CN114498432A

CN114498432A - Network engineering is with wiring frame of categorised reason line

Info

Publication number: CN114498432A
Application number: CN202210153997.9A
Authority: CN
Inventors: 吴国爱
Original assignee: Individual
Current assignee: Guangdong Yundu Information Technology Co ltd
Priority date: 2022-02-20
Filing date: 2022-02-20
Publication date: 2022-05-13
Anticipated expiration: 2042-02-20
Also published as: CN114498432B

Abstract

The invention discloses a wiring rack for sorting and arranging wires for network engineering, which relates to the field of network engineering and comprises a base and a locking mechanism, wherein hooks are fixedly arranged on the end surfaces of two sides of the base, a wire bundling plate is slidably arranged on the top of a guide pillar, and the wire bundling plate is elastically connected with the base through a bottom pressure spring. The problem of current wiring frame unable adjust when using is solved, thereby make it can only manage the line to the cable of the same kind thickness, can not be applicable to the cable of different thicknesses, greatly reduced the practicality of reason line frame, simultaneously to the inconvenient fixed of thicker cable, make the cable loose easily, influence the technical problem of whole result of use, a network engineering is with categorised wiring frame of managing the line, can be applicable to the categorised reason line of the cable of different thickness specifications, can manage the line by one set of wiring frame simultaneously with the cable of different specifications and accomodate, effectively avoid the loose problem of cable of current wiring frame simultaneously, prevent that the cable from appearing the winding and knoing.

Description

Network engineering is with wiring frame of categorised reason line

Technical Field

The invention relates to the field of network engineering, in particular to a wiring rack for sorting and arranging wires for network engineering.

Background

The wiring frame acts on the wire binding and wire outgoing of the network engineering, and because the related circuits are more, the mode of directly leading out wires from the side edge of the box body of the line concentration box is adopted at first, and then the circuits are led to the wiring module in the middle of the box body, and the wiring mode is relatively fixed.

The wire arranging frame for the existing network engineering comprehensive wiring has the following common problems: present wiring frame is mostly fixed, can't adjust it during the use to make a reason line frame can only manage the line to the cable of the thickness of the same kind, can not be applicable to the cable of different thicknesses, greatly reduced reason line frame's practicality, inconvenient fixed to thicker cable simultaneously, make the cable loose easily, influence whole result of use.

Disclosure of Invention

The invention aims to provide a wiring rack for sorting and arranging wires for network engineering, which aims to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a wiring frame of network engineering with categorised reason line, includes base and locking mechanism, base both sides terminal surface fixed mounting has the couple, and base top both sides fixed mounting has the guide pillar, guide pillar top slidable mounting has the bunch board, and the bottom of the guide pillar suit has a bottom pressure spring, the bunch board passes through bottom pressure spring and base elastic connection, and bunch board front fan-shaped distribution has the guide slot, bunch board bilateral symmetry fixed mounting has the boss, locking mechanism installs in bunch board both sides symmetrically, locking mechanism includes rotatory round pin, calorie roller and toggle, rotatory round pin front inside rotates installs the calorie roller, and the card roller agrees with the base through the couple and is connected, card roller middle part runs through and is provided with the toggle.

Furthermore, locking mechanism still includes frame, slide and pull rod, toggle both sides top cover is equipped with the frame, and the frame rotates through the toggle and installs in the clamping roller top, the inside slidable mounting of frame has the slide, and slide top fixedly connected with pull rod.

Furthermore, the locking mechanism further comprises a hanging frame and a sleeve spring, the pull rod penetrates through one end of the top of the frame and is fixedly connected with the hanging frame, the size of an inner cavity of the hanging frame is matched with the appearance of the boss, the sleeve spring is sleeved in the middle of the pull rod, and the pull rod is elastically connected with the end face of the top of the frame through the sleeve spring.

Further, base top left side is provided with big footpath reason line mechanism, big footpath reason line mechanism includes the backplate, indulges rail, collet, traveller and first spring, the backplate middle part vertically is provided with indulges the rail, and indulges rail bottom terminal surface fixed mounting has the collet, collet top fixedly connected with traveller, and the outside cover of traveller is equipped with first spring.

