motors are arranged in square seats on the left side and the right side of the lower end of the clip frame, and the output end of the rotating motor is fixed with the axle center of the driving wheel.

According to a preferred technical scheme, the anti-twisting component comprises a fixed block, a twisting reset ring, a one-way adjusting rod and an auxiliary pressing rod, an anti-twisting cavity is formed in the axis of the inside of the fixed block, a four-pointed star torsion piece is arranged on the outer side of the anti-twisting cavity, the auxiliary pressing rod is hinged to the four-pointed star torsion piece, and the output end of the auxiliary pressing rod is hinged to an auxiliary guide wheel;

the anti-torsion chamber is internally provided with a torsion reset ring, and the left side and the right side of the torsion reset ring are hinged with a one-way adjusting rod.

As a preferred technical scheme of the invention, a hexagonal swivel is arranged in a channel at the inner side of the torsional reset ring, a free rolling ball is arranged between adjacent corners in the hexagonal swivel, the center of the free rolling ball is fixed and is of an in-situ free rotating structure,

as a preferred technical scheme of the invention, the traction protection assembly comprises a fixed clamping frame, a cylindrical shell, a transverse compression bar, an auxiliary roller and a fixed roller, wherein the cylindrical shell is embedded in the fixed clamping frame, two groups of transverse sliding column blocks are arranged in the cylindrical shell, the transverse sliding column blocks are mutually attached, the right side surface of the transverse sliding column block on the right side is connected with the bottom surface of the right side of the cylindrical shell through a first buffer spring, the left side surface of the transverse sliding column block on the left side is connected with the right end surface of the transverse compression bar through a second buffer spring, and the transverse compression bar is embedded in the cylindrical shell and is in sliding connection;

the left end of the transverse pressing rod is hinged to an auxiliary roller and located on an interlayer slideway plate arranged on the outer side of the transverse pressing rod, a buffering cotton pad is installed at the left end and the right end of the interlayer slideway plate, and a fixed roller is arranged at the right end of the cylindrical shell.

As a preferred technical scheme of the invention, the pressing assembly comprises a fixed shell, four groups of tensioning springs, an L-shaped sliding frame and pressing plates, wherein the left end of the fixed shell is provided with the longitudinal tensioning springs, the four groups of tensioning springs are arranged in a circumferential manner, the inner side ends of the tensioning springs are connected with the L-shaped sliding frame, the lower end plate surface of the L-shaped sliding frame is vertically fixed with a miniature sliding column, the outer side of the miniature sliding column is sleeved with the pressing plate, the right end of the pressing plate is hinged to the inner side plate surface of the fixed shell, and the edge plate surface adjacent to the adjacent pressing plate is fixed with the pressing wheel.

Compared with the prior art, the invention provides a computer network engineering wiring construction device, which has the following beneficial effects:

1. the wiring construction device is of a splicing structure, and can be correspondingly spliced according to the quantity and types of cables required on site, so that the flexibility of the device is improved, the phenomenon that the wiring device for guiding the cables is arranged in disorder due to large occupied area of the support and large placement quantity when the support is too large is avoided, and the cables are pulled suddenly in the wiring process to generate strong pulling force on the wiring support and improve the stability of the wiring support by setting the wire arranging device for guiding the cables to be capable of elastically moving in a small range.

2. According to the invention, in the paying-off process of the cable leading-out assembly through wiring, the cable is driven and guided sequentially through the driving device, the anti-torsion assembly, the traction protection assembly, the anti-torsion assembly and the pressing assembly, and particularly, two groups of auxiliary walking assemblies are arranged in the driving device, so that the cable is more stable and smooth in the driving process, the anti-torsion assembly can ensure that the cable is not easy to twist, and the stable transmission of network signals in the later period is ensured.

