阅读说明：本技术 一种网线配线架 (Network cable distribution frame ) 是由 韦玉林 于 2020-12-28 设计创作，主要内容包括：本发明公开了一种网线配线架,配线架主体、配线模组和网线模块；配线架主体包括连接杆以及两个相对布置的定位架,连接杆成对可拆卸地安装在两个定位架之间,且每对连接杆间隔平行布置；每对连接杆上沿轴向并列安装有多个配线模组,配线模组上设有夹持部,配线模组通过夹持部夹持固定在连接杆上；每个配线模组上卡接安装有至少一个网线模块。该网线配线架通过在连接杆上通过卡接夹持的方式安装配线模组和网线模块,可根据需要选择端口的安装数量和安装间距,布线位置可自由选定,安装更加灵活,连接杆长度可自由裁切,可满足不同安装场景的需求。(The invention discloses a network cable distribution frame, which comprises a distribution frame main body, a distribution module and a network cable module, wherein the distribution frame main body is provided with a plurality of distribution modules; the distribution frame main body comprises connecting rods and two oppositely arranged positioning frames, the connecting rods are detachably arranged between the two positioning frames in pairs, and each pair of connecting rods are arranged in parallel at intervals; a plurality of wiring modules are arranged on each pair of connecting rods in parallel along the axial direction, clamping parts are arranged on the wiring modules, and the wiring modules are clamped and fixed on the connecting rods through the clamping parts; at least one network cable module is clamped and installed on each wiring module. This net twine distribution frame is through installing distribution module and net twine module through the mode of joint centre gripping on the connecting rod, can select the installation quantity and the erection space of port as required, and the wiring position can freely be selected, installs more in a flexible way, and connecting rod length can freely cut, can satisfy the demand of different installation scenes.)

1. A network cable distribution frame is characterized by comprising a distribution frame main body (100), a distribution module (200) and a network cable module (300);

the distribution frame main body (100) comprises connecting rods (110) and two oppositely arranged positioning frames (120), the connecting rods (110) are detachably mounted between the two positioning frames (120) in pairs, and each pair of the connecting rods (110) are arranged in parallel at intervals;

a plurality of wiring modules (200) are arranged on each pair of connecting rods (110) in parallel along the axial direction, clamping parts are arranged on the wiring modules (200), and the wiring modules (200) are clamped and fixed on the connecting rods (110) through the clamping parts;

at least one network cable module (300) is clamped and installed on each wiring module (200).

2. Network distribution frame according to claim 1, characterised in that the connection bars (110) are made of nylon material.

3. Network distribution frame according to claim 1, wherein the connection bars (110) are circular bars and the clamping portions are notched circular grooves (250), the notched circular grooves (250) being snap-fitted with the connection bars (110).

4. Network distribution frame according to claim 1, characterised in that the tie bars (110) are provided with annular ribs (111) equally spaced along their axial direction; a positioning opening (260) matched with the annular rib (111) is formed in the clamping portion.

5. Network distribution frame according to any of claims 1-4, characterized in that the positioning frame (120) comprises a positioning plate (121) and a clamping plate (122), the clamping plate (122) being detachably fixed to the positioning plate (121), and the ends of the connecting rods (110) being clampingly fixed between the positioning plate (121) and the clamping plate (122).

6. Network distribution frame according to claim 5, characterized in that the positioning plate (121) is provided with positioning screw holes (123).

Technical Field

The invention relates to the technical field of network wiring, in particular to a network cable distribution frame.

Background

The distribution frame is used for terminating and distributing the local side trunk optical cable in the communication system, and can conveniently realize the connection, distribution and scheduling of optical fiber lines. Patch panels are typically mounted on cabinets or walls and are typically connected to switches by network jumpers. With the increasing integration degree of networks, an optical data hybrid distribution frame integrating ODF, DDF and power distribution units has appeared, and is suitable for small and medium-sized distribution systems from optical fibers to cells, optical fibers to buildings, remote modules and wireless base stations.

In the distribution frame in the prior art, a network cable module is integrally fixed in a frame structure, a port of the network cable module is horizontally arranged, and when a trunk line and a terminal subscriber line are connected, the problem of overlarge bending angle of the network cable exists, so that signal transmission is blocked, and the service life of the network cable is influenced; the number of module ports of the existing distribution frame is generally fixed and often cannot be matched with the actual number of ports of equipment; in addition, the structure and the size of the distribution frame are fixed, the distribution frame can not be installed in a matching mode, the network cable modules are inconvenient to disassemble and assemble, and the overhauling and installation efficiency is low.

Disclosure of Invention

In order to solve the technical problems in the background art, the invention provides a network cable distribution frame.