Further, big footpath reason line mechanism still includes top slider and frid, the positive slidable mounting of vertical rail has a top slider, and top slider middle part fixed mounting has the frid, traveller slidable mounting is inside the frid, and the frid passes through first spring and collet elastic connection.

Furthermore, the large-diameter wire arranging mechanism further comprises a V-shaped handle, a bottom sliding block, a transverse rail and a large-diameter clamping sleeve, the V-shaped handle is symmetrically and rotatably installed on two sides of the top sliding block, the bottom of the V-shaped handle is connected with the bottom sliding block, the top sliding block is in rotary transmission connection with the bottom sliding block through the V-shaped handle, the transverse rail is arranged on the back face of the bottom sliding block, the transverse rail is transversely arranged at the bottom of the back plate, and the large-diameter clamping sleeve is fixedly connected to the inner side of the front face of the bottom sliding block.

Furthermore, a wiring board is fixedly mounted on the right side of the top of the base, wire outlet grooves are formed in the top of the wiring board at equal intervals, a sheath is arranged inside the wire outlet grooves, notches are symmetrically formed in the middle of the sheath, and the sheath is installed inside the wire outlet grooves in a fit mode through the notches.

Further, the sheath top is provided with path reason line mechanism, path reason line mechanism includes path ring cover, locked groove, mounting groove, end extension spring and interior ring roller, the locked groove has been seted up at path ring cover left side top, and path ring cover right side openly has seted up the mounting groove, mounting groove right side bottom is connected with end extension spring, and end extension spring left side elastic connection has the interior ring roller.

Further, path reason line mechanism still includes shifting block, trapezoidal piece and roof pressure spring, the positive right side fixed mounting of inner ring roller has the shifting block, and shifting block slidable mounting is inside the mounting groove, inner ring roller left side top is provided with the trapezoidal piece, and trapezoidal piece bottom elastic connection has a top pressure spring, the trapezoidal piece appearance is seted up the size with the locked groove and is agreed with mutually.

Further, line ball mechanism is installed to base right side terminal surface, line ball mechanism includes stand, diaphragm, tiger mouth groove, top extension spring, clamp plate and handle, stand top left side fixedly connected with diaphragm, and diaphragm middle part bilateral symmetry has seted up tiger mouth groove, diaphragm bottom both sides are connected with a extension spring, and top extension spring bottom elastic connection has the clamp plate, clamp plate length is unanimous with the wiring board, and clamp plate top middle-end fixed mounting has the handle.

Compared with the prior art, the invention has the beneficial effects that: the problem of current wiring frame be mostly fixed is solved, can't adjust it during the use, thereby make a reason line frame can only manage the line to the cable of the thickness of the same kind, can not be applicable to the cable of different thicknesses, greatly reduced reason line frame's practicality, it is inconvenient fixed to thicker cable simultaneously, make the cable loose easily, influence the technical problem of whole result of use, a wiring frame of classification reason line for network engineering is provided, can be applicable to the categorised reason line of cable of different thickness specifications, can manage the line by one set of wiring frame simultaneously and accomodate the cable of different specifications, effectively avoid the loose problem of cable of current wiring frame simultaneously, prevent that the cable from appearing the winding and knoing.

1. According to the invention, through the arrangement of the locking mechanism, the hanging frame is positioned and hung on the bosses at two sides of the wire bundling plate, the clamping roller is held by hands to enable the clamping roller to be positioned at the bottom of the rotating pin to rotate and to be clamped on the hooks at two sides of the base, the sliding plate at the bottom of the pull rod is positioned in the frame to be lifted, the sleeve spring is pressed by the end surface at the top of the frame to store energy, and through the arrangement of the toggle joint, the locking mechanism frame and the clamping roller are overlapped and positioned on the same vertical line in a tensioning state, so that the wire bundling plate and the base are firmly locked and pressed, the vibration and slippage of the wire bundling plate are effectively avoided, and the applicability is stronger.