Drawings

FIG. 1 is a schematic view of a wiring construction bracket according to the present invention;

FIG. 2 is an enlarged view of a portion of the flat cable device according to the present invention;

FIG. 3 is an enlarged view of the right side view of the wire arranging device of the present invention;

FIG. 4 is an enlarged schematic view of a right-view partial structure of the wiring lead-out assembly of the present invention;

FIG. 5 is an enlarged schematic view of the right view structure of the auxiliary walking assembly of the present invention;

FIG. 6 is an enlarged view of the right side of the main driving assembly of the present invention;

fig. 7 is an enlarged view of the right side of the torsional return ring of the present invention;

FIG. 8 is an enlarged schematic view of the right side view of the wiring extraction assembly of the present invention;

in the figure: 1. a longitudinal frame bar; 2. a transverse frame bar; 3. a transverse slide rail; 4. a longitudinal slide rail; 5. a wire arranging device; 51. chamfering the fixed plate; 52. an L-shaped fixing frame; 53. an I-shaped sliding sleeve; 54. a damping spring; 55. a guide strut; 56. a load bearing column; 6. a wiring lead-out assembly; 61. a fixed cylinder; 62. a drive device; 63. a torsion prevention assembly; 64. fixing the plate frame; 65. a compression assembly; 66. pulling the protective component; 621. a main drive assembly; 622. an auxiliary walking component; 623. positioning a rod; 624. a flexible rolling ring; 625. an arc-shaped shaft; 626. a compressor; 627. a shape-returning frame; 628. a drive wheel; 629. a rotating electric machine; 631. a fixed block; 632. a torsion return ring; 633. a unidirectional adjusting rod; 634. an auxiliary hold down bar; 635. a free rolling ball; 636. a hexagonal swivel; 661. fixing the clamping frame; 662. a cylindrical shell; 663. a transverse compression bar; 664. an auxiliary roller; 665. fixing the roller; 666. a first buffer spring; 667. a second buffer spring; 651. a stationary case; 652. tensioning the spring; 653. an L-shaped carriage; 654. and a pressing plate.

Detailed Description

Referring to fig. 1, the present invention provides a technical solution: a computer network engineering wiring construction device comprises a longitudinal hack lever 1, a transverse hack lever 2, a transverse slide rail 3, a longitudinal slide rail 4 and a wire arranging device 5, wherein the longitudinal hack lever 1 on the left side and the right side and the transverse hack lever 2 arranged on the upper side and the lower side form a splicing type wiring construction support, horizontal corresponding longitudinal slide grooves are formed in the inner side plate surfaces of the longitudinal hack lever 1 on the left side and the right side, the left end and the right end of the transverse slide rail 3 are embedded into the left longitudinal slide groove and the right longitudinal slide groove to be connected in a sliding manner, and a strip-shaped slide cavity which is penetrated up and down is formed in the transverse slide rail 3;

the inner side plate surfaces of the transverse frame rods 2 at the upper side and the lower side are provided with separating blocks, transverse sliding rods are arranged between the separating blocks, a half-winding displacement device is sleeved on each transverse sliding rod, and the upper end and the lower end of each longitudinal sliding rail 4 penetrate through a strip-shaped sliding cavity to be fixed with the half-winding displacement device at the upper side and the lower side;

the wire arranging devices 5 are sleeved outside the slide rails at the intersections of the longitudinal slide rails 4 and the transverse slide rails 3, and damping chambers are arranged on the longitudinal slide rails 4 among the plurality of groups of wire arranging devices 5;

as the best embodiment, according to the cable quantity, the difference of kind, can be nimble install vertical hack lever additional, horizontal hack lever, horizontal slide rail, vertical slide rail, winding displacement device, and the outside is square structure, winding displacement device is square array form, make the construction of wiring, the installation, operation flow such as quality control, succinctly clear, wiring efficiency improves by a wide margin, wherein, horizontal slide rail receives the tractive of external force, can vertical elastic buffer reset, thereby when reinforcing wiring construction support stability, through its small deformation, for certain "toughness" of cable relative replenishment, reduce the pulling force that cable self received, the protection intensity to the cable has been improved.

