CN219644375U - Network equipment integration rack suitable for dense lines - Google Patents

Abstract

The utility model provides a network equipment integration frame suitable for dense lines, which relates to the technical field of network equipment and comprises a placement frame, wherein a plurality of layers of partition boards are arranged in the placement frame, the top surface of each partition board is provided with a bulge, a plurality of placement notches are formed in the bulge, a connecting plate is fixedly connected to one side of the bottom surface of each partition board, a plurality of winding columns used for winding wires are fixedly connected to the connecting plate, a threading opening is formed in the connecting plate, a limited wire board is rotationally connected to the other side of the bottom surface of each partition board, a plurality of sinking grooves are formed in one side of the surface of each limited wire board, the quantity of the sinking grooves is equal to that of the connecting plates on each layer of partition board, each sinking groove corresponds to one connecting plate, a set elastic sheet ensures that wires in the sinking grooves cannot fall off, and an elastic sheet can be stirred by an elastic assurance personnel of the elastic sheet, so that the elastic sheet bends, and wires can conveniently enter and exit the sinking grooves.

Description

Network equipment integration rack suitable for dense lines

Technical Field

The utility model relates to the technical field of network equipment, in particular to a network equipment integration rack suitable for dense lines.

Background

Network devices and components are physical entities connected into a network. The variety of network devices is large and increasing, and the basic network devices are computers (whether they be personal computers or servers), hubs, switches, bridges, routers, gateways, network Interface Cards (NICs), wireless Access Points (WAPs), printers and modems, fiber optic transceivers, fiber optic cables, and the like.

In general, a plurality of wires are connected to the network device, including a power line, a main signal line connected to a main network, and a branch signal line connected to the device, and in order to facilitate management and maintenance, the network device in a certain range is stored in a centralized manner, and the number of wires in the storage area is increased due to centralized storage, and the wires are entangled together, so that when the subsequent device is overhauled, the correct wires need to be found in the wires which are disordered into a hemp, thereby affecting the overhauling efficiency.

Disclosure of Invention

The utility model aims to solve the problem of storage and arrangement of wires of a plurality of network devices stored in a concentrated way, and provides a network device integration rack suitable for dense lines.

In order to achieve the above purpose, the present utility model adopts the following technical scheme: the utility model provides a network equipment integration frame suitable for intensive circuit, includes the rack, be provided with a plurality of layers of baffles in the rack, the baffle top surface is provided with the arch, contain a plurality of notch of placing in the arch, place notch department, baffle bottom surface one side fixedly connected with connecting plate, fixedly connected with is used for the winding reel post of line on the connecting plate, and has seted up the through wires mouth on the connecting plate, baffle bottom surface opposite side rotates and is connected with limited line board, a plurality of heavy grooves have been seted up to limit line board surface one side limit, and the quantity of a plurality of heavy grooves is equivalent with the connecting plate quantity on each layer of baffle, each heavy groove corresponds a connecting plate, and the one end of heavy groove extends to the through wires mouth department on the connecting plate, set up the line hole of connecting notch of placing and baffle bottom surface on the baffle.

Further: the winding column is in T-shaped arrangement.

Further: the utility model discloses a wire threading device, including rack, a plurality of sinking grooves, threading board, each sinking groove's open end department has seted up the fretwork mouth on being located a plurality of sinking grooves on the rack, and the rack is located one side fixedly connected with threading board of fretwork mouth, set up a plurality of threading grooves equivalent with fretwork mouth quantity on the threading board, every threading groove corresponds a fretwork mouth.

Further: one end of the threading groove extends to one side of the threading plate and faces towards the hollowed-out opening, and the other end of the threading groove extends to any other side of the threading plate.

Further: the threading board is provided with a plurality of fixture blocks along the trend of threading groove, the fixture block is used for preventing the line from breaking away from the threading groove.

Further: the surface of the wire limiting plate is provided with a plurality of elastic pieces along the length direction of the sink, the elastic pieces cover the surface of the sink, and one end of the elastic pieces is fixed with the wire limiting plate.

Compared with the prior art, the utility model has the advantages and positive effects that,

according to the utility model, network equipment is correspondingly placed in a placement notch, then corresponding wires are inserted on the equipment, the other ends of the wires sequentially penetrate through wire holes and threading openings, then a spring plate is opened to clamp the wires into a sinking groove, then the wires extend to penetrate out of a hollowed-out opening, a clamping block is opened to clamp the wires into a threading groove, the wires extend out of the other ends of the threading groove and are connected with other equipment or connected with a power supply, redundant wires are hung in front of a connecting plate through the wire drawing, the redundant wires are wound on a wire winding column, the connecting wires between two adjacent network equipment sequentially penetrate through the wire holes in the corresponding placement notch, the redundant connecting wires are directly wound on other wire winding columns, so that the orderly storage of the connecting wires of the equipment is realized, a plurality of connecting wires on any equipment are stored separately from the connecting wires of other equipment, and the subsequent searching, overhauling and damaged wires are facilitated.