2. The invention relates to a large-diameter wire arranging mechanism, which is characterized in that a large-diameter wire arranging mechanism is arranged, so that the problem that the existing wire arranging frame cannot be compatible with cables of different specifications is solved, a user presses a top sliding block on the left side of the front surface of a base to enable the top sliding block to slide downwards along a longitudinal rail in the middle of a back plate, a sliding column is arranged in a groove plate to slide and simultaneously compress a first spring, a bottom sliding block is arranged on a transverse rail to slide backwards through a V-shaped handle in the sliding stroke of the top sliding block, a large-diameter clamping sleeve is opened, the user places the large-diameter cables in the large-diameter clamping sleeve to relieve the pressure on the top sliding block, the bottom sliding blocks on the two sides are quickly closed under the elastic resetting force of the first spring, the large-diameter clamping sleeve finishes clamping the cables, and the wire arranging frame can be compatible with the storage of the large-diameter cables and can be automatically adaptively adjusted according to the diameters of the different cables.

3. According to the invention, through the arrangement of the small-diameter wire arrangement mechanism, cables of common specifications are fitted and installed in the wire outlet groove on the wiring board through the middle notch of the sheath, the sheath is arranged to avoid abrasion and convenient disassembly and assembly during wire outlet of the cables, a user holds the shifting block to enable the shifting block to be located in the installation groove to push anticlockwise, so that the inner ring roller overcomes the elasticity of the bottom tension spring and is located in the small-diameter ring sleeve to slide, the output end of the inner ring roller is elastically connected with the trapezoid block through the jacking spring, the inclined surface of the trapezoid block contracts when being located at the left opening end of the small-diameter ring sleeve, the trapezoid block automatically bounces to realize self-locking when moving to the locking groove, through the arrangement of the small-diameter wire arrangement mechanism, the size of the cables of common specifications can be finely adjusted to ensure the installation of the sheath, and the breakage prevention and protection of the cables at the wire outlet groove are facilitated.

4. According to the invention, through the arrangement of the wire pressing mechanism, when a user needs to move the wiring frame, in order to prevent the cable in the wiring board from vibrating and slipping in the wire outlet groove, when the user applies the wiring board to perform conventional cable arrangement, the palm is attached to the transverse plate, the tiger mouth is attached to the tiger mouth groove in the middle of the transverse plate, the handle is hooked and pulled by fingers, so that the pressing plate is separated from the pressing of the wiring board and overcomes the elastic force of the top tension spring to be pulled up, after the conventional cable arrangement of the wiring board is completed, the handle is loosened to enable the pressing plate to be folded again with the wiring board under the elastic force of the top tension spring, the sheath in the wire outlet groove is pressed, and the phenomenon that the cable in the wiring board vibrates and slips in the wire outlet groove in the moving process and further the cable is wound is effectively avoided.

5. According to the wiring rack, the wiring board is arranged, the cable is led out from the wire outlet groove, so that a user can conveniently bind and arrange the cable head, the wiring board is positioned on the top of the base through the guide pillar and slides and descends, the cable head is folded through the matching of the guide groove in the fan-shaped distribution in the middle of the wiring board and the cable head, the user can conveniently bind the wiring group through devices such as the binding clamp, and the distribution of the wiring rack cable is tidy.

Drawings

Fig. 1 is a schematic overall front view of a wiring rack for sorting and arranging wires for network engineering according to the present invention;

FIG. 2 is a schematic diagram of a front view of a wire harness board of the wire distribution frame for sorting and arranging wires for network engineering according to the present invention;

FIG. 3 is a schematic view of a front view of a locking mechanism of a wire distribution rack for sorting and arranging wires for network engineering according to the present invention;

FIG. 4 is a schematic top view of a large-diameter wire arrangement mechanism of a wire arrangement rack for classification wire arrangement in network engineering according to the present invention;

FIG. 5 is a schematic top view of the inner structure of the sheath of the wire distribution frame for sorting and arranging wires for network engineering according to the present invention;

FIG. 6 is an enlarged schematic view of the A-position of the wiring rack for sorting and routing wires for network engineering in accordance with the present invention;

fig. 7 is a schematic front view of a wire pressing mechanism of a wire distribution rack for sorting and arranging wires for network engineering according to the present invention.