Referring to fig. 2, in this embodiment, the wire arranging device 5 includes a chamfer fixing plate 51, an L-shaped fixing frame 52, an i-shaped sliding sleeve 53 and a wire leading-out assembly 6, the L-shaped fixing frames 52 clamped on the outer side surface of the slide rail are respectively arranged at four chamfers of the chamfer fixing plate 51, the i-shaped sliding sleeve 53 is vertically fixed to a flat angle plate in the adjacent L-shaped fixing frame 52, and the i-shaped sliding sleeve 53 is sleeved on the outer side surface of the slide rail;

wiring leading-out assemblies 6 are arranged on the left side and the right side of the chamfering fixing plate 51, and a bearing column 56 is arranged on the rear side face of the chamfering fixing plate 51;

and the upper and lower side of the I-shaped sliding sleeve 53 is fixed with a guide sliding column 55 near the outer side flat plate surface, the inner side of the guide sliding column 55 is provided with a longitudinal damping spring 54, wherein, the left and right sides of the panel in the damping chamber corresponding to the guide sliding column are provided with longitudinal sliding grooves, and the middle part of the damping chamber is also provided with a transverse separation fixing plate which separates the damping chamber into an upper and a lower independent chambers so as to facilitate the independent adjustment of the wire arranging device without mutual interference.

Referring to fig. 3, in this embodiment, the wiring leading-out assembly 6 includes a fixed cylinder 61, a driving device 62, an anti-twisting assembly 63, a pressing assembly 65 and a pulling protection assembly 66, the anti-twisting assembly 63 is embedded in the left and right ends of the fixed cylinder 61, the driving device 62 is sleeved on the right side of the anti-twisting assembly 63 on the right side, and the pressing assembly 65 is sleeved on the left side of the anti-twisting assembly 63 on the left side;

the inside fixed grillage 64 that is fixed with of solid fixed cylinder 61, be equipped with tractive protection component 66 on the solid fixed grillage 64 face, and use solid fixed grillage 64 central point is the datum point, is that centrosymmetric sets up upper and lower two sets of, and wherein, the bar mouth has been seted up to solid fixed cylinder outside cambered surface to the cable winding is on the tractive protection component.

Referring to fig. 4, in this embodiment, the driving device 62 includes a driving housing, a main driving component 621 and an auxiliary driving component 622, the driving housing is provided with the main driving component 621 near the center, the left and right sides of the main driving component 621 are provided with the auxiliary driving component 622, the left and right sides of the main driving component are provided with the auxiliary driving component, and the cable is prevented from directly entering the main driving component for driving and guiding, so that the cable on the bearing column can enter the main driving component in a horizontal manner under the auxiliary guiding of the auxiliary driving component on the right side of the cable, and then is guided out from the auxiliary driving component on the left side of the cable, the cable in the main driving component is ensured to be in a horizontal state, the cable is prevented from entering the driving component in an inclined state, and under long-term action, the driving component is stressed, and the service life of the component is shortened.

Referring to fig. 5, in this embodiment, the auxiliary walking assembly 622 includes positioning rods 623, flexible rolling rings 624 and arc-shaped shafts 625, six sets of the arc-shaped shafts 625 are circumferentially arranged, the left and right ends of the arc-shaped shafts 625 are both hinged with the positioning rods 623, the bottom ends of the positioning rods 623 are hinged to the arc-shaped block seats, and the flexible rolling rings 624 are sleeved outside the arc-shaped shafts 625;

as the best embodiment, the outer side surface of the flexible rolling ring can be provided with a contact surface sensor, the positioning rod is provided with a control sensor, the positioning rod is controlled by the control sensor to drive the flexible rolling ring to press the outer side surface of the cable, and the contact surface sensor feeds back signals, so that the clinging degree of the flexible rolling ring and the outer side surface of the cable is improved.

Referring to fig. 6, in this embodiment, the main driving assembly 621 includes three sets of the stretch-shrink machines 626, the rectangular racks 627 and the driving wheels 628, the stretch-shrink machines 626 are circumferentially arranged in three sets, the rectangular racks 627 are fixed at the output end of the stretch-shrink machines 626, the rotating motors 629 are transversely symmetrical and arranged in the square seats at the left and right sides of the lower end of the rectangular racks 627, and the output end of the rotating motor 629 is fixed with the axis of the driving wheels 628;

as a best embodiment, the ring surface of the outer side wheel of the driving wheel is provided with a groove cambered surface and is covered with a friction pad with certain friction force.