Drawings

Fig. 1 is a front view of a network device integration rack suitable for dense lines according to the present utility model;

fig. 2 is a side sectional view of the network equipment integration rack of fig. 1, which is suitable for dense lines;

fig. 3 is a schematic diagram of a top-down structure of fig. 1 of a network device integration rack suitable for dense lines according to the present utility model.

Legend description: 1. a placing rack; 2. a threading plate; 3. a wire penetrating groove; 4. a clamping block; 5. a partition plate; 6. placing the notch; 7. a connecting plate; 8. a winding post; 9. a threading opening; 10. a wire limiting plate; 11. sinking grooves; 12. a protrusion; 13. a wire hole; 14. a spring plate; 15. and (5) a hollowed-out opening.

Detailed Description

In order that the above objects, features and advantages of the utility model will be more clearly understood, a further description of the utility model will be rendered by reference to the appended drawings and examples. It should be noted that, without conflict, the embodiments of the present utility model and features in the embodiments may be combined with each other.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present utility model, however, the present utility model may be practiced otherwise than as described herein, and therefore the present utility model is not limited to the specific embodiments of the disclosure that follow.

As shown in fig. 1-3, a network equipment integration rack suitable for dense lines comprises a placement rack 1, a plurality of layers of partition boards 5 are arranged in the placement rack 1, the top surface of each partition board 5 is provided with a bulge 12, a plurality of placement notches 6 are formed in the bulge 12, a connecting plate 7 is fixedly connected to one side of the bottom surface of each partition board 5, a plurality of winding posts 8 used for winding wires are fixedly connected to the connecting plate 7, threading holes 9 are formed in the connecting plate 7, a limited wire board 10 is rotationally connected to the other side of the bottom surface of each partition board 5, a plurality of sinking grooves 11 are formed in one side of the surface of each limited wire board 10, the number of the sinking grooves 11 is equal to that of the connecting plates 7 on each layer of partition board 5, each sinking groove 11 corresponds to one connecting plate 7, one end of each sinking groove 11 extends to the threading hole 9 on each connecting plate 7, and a wire hole 13 connecting the placement notches 6 and the bottom surface of each partition board 5 is formed in each connecting plate 7.

The placement notch 6 formed in the bulge 12 is convenient for preventing network equipment, the winding column 8 arranged on the connecting plate 7 is used for winding wires connected with the network equipment, the sinking groove 11 on the wire limiting plate 10 is convenient for a plurality of wires on the corresponding connecting plate 7 to be placed in the same sinking groove 11 in a concentrated manner, namely, the wires of the connecting plates 7 are separated and placed independently, the positions of the wires are fixed, in actual use, the network equipment is placed in the placement notch 6, then one end of the wires on the network equipment sequentially passes through the wire hole 13, the threading opening 9 and the sinking groove 11 and finally extends to the outer side of the placement frame 1 through the hollowed-out opening 15, and the redundant wires are gathered at the connecting plate 7 through the drawing wires and wound on the winding column 8; the connecting wires between two adjacent network devices sequentially pass through the wire holes 13 in the corresponding placement notches 6, and the redundant connecting wires are directly wound on the winding posts 8.

Further, as shown in fig. 2: the coil post 8 is T-shaped, so that the coil is prevented from falling off.

Further, as shown in fig. 1, 2 and 3: the opening ends of the plurality of sinking grooves 11 are provided with hollowed-out openings 15, one side of the placing frame 1, which is positioned at the hollowed-out openings 15, is fixedly connected with a threading plate 2, a plurality of threading grooves 3 which are equal to the hollowed-out openings 15 in number are formed in the threading plate 2, each threading groove 3 corresponds to one hollowed-out opening 15, one end of each threading groove 3 extends to one side of the threading plate 2 and faces the hollowed-out opening 15, the other end of each threading groove 3 extends to any other side of the threading plate 2, a plurality of clamping blocks 4 are arranged on the threading plate 2 along the trend of the threading groove 3, and the clamping blocks 4 are used for preventing wires from being separated from the threading grooves 3;

the fretwork mouth 15 that sets up guarantees that the network equipment connecting wire on each layer of baffle 5 extends out of rack 1 to through the threading groove 3 that corresponds, the line of being convenient for put into, the fixture block 4 of setting is articulated with the threading board on one side, and another side joint, and then the personnel of being convenient for inlay through opening fixture block 4, realizes that the connecting wire of each layer of baffle 5 departments is established into threading groove 3, realizes the stable in position of line, and is the same reason, through opening fixture block 4, realizes line business turn over threading groove 3.

