CN111086927B

CN111086927B - Computer network wiring and embedding device

Info

Publication number: CN111086927B
Application number: CN201911315263.0A
Authority: CN
Inventors: 徐义晗; 顾军林
Original assignee: Huaian Vocational College of Information Technology
Current assignee: Jiangsu Vocational College of Electronics and Information
Priority date: 2019-12-18
Filing date: 2019-12-18
Publication date: 2021-07-30
Anticipated expiration: 2039-12-18
Also published as: CN111086927A

Abstract

The invention discloses a computer network wiring and embedding device, which comprises a case, a guide limiting rod, a wire distributing seat and a wiring bin, wherein a plurality of circuit boards are distributed in the case, a plurality of optical cables electrically connected to the circuit boards are bound on the guide limiting rod by a binding tape and then extend into the wiring bin through the wire distributing seat, a wire collecting hopper is embedded in the side wall of the wiring bin and used for receiving the optical cables passing through the wire distributing seat, a surplus wire receiving assembly and a locking assembly are further arranged in the wiring bin, the surplus wire receiving assembly can receive overlong parts of the optical cables in a winding mode, the locking assembly comprises a driving wheel, a driven wheel, a flexible connecting belt and a wire body clamping assembly, a plurality of groups of wire body clamping assemblies are connected into an annular belt by the flexible connecting belt, the annular belt is sleeved on the driving wheel and the driven wheel, the optical cables pass through the surplus wire receiving assembly and then extend out of the wiring bin to be dispersed to the wire body after passing through two groups of correspondingly placed wire body clamping assemblies in the surplus wire body receiving assembly In each respective circuitry.

Description

Computer network wiring and embedding device

Technical Field

The invention relates to the technical field of computer network wiring, in particular to a computer network wiring and burying device.

Background

In the life and production process of human beings, a computer is inevitably used, can perform numerical calculation and logic calculation and has the function of storage and memory, so that the computer can be applied to various industries, and along with the development of science and technology, the computer has gone into thousands of households and various factories.

At present, the dependence degree of a home on a computer network wiring and embedding device is small, optical cables or other connecting wires can be distributed on a computer or a related circuit board in a large-scale factory or a research institute, if the computer or the related circuit board is not distributed and stored by related devices, subsequent maintenance or related work can be influenced, the existing computer network wiring and embedding device can mostly not store and distribute multiple groups of optical cables, and certain difficulty also exists in later-stage wiring adjustment.

Accordingly, one skilled in the art provides a computer network wiring and burying device to solve the problems set forth in the background above.

Disclosure of Invention

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a computer network wiring device of sunkening cord, includes quick-witted case, direction gag lever post, branch seat and wiring storehouse, cloth has a plurality of circuit boards in the machine case, and many optical cable that electric even on a plurality of circuit boards adopt the ribbon to tie up on the direction gag lever post, later pass the branch seat and stretch into in the wiring storehouse, it has the receipts fill to imbed on the lateral wall in wiring storehouse for receive the optical cable that passes in the branch seat, still be provided with excess line storage assembly and locking Assembly in the wiring storehouse, wherein excess line storage assembly can accomodate the part of overlength in the optical cable with the mode of winding, locking Assembly includes action wheel, follower, flexible connection area and line body clamping assembly, and multiunit line body clamping assembly adopts flexible connection area to connect into endless belt, endless belt cover is established on action wheel and follower, optical cable passes behind the excess line storage assembly and stretches out the wiring storehouse and disperses to each corresponding two sets of line body clamping assembly who places in the locking Assembly after passing, and each corresponding wiring storehouse of wiring to each corresponding In the circuit system of (1).

Further, as an optimization, the optical cable in the chassis is divided into three strands, each strand of optical cable passes through the wire distributing base and enters the corresponding wire collecting hopper, and each wire collecting hopper corresponds to one surplus wire containing assembly.

Further, as preferred, surplus line storage assembly includes the carousel, compresses tightly piece and guide, wherein the carousel adopts the pivot to rotate and sets up on the supporting disk, the supporting disk is fixed on the base, the base level is fixed on the lateral wall in wiring storehouse, still be fixed with the bracing piece rather than perpendicular setting on the base, the other end of bracing piece articulates there is the arm that compresses tightly, the middle section that compresses tightly the arm adopts the spring to link to each other with the middle section of bracing piece to make the one end that compresses tightly the arm and keep away from the bracing piece hug closely mutually with the carousel, the one end that compresses tightly the arm and keep away from the bracing piece is fixed with and compresses tightly the pad, one side that the carousel was kept away from to the bracing piece still is provided with the guide.