In the figure: 1. a base; 2. hooking; 3. a guide post; 4. a wire bundling plate; 5. a bottom pressure spring; 6. a guide groove; 7. a boss; 8. a locking mechanism; 801. a rotation pin; 802. clamping the roller; 803. a toggle joint; 804. a frame; 805. a slide plate; 806. a pull rod; 807. hanging a frame; 808. a spring sleeve; 9. a large-diameter wire arranging mechanism; 901. a back plate; 902. a longitudinal rail; 903. a bottom support; 904. a traveler; 905. a first spring; 906. a top slide block; 907. a groove plate; 908. a V-shaped handle; 909. a bottom slider; 910. a transverse rail; 911. a large-diameter clamping sleeve; 10. a wiring board; 11. an outlet groove; 12. a sheath; 13. a recess; 14. a small-diameter wire sorting mechanism; 1401. a small-diameter ring sleeve; 1402. locking the groove; 1403. mounting grooves; 1404. a bottom tension spring; 1405. an inner ring roller; 1406. shifting blocks; 1407. a trapezoidal block; 1408. pushing a pressure spring; 15. a wire pressing mechanism; 1501. a column; 1502. a transverse plate; 1503. a slot with a tiger mouth; 1504. a top tension spring; 1505. pressing a plate; 1506. a handle.

Detailed Description

Referring to fig. 1-2, the present invention provides a technical solution: a wiring rack for sorting and arranging wires for network engineering comprises a base 1 and a locking mechanism 8, wherein hooks 2 are fixedly mounted on end faces of two sides of the base 1, guide pillars 3 are fixedly mounted on two sides of the top of the base 1, a wire bundling plate 4 is slidably mounted on the top of the guide pillars 3, a bottom pressure spring 5 is sleeved on the bottom of each guide pillar 3, the wire bundling plate 4 is elastically connected with the base 1 through the bottom pressure spring 5, guide grooves 6 are distributed in the front face of the wire bundling plate 4 in a fan-shaped mode, and bosses 7 are symmetrically and fixedly mounted on two sides of the wire bundling plate 4;

the cable outgoing device has the advantages that cables are led out in the wire outgoing grooves 11, so that binding and sorting of cable ends are facilitated for users, the cable binding plate 4 is located at the top of the base 1 through the guide pillars 3 and slides to descend through the arrangement of the cable binding plate 4, the cable ends of the cables are folded through the matching of the guide grooves 6 distributed in the fan-shaped mode in the middle of the cable binding plate 4 and the cable ends of the cables, binding of a cable group is facilitated for users through devices such as binding clamps, and the distribution of the cables of the wiring frame is neat;

referring to fig. 3, the locking mechanisms 8 are symmetrically installed at both sides of the wire harness board 4, the locking mechanisms 8 include a rotation pin 801, a clamping roller 802 and a toggle 803, the clamping roller 802 is rotatably installed inside the front surface of the rotation pin 801, the card roller 802 is matched and connected with the base 1 through the hook 2, the middle part of the card roller 802 is provided with a toggle joint 803 in a penetrating way, the locking mechanism 8 also comprises a frame 804, a sliding plate 805 and a pull rod 806, the top parts of two sides of the toggle joint 803 are sleeved with the frame 804, and the frame 804 is rotatably mounted on top of the chuck roller 802 by a toggle joint 803, a sliding plate 805 is slidably mounted inside the frame 804, and the top of the sliding plate 805 is fixedly connected with a pull rod 806, the locking mechanism 8 further comprises a hanging frame 807 and a sleeve spring 808, one end of the pull rod 806 penetrating through the top of the frame 804 is fixedly connected with the hanging frame 807, the size of the inner cavity of the hanging frame 807 is matched with the shape of the boss 7, a sleeve spring 808 is sleeved in the middle of the pull rod 806, and the pull rod 806 is elastically connected with the end face of the top of the frame 804 through the sleeve spring 808;

the operation is as follows, the hanging frame 807 is positioned and hung on the bosses 7 at two sides of the wire bundling plate 4, the clamping roller 802 is held by hands to enable the clamping roller to be positioned at the bottom of the rotating pin 801 to rotate, and the clamping roller is clamped on the hooks 2 at two sides of the base 1, the sliding plate 805 at the bottom of the pull rod 806 is positioned in the frame 804 to be lifted, the sleeve spring 808 is pressed by the end surface at the top of the frame 804 to enable the sleeve spring to store energy, and through the arrangement of the toggle 803, the frame 804 of the locking mechanism 8 and the clamping roller 802 are overlapped and positioned on the same vertical line in a tensioning state, so that the wire bundling plate 4 and the base 1 are firmly locked and pressed, and the vibration slippage of the wire head in the wire bundling plate 4 is effectively avoided;