Further, as shown in fig. 2: the limiting plate 10 surface is provided with a plurality of shell fragments 14 along the length direction of heavy groove 11, and shell fragment 14 covers heavy groove 11 surface, and one end is fixed with limiting plate 10, and the shell fragment 14 of setting guarantees that the line in the heavy groove 11 can not drop, and the elasticity assurance personnel of shell fragment 14 can stir shell fragment 14 simultaneously, makes the shell fragment 14 crooked, and then the line business turn over heavy groove 11 of being convenient for.

In the operation process, network equipment is correspondingly placed in the placement notch 6, then corresponding wires are spliced on the equipment, the other ends of the wires sequentially penetrate through the wire holes 13 and the threading openings 9, then the elastic sheet 14 is opened to clamp the wires into the sinking groove 11, then the wires extend to penetrate out of the hollowed-out openings 15, the clamping block 4 is opened, the wires are clamped into the threading groove 3, the wires extend out of the other ends of the threading groove 3 and are connected with other equipment or are connected with a power supply, then the wires are drawn near the connecting plate 7 until the redundant wires are suspended in front of the connecting plate 7, the redundant wires are wound on the winding posts 8, the connecting wires between two adjacent network equipment sequentially penetrate through the wire holes 13 in the corresponding placement notch 6, and the redundant connecting wires are directly wound on the other winding posts 8.

The present utility model is not limited to the above-mentioned embodiments, and any equivalent embodiments which can be changed or modified by the technical content disclosed above can be applied to other fields, but any simple modification, equivalent changes and modification made to the above-mentioned embodiments according to the technical substance of the present utility model without departing from the technical content of the present utility model still belong to the protection scope of the technical solution of the present utility model.

Claims (6)

1. The utility model provides a network equipment integration frame suitable for intensive circuit which characterized in that: including rack (1), be provided with a plurality of layers of baffle (5) in rack (1), baffle (5) top surface is provided with protruding (12), protruding (12) are interior to be equipped with a plurality of notch (6) of placing, in place notch (6) department, baffle (5) bottom surface one side fixedly connected with connecting plate (7), fixedly connected with a plurality of wire winding post (8) that are used for the line winding on connecting plate (7), and offered through wires mouth (9) on connecting plate (7), baffle (5) bottom surface opposite side rotates and is connected with limited line board (10), a plurality of heavy groove (11) have been offered to limit line board (10) surface one side limit, and the quantity of a plurality of heavy groove (11) is the same with connecting plate (7) quantity on each layer of baffle (5), each heavy groove (11) corresponds a connecting plate (7), and the one end of heavy groove (11) extends to wire through mouth (9) department on connecting plate (7), has offered on connecting plate (5) and has been connected wire hole (13) of placing notch (6) and baffle (5).

2. The network equipment integration rack for dense wiring of claim 1, wherein: the winding column (8) is arranged in a T shape.

3. The network equipment integration rack for dense wiring of claim 1, wherein: the utility model discloses a wire drawing device, including rack (1), wire drawing board (2) and wire drawing board (2), the open end department that is located a plurality of heavy grooves (11) on rack (1) has seted up fretwork mouth (15), and one side fixedly connected with threading board (2) that rack (1) is located fretwork mouth (15), a plurality of and fretwork mouth (15) quantity equivalent threading groove (3) have been seted up on threading board (2), and every threading groove (3) corresponds a fretwork mouth (15).

4. A network equipment integration rack adapted for dense wiring as set forth in claim 3 wherein: one end of the threading groove (3) extends to one side of the threading plate (2) and faces towards the hollowed-out opening (15), and the other end of the threading groove (3) extends to any other side of the threading plate (2).

5. The network equipment integration rack for dense wiring of claim 4, wherein: the threading board (2) is provided with a plurality of clamping blocks (4) along the trend of the threading groove (3), and the clamping blocks (4) are used for preventing threads from being separated from the threading groove (3).

6. The network equipment integration rack for dense wiring of claim 1, wherein: the wire limiting plate (10) is characterized in that a plurality of elastic pieces (14) are arranged on the surface of the wire limiting plate (10) along the length direction of the sinking groove (11), the elastic pieces (14) cover the surface of the sinking groove (11), and one end of the elastic pieces is fixed with the wire limiting plate (10).