Further, as preferred, the guide part is including extending seat, guide holder, leading wheel and receipts line hole, wherein, extend the end that the seat is fixed in the bracing piece and keep away from one side of carousel, threaded connection has the screw rod in extending the seat, the screw rod slides and passes the guide holder, and rotates at its tip and be connected with the leading wheel, the lower extreme that extends the seat on the bracing piece is fixed to the guide holder, the position department that is close to the leading wheel on the bracing piece still is provided with receipts line hole for accomodate the optical cable that comes from receiving in the line fill.

Further, as preferred, the wire distributing seat comprises a wire distributing seat main body, wire passing holes and abutting protrusions, the wire distributing seat main body is provided with a plurality of wire passing holes along the length direction of the wire distributing seat main body in an array mode, each wire passing hole is internally provided with an optical cable in a penetrating mode, and the wire passing holes are symmetrically provided with two semicircular abutting protrusions.

Further, preferably, an opening of the take-up hopper close to one side of the case is larger than an opening of the take-up hopper close to the other side of the case, and a cotton pad is attached to the inner wall of the take-up hopper.

Further, as a preferred option, the wire clamping assembly includes an elastic sleeve, a connecting cylinder seat, a first sealing seat and a second sealing seat, wherein the elastic sleeve is sleeved outside the optical cable, the outer circumferences of the two ends of the elastic sleeve are respectively sleeved with the first sealing seat and the second sealing seat, the outer circumferences of the first sealing seat and the second sealing seat support and fix the connecting cylinder seat together, the connecting cylinder seat is in a convex shape, and the convex parts of the connecting cylinder seat are symmetrically connected with flexible connecting belts.

Further, as preferred, the one end that sealed seat one was kept away from to sealed seat two is provided with supports the seat, support to lean on the seat cover to establish at the outer circumference of elastic sleeve and embedded in the interior circumference of connecting the barrel holder, it still is provided with clamp sleeve two to support to lean on between seat and the elastic sleeve, clamp sleeve two extends along the axial direction of elastic sleeve and stretches out support to lean on the seat, the one end that sealed seat two was kept away from to sealed seat one is fixed with the end headstock, still be provided with clamp sleeve one between end headstock and the elastic sleeve, clamp sleeve one extends along the axial direction of elastic sleeve and stretches out the end headstock, the one end symmetry threaded connection that connects the barrel holder and lean on near-end headstock has two sets of regulation poles, it can slide the butt with clamp sleeve in the through-hole that the end headstock was seted up to adjust the pole.

Further, as preferred, be provided with the feed liquor pipe on the connecting cylinder seat, seal receptacle one and seal receptacle two constitute sealed cavity jointly, and are filled with insulating liquid to the cavity through the feed liquor pipe.

Further, as preferred, action wheel and follower all adopt the pivot to rotate the setting in the wiring storehouse, and the pivot in the action wheel extends along its axial direction and stretches out the wiring storehouse, and be fixed with the hand wheel at its end that stretches out to adopt the hand wheel drive action wheel to rotate, thereby drive the endless belt and rotate, realize that two line body clamping component dislocation are taut, the hand wheel can cooperate with outside retaining member.

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

1. the device adopts the wire distributing seat and the wire collecting hopper to realize the preliminary arrangement of the optical cables, wherein two semicircular abutting bulges are symmetrically arranged in the wire passing hole of the wire distributing seat so as to reduce the abrasion of the wire passing hole on the optical cables when the optical cables are bent, and the opening of the wire collecting hopper close to one side of the case is larger than the opening of the other side of the case, so that the scattering range of each optical cable is reduced, and the transition is provided for the subsequent storage;

2. in the device, a plurality of optical cables electrically connected with a plurality of circuit boards are bound on a guide limiting rod by a binding belt, then the optical cables penetrate through a wire distributing seat and extend into a wire collecting hopper in a wire distributing bin, and redundant parts are wound on a turntable through a guide wheel and a wire collecting hole;