referring to fig. 4, a large-diameter wire tidying mechanism 9 is arranged on the left side of the top of a base 1, the large-diameter wire tidying mechanism 9 includes a back plate 901, longitudinal rails 902, a bottom support 903, sliding columns 904 and first springs 905, the longitudinal rails 902 are longitudinally arranged in the middle of the back plate 901, the bottom end faces of the longitudinal rails 902 are fixedly provided with the bottom support 903, the top of the bottom support 903 is fixedly connected with the sliding columns 904, the first springs 905 are sleeved outside the sliding columns 904, the large-diameter wire tidying mechanism 9 further includes a top sliding block 906 and a groove plate 907, the top sliding block 906 is slidably arranged on the front surface of the longitudinal rails 902, the groove plate 907 is fixedly arranged in the middle of the top sliding block 906, the sliding columns 904 are slidably arranged inside the groove plate 907, the groove plate 907 is elastically connected with the bottom support 903 through the first springs 905, the large-diameter wire tidying mechanism 9 further includes V-shaped handles 908, bottom sliding block clamping sleeves 909, transverse rails 910 and large-diameter 911, the V-shaped handles 908 are symmetrically and rotatably arranged on both sides of the top sliding block 906, and the bottom of the V-shaped handles is connected with the bottom sliding blocks 909, the top slider 906 is in rotary transmission connection with a bottom slider 909 through a V-shaped handle 908, a transverse rail 910 is arranged on the back surface of the bottom slider 909, the transverse rail 910 is transversely arranged at the bottom of the back plate 901, and a large-diameter clamping sleeve 911 is fixedly connected to the inner side of the front surface of the bottom slider 909;

specifically, a user presses the top slider 906 in the middle of the back plate 901 on the left side of the front surface of the base 1 to enable the top slider 906 to be positioned on the front surface of the longitudinal rail 902 to slide downwards, so that the sliding column 904 is positioned in the groove plate 907 to slide and simultaneously compress the first spring 905, the bottom slider 909 is positioned on the transverse rail 910 to slide backwards through the V-shaped handle 908 in the sliding process of the top slider 906, the large-diameter clamp sleeve 911 is opened, the user places a large-diameter cable in the large-diameter clamp sleeve 911, the pressing on the top slider 906 is released, the bottom sliders 909 on the two sides are quickly folded under the elastic reset force of the first spring 905, and the large-diameter clamp sleeve 911 finishes clamping the large-diameter cable;

referring to fig. 5-6, a wiring board 10 is fixedly mounted on the right side of the top of a base 1, wire outgoing grooves 11 are formed in the top of the wiring board 10 at equal intervals, a sheath 12 is disposed inside the wire outgoing grooves 11, notches 13 are symmetrically formed in the middle of the sheath 12, the sheath 12 is fitted inside the wire outgoing grooves 11 through the notches 13, a small-diameter wire arranging mechanism 14 is disposed on the top of the sheath 12, the small-diameter wire arranging mechanism 14 includes a small-diameter ring sleeve 1401, a locking groove 1402, a mounting groove 1403, a bottom tension spring 1404 and an inner ring roller 1405, the locking groove 1402 is formed in the top of the left side of the small-diameter ring sleeve 1401, the mounting groove 1403 is formed in the front of the right side of the small-diameter ring sleeve 1401, the bottom tension spring 1404 is connected to the bottom of the mounting groove 1403, the inner ring roller 1405 is elastically connected to the left side of the bottom tension spring 1404, the small-diameter wire arranging mechanism 14 further includes a dial 1406, a ladder 1407 and a top pressure spring 1408, a dial 1406 is fixedly mounted on the front of the right side of the inner ring roller 1405, and the dial 1406 is slidably mounted inside the mounting groove 1403, a trapezoidal block 1407 is arranged at the top of the left side of the inner ring roller 1405, a jacking spring 1408 is elastically connected to the bottom of the trapezoidal block 1407, and the shape of the trapezoidal block 1407 is matched with the size of the lock slot 1402;