In this embodiment, the anti-torsion assembly 63 includes a fixed block 631, a torsion reset ring 632, a one-way adjusting rod 633 and an auxiliary pressing rod 634, an anti-torsion chamber is disposed at an axis inside the fixed block 631, a four-pointed star torque member is disposed at an outer side of the anti-torsion chamber, the four-pointed star torque member is hinged to the auxiliary pressing rod 634, and an output end of the auxiliary pressing rod 634 is hinged to an auxiliary guide wheel;

prevent that it twists reverse ring 632 to turn round inside being equipped with of cavity, it is connected with one-way regulation pole 633 to twist reverse ring 632 left and right sides is articulated, and wherein, the supplementary torsion piece can drive auxiliary compression bar 634 and produce the torsion that presses the cable lateral surface, and when the cable removed the unwrapping wire towards the left, the one-way regulation pole in right side need break away from the cable surface, and as best embodiment, the direction of rotation of the one-way regulation pole in left side does, and the one-way rotation is received to cable left unwrapping wire unidirectional rotation along the line, and the one-way rotation is received to right side one-way regulation pole's direction along the line.

Referring to fig. 7, in this embodiment, a hexagonal swivel 636 is disposed in an inner channel of the torsion return ring 632, a free rolling ball 635 is disposed between adjacent corners of the hexagonal swivel 636, the center of the free rolling ball 635 is fixed, and is a free-rotation structure in situ, a micro anti-torsion bump is further disposed on an inner side wall of the hexagonal swivel, and slides with the cable when the cable advances or retreats, and when the cable is twisted, friction is generated on a surface of the cable to drive the hexagonal swivel to rotate, and the free rolling ball separates the cable from the micro anti-torsion bump, as a preferred embodiment, a torsion spring is disposed on a cross section of the hexagonal swivel to push the cable to be twisted to return, so as to protect the cable from being twisted, avoid affecting refraction of optical fiber signals inside the cable, and reduce rate and strength of signal transmission,

referring to fig. 8, in this embodiment, the pulling protection assembly 66 includes a fixing clamp frame 661, a cylindrical shell 662, a transverse pressure rod 663, an auxiliary roller 664 and a fixing roller 665, the cylindrical shell 662 is embedded in the fixing clamp frame 661, two sets of transverse sliding column blocks are arranged in the cylindrical shell 662, the transverse sliding column blocks are attached to each other, the right side surface of the transverse sliding column block is connected with the right bottom surface of the cylindrical shell 662 through a first buffer spring 666, the left side surface of the transverse sliding column block is connected with the right end surface of the transverse pressure rod 663 through a second buffer spring 667, and the transverse pressure rod 663 is embedded in the cylindrical shell 662 in a sliding connection;

the left end of the transverse pressure rod 663 is hinged with an auxiliary roller 664, an interlayer slideway plate is arranged on the outer side of the transverse pressure rod 663, a buffering cotton pad is arranged at the left end and the right end of the interlayer slideway plate, and a fixed roller 665 is arranged at the right end of the cylindrical shell 662;

it should be noted that the outer arc edge ends of the auxiliary rollers and the fixed rollers in one group of traction protection assemblies need to be positioned on the same horizontal plane, and the inner arc edge ends of the auxiliary rollers in the two groups of traction protection assemblies need to be positioned on the same horizontal plane, so that the pressure and the tension on the auxiliary rollers are regular, the stress is uniform, and the auxiliary rollers can transversely move more smoothly and stably;

as the best embodiment, the cable is led out through the right anti-twisting component, bypasses the outer side of the right lower side fixed roller, goes to the outer side of the left lower side auxiliary roller, goes to the outer side of the right upper side auxiliary roller, goes to the outer side of the left upper side fixed roller, enters the left anti-twisting component, is led into the pressing component, and then is led out.

In this embodiment, the pressing assembly 65 includes a fixed shell 651, four sets of tensioning springs 652, an L-shaped carriage 653 and a pressing plate 654, the left end of the fixed shell 651 is provided with the longitudinal tensioning springs 652, the tensioning springs 652 are arranged in a circumferential array, the inner end of the tensioning springs 652 is connected to the L-shaped carriage 653, a micro slide column is vertically fixed on the lower end plate surface of the L-shaped carriage 653, the pressing plate 654 is sleeved on the outer side of the micro slide column, the right end of the pressing plate 654 is hinged to the inner side plate surface of the fixed shell 651, and a pressing wheel is fixed on the edge plate surface adjacent to the pressing plate 654.