3. the device is provided with the excess cable receiving assembly for receiving the optical cable from the take-up hopper, and then the excess optical cable receives the excess part on the turntable in a winding mode, so that the accommodating space is reduced;

4. at the wiring and burying line initial stage, the hand wheel is rotated with clockwise and anticlockwise rotation in turn to the mode, thereby drive the annular belt and remove, and then shake the optical cable among the line body clamping components, make it more neat, no fold, resume hand wheel to initial condition afterwards, six groups line body clamping components of the left and right sides are horizontal symmetry and place promptly this moment, adjust the regulation pole among the left three groups line body clamping components this moment, make it tightly support and lean on the outer circumference of clamping sleeve one, rotate the hand wheel slightly, and adopt the position of the fixed hand wheel of outside retaining member, realize the dislocation taut.

Drawings

FIG. 1 is a schematic structural diagram of a computer network wiring and burying device;

FIG. 2 is a schematic view of a wire receiving assembly of a computer network wire laying and burying device;

fig. 3 is an enlarged schematic view of a portion a of fig. 1.

Fig. 4 is a schematic diagram of a wire distributing base structure in a computer network wiring and burying device.

In the figure: 1. a chassis; 2. guiding a limiting rod; 3. a wire distributing base; 31. a wire distributing base main body; 32. a wire passing hole; 33. an abutting projection; 4. a wiring bin; 5. a wire collecting hopper; 6. a surplus line receiving assembly; 7. a driving wheel; 8. a driven wheel; 9. a flexible connecting band; 10. a wire body clamping assembly; 101. an elastic sleeve; 102. connecting the cylinder seat; 103. insulating liquid; 104. adjusting a rod; 105. an end head seat; 106. a first clamping sleeve; 107. a first sealing seat; 108. a liquid inlet pipe; 109. a second sealing seat; 110. a second clamping sleeve; 111. a leaning seat; 11. a base; 12. a support bar; 13. a support disc; 14. a turntable; 15. a compression pad; 16. a pressing arm; 17. an extension base; 18. a guide seat; 19. a guide wheel; 20. a wire collecting hole.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example (b): referring to fig. 1-4, the present invention provides a technical solution: a computer network wiring and embedding device comprises a case 1, a guide limiting rod 2, a wire distributing seat 3 and a wiring bin 4, wherein a plurality of circuit boards are distributed in the case 1, a plurality of optical cables electrically connected with the circuit boards are bound on the guide limiting rod 2 by a binding tape, and then the optical cables penetrate through the wire distributing seat 3 and stretch into the wiring bin 4, a wire collecting hopper 5 is embedded in the side wall of the wiring bin 4 and used for receiving the optical cables penetrating through the wire distributing seat 3, a surplus wire collecting component 6 and a locking component are further arranged in the wiring bin 4, wherein the surplus wire collecting component 6 can collect overlong parts in the optical cables in a winding mode, the locking component comprises a driving wheel 7, a driven wheel 8, a flexible connecting belt 9 and a wire body clamping component, the multiple sets of wire body clamping components are connected by the flexible connecting belt 9 to form an annular belt, the annular belt is sleeved on the driving wheel 7 and the driven wheel 8, the optical cable passes through the surplus cable accommodating assembly 6, then passes through two groups of correspondingly placed cable body clamping assemblies in the locking assembly, then extends out of the wiring bin 4 and is dispersed into each corresponding circuit system.

In this embodiment, the optical cable in the chassis 1 is divided into three strands, each strand of optical cable passes through the wire distributing base 3 and enters the corresponding wire collecting hopper 5, each wire collecting hopper 5 corresponds to one excess wire accommodating component 6, and each strand of optical cable extending from the excess wire accommodating component 6 penetrates through two groups of wire clamping components arranged in parallel.