The invention provides a network cable distribution frame, which comprises a distribution frame main body, a distribution module and a network cable module;

the distribution frame main body comprises connecting rods and two oppositely arranged positioning frames, the connecting rods are detachably arranged between the two positioning frames in pairs, and each pair of connecting rods are arranged in parallel at intervals;

a plurality of wiring modules are arranged on each pair of connecting rods in parallel along the axial direction, clamping parts are arranged on the wiring modules, and the wiring modules are clamped and fixed on the connecting rods through the clamping parts;

at least one network cable module is clamped and installed on each wiring module.

Preferably, the connecting rod is made of nylon material.

Preferably, the connecting rod is a circular rod, the clamping part is a notch circular groove, and the notch circular groove is matched with the connecting rod in a clamping mode.

Preferably, the connecting rod is provided with annular ribs at equal intervals along the axial direction of the connecting rod; and a positioning opening matched with the annular rib is arranged in the clamping part.

Preferably, the locating rack comprises a locating plate and a clamping plate, the clamping plate is detachably fixed on the locating plate, and the end portion of the connecting rod is clamped and fixed between the locating plate and the clamping plate.

Preferably, the positioning plate is provided with a positioning screw hole.

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

according to the network cable distribution frame, the distribution module and the network cable module are installed on the connecting rod in a clamping and clamping mode, the installation number and the installation interval of the ports can be selected according to needs, the wiring position can be freely selected, the installation is more flexible, the length of the connecting rod can be freely cut, and the requirements of different installation scenes can be met.

Drawings

Fig. 1 is a perspective view of a network cable distribution frame according to the present invention;

fig. 2 is a schematic diagram of a rear view perspective of the cable distribution frame of fig. 1;

fig. 3 is a cross-sectional view of a network wire distribution frame;

fig. 4 is a perspective view of a wiring module and a network cable module;

FIG. 5 is a schematic rear view of the wiring module and the network cable module shown in FIG. 4;

FIG. 6 is a schematic diagram of the splicing and opening of the wiring module;

FIG. 7 is an exploded view of the wiring module;

fig. 8 is a front view of the wiring module shown in fig. 7.

Detailed Description

Referring to fig. 1 to 8, the network cable distribution frame of the present invention includes a distribution frame main body 100, a distribution module 200 and a network cable module 300; wherein, the distribution frame main body 100 includes a connecting rod 110 and two oppositely arranged positioning frames 120, the positioning frames 120 are used for fixing the distribution frame main body 100, the connecting rod 110 is detachably installed between the two positioning frames 120 in pairs, and each pair of connecting rods 110 is arranged in parallel at intervals. A plurality of wiring modules 200 are arranged on each pair of connecting rods 110 in parallel along the axial direction, clamping parts are arranged on the wiring modules 200, and the wiring modules 200 are clamped and fixed on the connecting rods 110 through the clamping parts; at least one network cable module 300 is snap-fitted to each wiring module 200.

The network cable distribution frame is provided with distribution modules 200 through connecting rods 110, each distribution module 200 can be correspondingly provided with one or more network cable modules 300, and the distribution modules 200 are arranged on the connecting rods 110 in a clamping and fixing mode. Compared with the prior art, the installation and disassembly are more convenient, the two adjacent wiring modules 200 can be attached together, the proper distance can be reserved according to the needs, the wiring position can be freely selected, and the installation is more flexible.

On the other hand, because the connecting rod 110 is also an easily-installed and easily-detached replaceable component, the connecting rod 110 is preferably a cuttable piece, and the length of the connecting rod 110 can be measured and cut on site to meet the requirements on installation dimensions in different scenes, so that the length of the distribution frame can be freely and flexibly set according to the size of an installation space.

Among them, the connecting rod 110 is preferably made of nylon material. For the distribution frame of the invention, the connecting rod 110 can be hard or can be a bendable material with certain flexibility, the connecting rod 110 made of nylon material is wear-resistant, bendable, has good mechanical strength, is convenient to be cut into required length, and the use cost is lower than that of the frame made of metal material in the prior art; meanwhile, the connecting rod 110 has a certain degree of flexibility, so that the installation flexibility can be further improved, and the distribution frame can meet more use scenes.

The connecting rod 110 is a circular rod, the clamping portion disposed on the wiring module 200 is a notch circular groove 250, and the notch circular groove 250 is in snap fit with the connecting rod 110. The notched circular groove 250 is clamped to the connecting rod 110 by a certain elastic deformation. A round bar may be more conveniently connected with the clamping portion, but the connecting rod 110 is not limited to a round shape, and the notched circular groove 250 is only a preferable form of the clamping portion, and those skilled in the art will appreciate that the clamping portion may also be a member having the same clamping function, such as a spring clip, a hook clip, etc.