In the specific implementation, according to the number of network cables, the number of longitudinal frame rods, transverse slide rails and longitudinal slide rails is increased in a proper amount, the assembly is carried out by combining a wire arranging device, the network cables with different types and numbers are sleeved on a bearing column, the cables penetrate into a driving device, sequentially enter a right anti-twisting component, bypass a lower side traction protection component and an upper side traction protection component, then enter a left anti-twisting component, penetrate out of a pressing component, and are subsequently wound and unwound by matching with the driving device, wherein in the process of paying off the cables, a left one-way adjusting rod is tightly attached to the cables, the right one-way adjusting rod is tilted and separated from the surfaces of the cables, the steps of a wire winding process are opposite, in the process of wiring construction, if the cables are subjected to stronger and short pulling force, the cables in the traction protection component press upper auxiliary idler wheels and the lower auxiliary idler wheels, the cable pressing device is pressed to the transverse pressing rod, so that the length of the cable is rapidly supplemented, and the elastic action of the first buffer spring and the second buffer spring is matched, so that the pulling force applied to the cable is offset, and the cable is prevented from being broken due to the pulling force.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can substitute or change the technical solution of the present invention and the inventive concept within the technical scope of the present invention, and the technical solution and the inventive concept thereof should be covered by the scope of the present invention.

Claims (10)

1. The utility model provides a computer network engineering construction equipment that lays wire, its includes vertical hack lever (1), horizontal hack lever (2), horizontal slide rail (3) vertical slide rail (4) and winding displacement device (5), its characterized in that: the left and right longitudinal frame rods (1) and the transverse frame rods (2) arranged at the upper and lower sides form a spliced wiring construction support, horizontal corresponding longitudinal sliding grooves are formed in the inner side plate surfaces of the left and right longitudinal frame rods (1), the left and right end heads of the transverse sliding rail (3) are embedded into the left and right longitudinal sliding grooves to be connected in a sliding mode, and a strip-shaped sliding cavity which is communicated up and down is formed in the transverse sliding rail (3);

the upper side and the lower side of the inner side plate surface of the transverse frame rod (2) are provided with separating blocks, transverse sliding rods are arranged between the separating blocks, a half-winding displacement device is sleeved on each transverse sliding rod, and the upper end and the lower end of each longitudinal sliding rail (4) penetrate through a strip-shaped sliding cavity to be fixed with the half-winding displacement device above and below;

the wire arranging devices (5) are sleeved outside the slide rails at the intersection of the longitudinal slide rails (4) and the transverse slide rails (3), and damping chambers are arranged on the longitudinal slide rails (4) among the plurality of groups of wire arranging devices (5).

2. The computer network engineering wiring construction device of claim 1, wherein: the wire arranging device (5) comprises a chamfer fixing plate (51), an L-shaped fixing frame (52), an I-shaped sliding sleeve (53) and a wiring leading-out assembly (6), the L-shaped fixing frame (52) clamped on the outer side surface of the sliding rail is arranged at four chamfers of the chamfer fixing plate (51), the I-shaped sliding sleeve (53) is vertically fixed on a flat angle plate in the adjacent L-shaped fixing frame (52), and the I-shaped sliding sleeve (53) is sleeved on the outer side surface of the sliding rail;

wiring leading-out assemblies (6) are arranged on the left side and the right side of the chamfering fixing plate (51), and a bearing column (56) is arranged on the rear side face of the chamfering fixing plate (51);

and a guide sliding column (55) is fixed on the flat plate surface close to the outer side of the I-shaped sliding sleeve (53) on the upper side and the lower side, and a longitudinal damping spring (54) is arranged on the inner side of the guide sliding column (55).

3. The computer network engineering wiring construction device of claim 2, wherein: the wiring leading-out assembly (6) comprises a fixed cylinder (61), a driving device (62), an anti-torsion assembly (63), a pressing assembly (65) and a traction protection assembly (66), wherein the anti-torsion assembly (63) which is bilaterally symmetrical is embedded into the left end and the right end of the fixed cylinder (61), the driving device (62) is sleeved on the right side of the anti-torsion assembly (63) on the right side, and the pressing assembly (65) is sleeved on the left side of the anti-torsion assembly (63) on the left side;

fixed cylinder (61) inside is fixed with fixed grillage (64), be equipped with tractive protection component (66) on fixed grillage (64) face, and with fixed grillage (64) central point is the basic point, is that centrosymmetry sets up upper and lower two sets of.