the operation is as follows, the cable of the common specification is fitted and mounted in the outlet slot 11 on the wiring board 10 through the middle notch 13 of the sheath 12, the arrangement of the sheath 12 avoids the abrasion of the cable during outlet, and is also convenient for dismounting, the user holds the shifting block 1406 to make it locate in the mounting groove 1403 and push it anticlockwise, so that the inner ring roller 1405 overcomes the elasticity of the bottom tension spring 1404 and locates in the small diameter ring sleeve 1401 to slide, the output end of the inner ring roller 1405 via the trapezoidal block 1407 elastically connected with the top tension spring 1408, the inclined plane of the trapezoidal block 1407 will shrink when locating in the left opening end of the small diameter ring sleeve 1401, and the trapezoidal block 1407 automatically bounces up when moving to the locking slot 1402 to realize self-locking;

referring to fig. 7, a wire pressing mechanism 15 is mounted on the right end face of the base 1, the wire pressing mechanism 15 includes a vertical column 1501, a horizontal plate 1502, a tiger-mouth groove 1503, a top tension spring 1504, a pressing plate 1505 and a handle 1506, the horizontal plate 1502 is fixedly connected to the left side of the top of the vertical column 1501, the tiger-mouth groove 1503 is symmetrically formed in the middle of the horizontal plate 1502, the top tension spring 1504 is connected to two sides of the bottom of the horizontal plate 1502, the pressing plate 1505 is elastically connected to the bottom of the top tension spring 1504, the length of the pressing plate 1505 is the same as that of the wiring board 10, and the handle 1506 is fixedly mounted at the middle end of the top of the pressing plate 1505;

specifically, when a user needs to move the wiring rack of the present invention, in order to prevent the cable in the wiring board 10 from vibrating and slipping in the wire outlet groove 11, when the user uses the wiring board 10 to perform conventional cable management, the palm is attached to the horizontal plate 1502, the web is attached to the web groove 1503 in the middle of the horizontal plate 1502, the handle 1506 is hooked and pulled by fingers, so that the pressing plate 1505 is detached from the pressing on the wiring board 10 and pulled up against the elastic force of the top tension spring 1504, after the conventional cable management of the wiring board 10 is completed, the handle 1506 is released to fold the pressing plate 1505 and the wiring board 10 again under the elastic force of the top tension spring 1504, the sheath 12 in the wire outlet groove 11 is pressed, and the phenomenon that the cable in the wiring board 10 vibrates and slips in the wire outlet groove 11 during the moving process, and further the cable is wound is avoided.