In a preferred embodiment, the waste wire receiving assembly 6 comprises a turntable 14, a pressing member and a guide member, wherein, the rotating disc 14 is rotationally arranged on a supporting disc 13 by adopting a rotating shaft, the supporting disc 13 is fixed on the base 11, the base 11 is horizontally fixed on the side wall of the wiring bin 4, the support rod 12 which is vertical to the base 11 is also fixed on the base 11, the other end of the supporting rod 12 is hinged with a pressing arm 16, the middle section of the pressing arm 16 is connected with the middle section of the supporting rod 12 by a spring, so that the end of the pressing arm 16 far away from the supporting rod 12 is tightly attached to the turntable 14, the end of the pressing arm 16 far away from the supporting rod 12 is fixed with a pressing pad 15, the width of the pressing pad 15 is consistent with the axial length of the turntable 14, so as to press all the optical cables on the turntable 14 and to prevent them from loosening, and a guide is provided on the side of the support rod 12 remote from the turntable 14.

In this embodiment, the guide member includes an extension seat 17, a guide seat 18, a guide wheel 19 and a wire-rewinding hole 20, wherein, the extension seat 17 is fixed on one side of the end part of the support rod 12 far away from the turntable 14, a screw rod is connected with the extension seat 17 through threads, the screw rod penetrates through the guide seat 18 in a sliding mode, and a guide wheel 19 is rotatably connected to an end portion thereof, the guide seat 18 is fixed to a lower end of the extension seat 17 on the support bar 12, a screw is rotated, so as to adjust the sinking depth of the guide wheel 19, it should be noted that, the number of turns is an integer, meanwhile, in order to facilitate the rotation of the screw, the top of the wiring bin 4 is also provided with a bin door, the supporting rod 12 is also provided with a wire collecting hole 20 at the position close to the guide wheel 19, for receiving the optical cable from the take-up hopper 5, after which the optical cable receives the excess portion in a winding manner on the turntable 14.

As shown in fig. 4, the wire distributing base 3 includes a wire distributing base main body 31, a plurality of wire passing holes 32 and abutting protrusions 33, the wire distributing base main body 31 is provided with the plurality of wire passing holes 32 arrayed along the length direction thereof, each wire passing hole 32 is penetrated by one optical cable, and two semicircular abutting protrusions 33 are symmetrically arranged in the wire passing holes 32 so as to reduce the abrasion of the wire passing holes to the optical cable.

In this embodiment, the opening of the take-up hopper 5 close to one side of the chassis 1 is larger than the opening of the other side thereof, so as to reduce the scattering range of each optical cable and provide transition for the subsequent storage, and a cotton pad is attached to the inner wall of the take-up hopper 5.

In this embodiment, the wire clamping assembly includes an elastic sleeve 101, a connecting cylinder base 102, a first sealing base 107 and a second sealing base 109, wherein the elastic sleeve 101 is sleeved outside the optical cable, the outer circumferences of the two ends of the elastic sleeve 101 are respectively sleeved with the first sealing base 107 and the second sealing base 109, the outer circumferences of the first sealing base 107 and the second sealing base 109 support and fix the connecting cylinder base 102 together, the connecting cylinder base 102 is in a convex shape, and the convex parts of the connecting cylinder base 102 are symmetrically connected with flexible connecting bands 9.

Furthermore, one end of the second sealing seat 109, which is far away from the first sealing seat 107, is provided with an abutting seat 111, the abutting seat 111 is sleeved on the outer circumference of the elastic sleeve 101 and embedded in the inner circumference of the connecting cylinder seat 102, a second clamping sleeve 110 is further arranged between the abutting seat 111 and the elastic sleeve 101, the second clamping sleeve 110 extends out of the abutting seat 111 along the axial direction of the elastic sleeve 101, the end of the first sealing seat 107 far away from the second sealing seat 109 is fixed with a tip seat 105, a first clamping sleeve 106 is further arranged between the end head seat 105 and the elastic sleeve 101, the first clamping sleeve 106 extends out of the end head seat 105 along the axial direction of the elastic sleeve 101, the first clamping sleeve and the second clamping sleeve can further provide protection for the optical cable, two groups of adjusting rods 104 are symmetrically and threadedly connected to one end of the connecting cylinder seat 102 close to the end head seat 105, the adjusting rod 104 can extend into a through hole formed in the end socket base 105 in a sliding manner to abut against the first clamping sleeve 106.

In this embodiment, the connecting cylinder base 102 is provided with a liquid inlet pipe 108, the connecting cylinder base 102, the first sealing base 107 and the second sealing base 109 together form a sealed cavity, and the cavity is filled with an insulating liquid 103 through the liquid inlet pipe 108, and further, the connecting cylinder base 102 is made of a metal material.