Further, the connecting rod 110 is provided with annular ribs 111 at equal intervals along the axial direction thereof; the notched circular groove 250 is provided with a positioning opening 260 fitted with the annular rib 111.

Although the clamping friction of the wiring module 200 is enough to position the wiring module on the connecting rod 110, the annular ribs 111 on the connecting rod 110 can better position the wiring module 200 in consideration of the precision of part processing and the abrasion generated during maintenance due to disassembly, assembly and replacement, and since the annular ribs 111 are arranged at equal intervals, the installation density of the network cable module 300 is not affected as long as the intervals are reasonably arranged, and the installation position of the network cable module 300 can be flexibly selected.

Wherein, locating rack 120 includes locating plate 121 and splint 122, and splint 122 passes through threaded connection mode detachably to be fixed on locating plate 121 to the tip centre gripping of connecting rod 110 is fixed between locating plate 121 and splint 122, is equipped with the centre gripping hole with connecting rod 110 adaptation on locating plate 121 and the splint 122. The positioning plate 121 is further provided with a positioning screw hole 123, and the positioning plate 121 can be fixedly mounted by passing a screw through the positioning screw hole 123.

The network cable distribution frame of the invention mainly aims to make the installation and the positioning of the network cable on the distribution frame more convenient and improve the installation flexibility of the distribution frame, but the ports of the network cable module are denser and the direction of the ports is fixed when the network cable is installed on the distribution frame in the prior art, so the routing and the installation are not facilitated. Therefore, the present embodiment further improves the distribution module 200 of the network cable distribution frame to adapt to the network cable trend.

As shown in fig. 3 to 8, the wiring module 200 includes a positioning block and at least one movable block 210 mounted on the positioning block; the positioning block is provided with a through hole penetrating through the front end and the rear end of the positioning block, the inner wall of the through hole is a spherical surface, the movable block 210 is correspondingly arranged in the through hole, and the through hole is movably matched with the spherical surface of the movable block 210; each movable block 210 is correspondingly provided with a network cable module 300 in a clamping way, and two ends of the connection wire of the network cable module 300 penetrate through the movable block 210 and are exposed to the front end and the rear end of the wiring module 200.

By adopting the spherical matching mode of the movable block 210 and the through holes on the positioning blocks, the network cable module 300 can freely and flexibly rotate 360 degrees and rotate the orientation of the port on the wiring module 200 along with the movable block 210, not only can be more flexibly butted when the network cable is plugged, but also the network cable module 300 can be matched with the routing direction of the network cable. Meanwhile, the wiring module 200 can also reduce the bending angle of the network cable, thereby reducing the loss of transmission speed caused by the overlarge bending angle of the network cable and preventing the inner core wire of the network cable from being broken and cracked.

The positioning block is formed by butt-jointing a first fixing block 220 and a second fixing block 230 which are opposite up and down, a first spherical groove 221 is formed in the first fixing block 220, a second spherical groove 231 is formed in the second fixing block 230, and the inner wall of the spherical surface of the through hole is formed by correspondingly jointing the first spherical groove 221 and the second spherical groove 231.

One sides of the first and second fixing blocks 220 and 230 are hinge-mounted together, and the other opposite sides of the first and second fixing blocks 220 and 230 are snap-fitted by means of a clip. Specifically, the clip includes a clip 232 integrally connected to the second fixing block 230 and a bayonet 222 disposed on the first fixing block 220, and the clip 232 is snap-fitted with the bayonet 222. The positioning blocks are divided into the first fixing block 220 and the second fixing block 230 which can be spliced, so that the movable block 210 and the network cable can be conveniently disassembled and assembled.

The front ends of the first fixed block 220 and the second fixed block 230 are provided with numbering and pasting grooves 240, the numbering and pasting grooves 240 are used for pasting numbering and numbering the network cable module 300, the movable block 210 can rotate freely, so that the upper numbering and pasting grooves 240 and the lower numbering and pasting grooves 240 are arranged, so that the wiring module 200 is not needed to be distinguished during installation, and the installation is more convenient.

It should be noted that, when the distribution frame of the present invention can only be installed with one network cable module 300 on the distribution module 200, the number of ports required by the distribution frame is the installation number of the distribution module 200, and the problem that the number of ports of the distribution frame is often not matched with the number of required ports in the prior art is not caused. When a plurality of ports need to be combined into a group for convenient classification management, the prefabricated wiring module 200 can be selected to be provided with a plurality of network cable modules 300 in a group, and can also be distinguished by different installation intervals, or the wiring module 200 can be produced into different colors with distinguishing function, or can be distinguished only by numbers.

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 should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.