To sum up, a wiring rack for sorting and arranging wires for network engineering, in order to solve the problem that the existing wiring rack cannot be compatible with cables of different specifications, a user presses a top slider 906 in the middle of a back plate 901 on the left side of the front surface of a base 1 to enable the top slider to slide down on the front surface of a longitudinal rail 902, so that a sliding column 904 slides in a groove plate 907 and compresses a first spring 905, a bottom slider 909 slides back to back on a transverse rail 910 through a V-shaped handle 908 in the sliding stroke of the top slider 906, a large-diameter ferrule 911 is opened, the user places a large-diameter cable in the large-diameter ferrule 911, releases the pressure applied to the top slider 906, the bottom sliders 909 on two sides are quickly closed under the elastic reset force of the first spring 905, the large-diameter ferrule 911 finishes clamping of the large-diameter cable, the cable of a common specification is installed in a wire outlet groove 11 on a wiring board 10 in a matched manner through a notch 13 in the middle of a sheath 12, and the sheath 12 is arranged to avoid abrasion during wire outlet and is also convenient to disassemble and assemble, the user holds the toggle block 1406 to be positioned in the mounting groove 1403 to push the toggle block anticlockwise, so that the inner ring roller 1405 overcomes the elastic force of the bottom tension spring 1404 and slides in the small-diameter ring sleeve 1401, the output end of the inner ring roller 1405 is elastically connected with the trapezoidal block 1407 through the top tension spring 1408, the inclined surface of the trapezoidal block is contracted when the inclined surface is positioned at the left opening end of the small-diameter ring sleeve 1401, the trapezoidal block 1407 automatically bounces to realize self locking when moving to the locking groove 1402, when the user needs to move the wiring frame of the invention, in order to avoid the vibration and slippage of cables in the wiring board 1504 10 in the wire outlet groove 11, when the user applies the wiring board 10 to carry out the conventional cable management, the palm is attached to the transverse plate 1502, the tiger mouth is attached to the middle tiger mouth groove 1503 of the transverse plate 1502, the finger hooks the handle 1506 with the finger, so that the 1505 press plate is separated from the wiring board 10 and is pulled up by overcoming the elastic force of the top tension spring 1506, and after the conventional cable management of the wiring board 10 is finished, the handle 1506 is loosened, the handle 1506 is folded with the wiring board 1504, the sheath 12 in the wire outlet groove 11 is pressed, the phenomenon that the cable is wound due to the fact that the cable is positioned in the wire outlet groove 11 and is vibrated and slipped in the moving process of the wiring board 10 is effectively avoided, the cable is led out in the wire outlet groove 11, the binding arrangement of a binding plate 4 is convenient for a user, the binding plate 4 is positioned at the top of the base 1 through the guide post 3 and slides and descends, the wire ends of the cable are folded through the matching of the fan-shaped guide groove 6 in the middle of the binding plate 4 and the wire ends of the cable, the binding group is bound through devices such as a binding clamp and the like, the distribution of the wiring frame cable is tidier, the hanging frame 807 is positioned and hung on the bosses 7 on the two sides of the binding plate 4, the clamping roller 802 is held by hands to enable the wire ends to be positioned at the bottom of the rotating pin 801 to rotate and be clamped on the hanging hooks 2 on the two sides of the base 1, and the sliding plate 805 at the bottom of the pull rod 806 is positioned in the frame 804 and lifted, the end face of the top of the frame 804 presses the sleeve spring 808 to store energy, and through the arrangement of the toggle 803, the frame 804 of the locking mechanism 8 is overlapped with the clamping roller 802 and is positioned on the same vertical line in a tensioning state, so that the wire bundling plate 4 and the base 1 are firmly locked and pressed, and the vibration slippage of the wire end in the wire bundling plate 4 is effectively avoided.

Claims

1. The wiring rack for sorting and arranging the wires for the network engineering is characterized by comprising a base (1) and a locking mechanism (8), wherein hooks (2) are fixedly installed on end faces of two sides of the base (1), guide pillars (3) are fixedly installed on two sides of the top of the base (1), a wire bundling plate (4) is slidably installed on the tops of the guide pillars (3), a bottom pressure spring (5) is sleeved at the bottom of each guide pillar (3), the wire bundling plate (4) is elastically connected with the base (1) through the bottom pressure spring (5), guide grooves (6) are distributed on the front face of the wire bundling plate (4) in a fan-shaped mode, bosses (7) are symmetrically and fixedly installed on two sides of the wire bundling plate (4), the locking mechanism (8) is symmetrically installed on two sides of the wire bundling plate (4), the locking mechanism (8) comprises a rotating pin (801), a clamping roller (802) and a toggle joint (803), and the clamping roller (802) is rotatably installed inside the front face of the rotating pin (801), and the clamping roller (802) is in fit connection with the base (1) through the hook (2), and the middle part of the clamping roller (802) is provided with a toggle joint (803) in a penetrating way.

2. The wiring rack for classification and wire arrangement for network engineering according to claim 1, wherein the locking mechanism (8) further comprises a frame (804), a sliding plate (805) and a pull rod (806), the frame (804) is sleeved on the tops of two sides of the toggle joint (803), the frame (804) is rotatably mounted on the top of the clamping roller (802) through the toggle joint (803), the sliding plate (805) is slidably mounted inside the frame (804), and the pull rod (806) is fixedly connected to the top of the sliding plate (805).

3. The wiring frame for classification and wire arrangement for network engineering according to claim 2, wherein the locking mechanism (8) further comprises a hanging frame (807) and a sleeve spring (808), the pull rod (806) penetrates through one end of the top of the frame (804) and is fixedly connected with the hanging frame (807), the size of an inner cavity of the hanging frame (807) is matched with the shape of the boss (7), the sleeve spring (808) is sleeved in the middle of the pull rod (806), and the pull rod (806) is elastically connected with the end face of the top of the frame (804) through the sleeve spring (808).