In this embodiment, the driving wheel 7 and the driven wheel 8 are both rotatably disposed in the wiring bin 4 by using a rotating shaft, the rotating shaft in the driving wheel 7 extends along the axial direction to extend out of the wiring bin 4, and a hand wheel (not shown in the figure) is fixed at the extending end of the rotating shaft so as to drive the driving wheel 7 to rotate by using the hand wheel, so that the annular belt is driven to rotate, the dislocation tensioning of the two line clamping assemblies is realized, and the hand wheel can be matched with an external locking part.

In the specific implementation, a plurality of optical cables electrically connected with a plurality of circuit boards are bound on the guide limiting rod 2 by a binding belt, then the optical cables penetrate through the wire distributing base 3 and extend into the wire collecting hopper 5 in the wire distributing bin 4, then the optical cables pass through the guide wheel 19 and the wire collecting hole 20, and redundant parts are wound on the turntable 14, it needs to be noted that the optical cables can be wound according to the actual situation, namely the winding number of the optical cables is possibly different, then the optical cables extend out of the turntable, penetrate through two groups of line body clamping components correspondingly arranged in the locking component and then extend out of the wire distributing bin 4 to be dispersed into each corresponding circuit system, reasonable wire distributing and burying are realized, in addition, in the initial stage of wire distributing and burying, the hand wheel is rotated alternately clockwise and anticlockwise to drive the annular belt to move, so that the optical cables in the line body clamping components are shaken, the optical cables are more tidy and free of wrinkles, and then the hand wheel is recovered to the initial state, namely, the six groups of line body clamping assemblies on the left side and the right side are horizontally and symmetrically arranged, the adjusting rod 104 in the three groups of line body clamping assemblies on the left side is adjusted at the moment, so that the adjusting rod tightly abuts against the outer circumference of the first clamping sleeve 106, the hand wheel is slightly rotated, the position of the hand wheel is fixed by adopting an external locking piece, and the dislocation tensioning is realized.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. A computer network wiring and wire embedding device comprises a case (1), a guide limiting rod (2), a wire distributing base (3) and a wire distributing bin (4), wherein a plurality of circuit boards are distributed in the case (1), a plurality of optical cables electrically connected with the circuit boards are tied up on the guide limiting rod (2) by adopting a binding tape, and then the optical cables penetrate through the wire distributing base (3) and extend into the wire distributing bin (4), the computer network wiring and wire embedding device is characterized in that a wire collecting hopper (5) is embedded in the side wall of the wire distributing bin (4) and used for receiving the optical cables penetrating through the wire distributing base (3), a surplus wire collecting component (6) and a locking component are further arranged in the wire distributing bin (4), wherein the surplus wire collecting component (6) can collect parts in the optical cables in a winding mode, the locking component comprises an overlong driving wheel (7), a driven wheel (8), a flexible connecting belt (9) and a wire clamping component, the multiple groups of line body clamping assemblies are connected into an annular belt by adopting a flexible connecting belt (9), the annular belt is sleeved on the driving wheel (7) and the driven wheel (8), and the optical cable passes through the surplus line accommodating assembly (6), passes through the two groups of line body clamping assemblies correspondingly placed in the locking assembly and then extends out of the wiring bin (4) to be dispersed into each corresponding circuit system.

2. The computer network wiring and cabling device according to claim 1, wherein the optical cable in the case (1) is divided into three strands, each strand passes through the wire distributing base (3) and enters the corresponding wire receiving hopper (5), and each wire receiving hopper (5) corresponds to one of the surplus wire receiving assemblies (6).

3. The computer network wiring and embedding device according to claim 1, wherein the surplus wire accommodating assembly (6) comprises a rotary table (14), a pressing member and a guiding member, wherein the rotary table (14) is rotatably disposed on a supporting plate (13) by a rotary shaft, the supporting plate (13) is fixed on a base (11), the base (11) is horizontally fixed on a side wall of the wiring bin (4), a supporting rod (12) vertically disposed on the base (11) is further fixed, the other end of the supporting rod (12) is hinged with a pressing arm (16), the middle section of the pressing arm (16) is connected with the middle section of the supporting rod (12) by a spring, so that one end of the pressing arm (16) far away from the supporting rod (12) is tightly attached to the rotary table (14), and one end of the pressing arm (16) far away from the supporting rod (12) is fixed with a pressing pad (15), and a guide piece is further arranged on one side of the support rod (12) far away from the turntable (14).