4. The computer network engineering wiring construction device of claim 3, wherein: drive arrangement (62) are including drive shell, main drive assembly (621) and assist walking subassembly (622), the drive shell is equipped with main drive assembly (621) by center department, the side is equipped with about main drive assembly (621) and assists walking subassembly (622).

5. The computer network engineering wiring construction device of claim 4, wherein: assist walking subassembly (622) and include locating lever (623), flexible rolling ring (624) and arc axle (625), arc axle (625) are the circumference and arrange and set up six groups, arc axle (625) left and right ends all articulates and is connected with locating lever (623), locating lever (623) bottom is articulated to be connected on arc block seat, flexible rolling ring (624) cover is in the arc axle (625) outside.

6. The computer network engineering wiring construction device of claim 4, wherein: the main driving assembly (621) comprises a telescopic machine (626), a clip-shaped frame (627) and a driving wheel (628), the telescopic machine (626) is three groups arranged in a circumferential array mode, the clip-shaped frame (627) is fixed to the output end of the telescopic machine (626), transversely symmetrical rotating motors (629) are arranged in square seats on the left side and the right side of the lower end of the clip-shaped frame (627), and the output end of each rotating motor (629) is fixed to the axis of the driving wheel (628).

7. The computer network engineering wiring construction device of claim 3, wherein: the anti-torsion assembly (63) comprises a fixed block (631), a torsion reset ring (632), a one-way adjusting rod (633) and an auxiliary pressing rod (634), an anti-torsion chamber is formed in the axis of the inside of the fixed block (631), a four-pointed star torsion piece is arranged on the outer side of the anti-torsion chamber, the auxiliary pressing rod (634) is hinged to the four-pointed star torsion piece, and the output end of the auxiliary pressing rod (634) is hinged to an auxiliary guide wheel;

prevent that to twist that the chamber is inside to be equipped with twists reverse reset ring (632), it is connected with one-way regulation pole (633) to twist reverse reset ring (632) left and right sides articulated.

8. The computer network engineering wiring construction device of claim 7, wherein: a hexagonal rotating ring (636) is arranged in a channel on the inner side of the torsion reset ring (632), a free rolling ball (635) is arranged between adjacent corners in the hexagonal rotating ring (636), and the center of the free rolling ball (635) is fixed and is of an in-situ free rotating structure.

9. The computer network engineering wiring construction device of claim 3, wherein: the traction protection assembly (66) comprises a fixed clamping frame (661), a cylindrical shell (662), a transverse pressure rod (663), auxiliary rollers (664) and fixed rollers (665), wherein the cylindrical shell (662) is embedded into the fixed clamping frame (661), two groups of transverse sliding column blocks are arranged inside the cylindrical shell (662), the transverse sliding column blocks are mutually attached, the right side of each transverse sliding column block is connected with the right bottom surface of the cylindrical shell (662) through a first buffer spring (666), the left side of each transverse sliding column block is connected with the right end surface of the transverse pressure rod (663) through a second buffer spring (667), and the transverse pressure rod (663) is embedded into the cylindrical shell (662) in a sliding connection manner;

the left end of the transverse pressing rod (663) is hinged with an auxiliary roller (664), an interlayer slideway plate is arranged on the outer side of the transverse pressing rod (663), a buffering cotton pad is installed at the left end and the right end of the interlayer slideway plate, and a fixed roller (665) is arranged at the right end of the cylindrical shell (662).

10. The computer network engineering wiring construction device of claim 3, wherein: the pressing assembly (65) comprises a fixed shell (651), four groups of tensioning springs (652), L-shaped sliding frames (653) and pressing plates (654), wherein the fixed shell (651) is provided with the longitudinal tensioning springs (652) close to the left end, the tensioning springs (652) are arranged in a circumferential manner, the inner side ends of the tensioning springs (652) are connected with the L-shaped sliding frames (653), the lower end plate surface of the L-shaped sliding frames (653) is vertically fixed with miniature sliding columns, the pressing plates (654) are sleeved outside the miniature sliding columns, the pressing plates (654) are hinged and connected to the inner side plate surface of the fixed shell (651) close to the right end, and the pressing wheels are fixed on the edge plate surfaces close to the pressing plates (654).

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