4. The wiring rack for classifying and arranging wires for network engineering according to claim 1, wherein a large-diameter wire arranging mechanism (9) is arranged on the left side of the top of the base (1), the large-diameter wire arranging mechanism (9) comprises a back plate (901), a longitudinal rail (902), a bottom support (903), a sliding column (904) and a first spring (905), the longitudinal rail (902) is longitudinally arranged in the middle of the back plate (901), the bottom end face of the longitudinal rail (902) is fixedly provided with the bottom support (903), the sliding column (904) is fixedly connected to the top of the bottom support (903), and the first spring (905) is sleeved outside the sliding column (904).

5. The wiring rack for classifying and arranging the wires for the network engineering according to claim 4, wherein the large-diameter wire arranging mechanism (9) further comprises a top slider (906) and a slotted plate (907), the top slider (906) is slidably mounted on the front surface of the longitudinal rail (902), the slotted plate (907) is fixedly mounted in the middle of the top slider (906), the sliding column (904) is slidably mounted inside the slotted plate (907), and the slotted plate (907) is elastically connected with the bottom base (903) through a first spring (905).

6. The wiring rack for classifying and arranging the wires for the network engineering according to claim 5, wherein the large-diameter wire arranging mechanism (9) further comprises a V-shaped handle (908), a bottom slider (909), transverse rails (910) and a large-diameter wire sleeve (911), the V-shaped handle (908) is symmetrically and rotatably installed on two sides of the top slider (906), the bottom of the V-shaped handle (908) is connected with the bottom slider (909), the top slider (906) is in rotary transmission connection with the bottom slider (909) through the V-shaped handle (908), the transverse rails (910) are arranged on the back of the bottom slider (909), the transverse rails (910) are transversely arranged on the bottom of the back plate (901), and the large-diameter wire sleeve (911) is fixedly connected to the inner side of the front of the bottom slider (909).

7. The wiring rack for the classification and wire arrangement for the network engineering according to claim 1, wherein a wiring board (10) is fixedly mounted on the right side of the top of the base (1), wire outlet grooves (11) are formed in the top of the wiring board (10) at equal intervals, a sheath (12) is arranged inside the wire outlet grooves (11), notches (13) are symmetrically formed in the middle of the sheath (12), and the sheath (12) is fitted inside the wire outlet grooves (11) through the notches (13).

8. The wiring rack of classification reason line for network engineering according to claim 7, characterized in that, sheath (12) top is provided with path reason line mechanism (14), path reason line mechanism (14) include path ring cover (1401), locked groove (1402), mounting groove (1403), bottom extension spring (1404) and interior ring roller (1405), path ring cover (1401) left side top has seted up locked groove (1402), and path ring cover (1401) right side front has seted up mounting groove (1403), bottom extension spring (1404) is connected to mounting groove (1403) right side bottom, and bottom extension spring (1404) left side elastic connection has interior ring roller (1405).

9. The wiring rack of classification wire arrangement for network engineering according to claim 8, wherein the small diameter wire arrangement mechanism (14) further comprises a shifting block (1406), a trapezoidal block (1407) and a top pressure spring (1408), the shifting block (1406) is fixedly installed on the right side of the front face of the inner ring roller (1405), the shifting block (1406) is slidably installed inside the installation groove (1403), the trapezoidal block (1407) is arranged on the top of the left side of the inner ring roller (1405), the bottom of the trapezoidal block (1407) is elastically connected with the top pressure spring (1408), and the shape of the trapezoidal block (1407) is matched with the size of the locking groove (1402).

10. The wiring frame for classification and wire arrangement for network engineering according to claim 1, wherein a wire pressing mechanism (15) is installed on the right side end face of the base (1), the wire pressing mechanism (15) comprises a vertical column (1501), a transverse plate (1502), a tiger-mouth groove (1503), a top tension spring (1504), a pressing plate (1505) and a handle (1506), the transverse plate (1502) is fixedly connected to the left side of the top of the vertical column (1501), the tiger-mouth groove (1503) is symmetrically formed in two sides of the middle of the transverse plate (1502), the top tension spring (1504) is connected to two sides of the bottom of the transverse plate (1502), the pressing plate (1505) is elastically connected to the bottom of the top tension spring (1504), the length of the pressing plate (1505) is consistent with that of the wiring board (10), and the handle (1506) is fixedly installed at the middle end of the top of the pressing plate (1505).