4. A computer network wiring and wire burying device according to claim 3, wherein said guiding member comprises an extension seat (17), a guiding seat (18), a guiding wheel (19) and a wire receiving hole (20), wherein said extension seat (17) is fixed on one side of the end of the supporting rod (12) far from the turntable (14), a screw rod is screwed in said extension seat (17), said screw rod slides through the guiding seat (18) and is rotatably connected with the guiding wheel (19) at its end, said guiding seat (18) is fixed on the lower end of the extension seat (17) on the supporting rod (12), said supporting rod (12) is further provided with a wire receiving hole (20) at a position close to the guiding wheel (19) for receiving the optical cable from the wire receiving hopper (5).

5. The computer network wiring and embedding device according to claim 1, wherein the wire distributing base (3) comprises a wire distributing base main body (31), a plurality of wire passing holes (32) and abutting protrusions (33), the wire distributing base main body (31) is provided with the plurality of wire passing holes (32) in an array along the length direction of the wire distributing base main body, each wire passing hole (32) is penetrated by one optical cable, and the wire passing holes (32) are symmetrically provided with two semicircular abutting protrusions (33).

6. The computer network wiring and wire burying device according to claim 1, wherein an opening of the wire collecting hopper (5) close to one side of the case (1) is larger than an opening of the other side of the case, and a cotton pad is attached to an inner wall of the wire collecting hopper (5).

7. The computer network wiring and embedding device according to claim 1, wherein the wire clamping assembly comprises an elastic sleeve (101), a connecting cylinder seat (102), a first seal seat (107) and a second seal seat (109), wherein the elastic sleeve (101) is sleeved outside the optical cable, the first seal seat (107) and the second seal seat (109) are respectively sleeved on outer circumferences of two ends of the elastic sleeve (101), the connecting cylinder seat (102) is jointly supported and fixed by outer circumferences of the first seal seat (107) and the second seal seat (109), the connecting cylinder seat (102) is in a convex shape, and a convex part of the connecting cylinder seat is symmetrically connected with the flexible connecting band (9).

8. The computer network wiring and wire burying device according to claim 7, wherein an abutting seat (111) is provided at an end of the second sealing seat (109) far from the first sealing seat (107), the abutting seat (111) is sleeved on an outer circumference of the elastic sleeve (101) and embedded in an inner circumference of the connecting cylinder seat (102), a second clamping sleeve (110) is further provided between the abutting seat (111) and the elastic sleeve (101), the second clamping sleeve (110) extends out of the abutting seat (111) along an axial direction of the elastic sleeve (101), an end seat (105) is fixed at an end of the first sealing seat (107) far from the second sealing seat (109), a first clamping sleeve (106) is further provided between the end seat (105) and the elastic sleeve (101), and the first clamping sleeve (106) extends out of the end seat (105) along the axial direction of the elastic sleeve (101), one end of the connecting cylinder seat (102) close to the end head seat (105) is symmetrically connected with two groups of adjusting rods (104) in a threaded manner, and the adjusting rods (104) can extend into through holes formed in the end head seat (105) in a sliding manner and are abutted to the first clamping sleeve (106).

9. The computer network wiring and embedding device according to claim 8, wherein the connecting cylinder base (102) is provided with a liquid inlet pipe (108), the connecting cylinder base (102), the first sealing base (107) and the second sealing base (109) together form a sealed cavity, and the cavity is filled with the insulating liquid (103) through the liquid inlet pipe (108).

10. The computer network wiring and embedding device according to claim 1, wherein the driving wheel (7) and the driven wheel (8) are rotatably disposed in the wiring bin (4) by using a rotating shaft, the rotating shaft in the driving wheel (7) extends out of the wiring bin (4) along an axial direction thereof, and a hand wheel is fixed at an extended end thereof so as to drive the driving wheel (7) to rotate by using the hand wheel, thereby driving the endless belt to rotate, realizing the misplaced tensioning of the two wire clamping assemblies, and the hand wheel can be matched with an external locking member.