RU209318U1 - Cable assembly for data networks - Google Patents

Abstract

The utility model relates to the field of twisted-pair cable products used in data transmission networks. The technical result consists in simplifying the installation with reliable provision of the specified electrical properties of the cable system. The essence of the utility model lies in the fact that the cable assembly for laying in data transmission networks contains the required number of four-pair cables in a sheath made of a thermoplastic composition. The assembly cables are provided with a common outer sheath of thermoplastic composition. At the same time, according to the utility model, the required length of the product (30-90 m), sufficient for the installation of equipment, is cut off from the factory "building length" (305-500 m). The calculation of the cable assembly lengths according to the design documentation makes it possible to optimally use the “building lengths” with the minimization of residues, which makes it possible to obtain an economic effect. The cable assembly is made with the possibility of removing the outer sheath by cutting it with a cordel, followed by mounting independent four-pair cables from the assembly into multidirectional cable routes for connecting various equipment using different connectors and operating using different communication protocols within one assembly. Using the assembly as a single product, including a set of independent four-pair cables, reduces the cost of the system and increases its reliability and excludes intermediate connections from the cable system.

Description

The utility model relates to the field of twisted-pair cables used in data networks.

A cable product for laying in a local network is known, containing cables of a pair of twists, made in the form of single-wire copper cores, each of which is enclosed in a sheath of a thermoplastic composition, while the cables of the product are provided with a common outer sheath of a thermoplastic composition (US 20160372236 A1, pub. 22.12 .2016).

The disadvantage of the known product is the inability to quickly and safely divide a single cable product into separate independent cables. Since the product is not intended to be used without an outer sheath, it is not possible to separate it into independent cables by removing the outer sheath and run these independent cables in different directions along different cable routes to the connected equipment. If the cable product cannot be divided into independent cables, then it becomes necessary to use additional connections, which requires additional labor time, additional equipment and reduces the reliability and electrical properties of communication lines.

In addition, the use of sheaths made of PVC compounds does not meet the fire safety requirements for cables laid in buildings and structures with a massive presence of people, including multifunctional high-rise buildings.

The technical problem is to eliminate the noted shortcomings.

The technical result consists in increasing the reliability of the cable system, simplifying its installation while ensuring the specified electrical characteristics of the connections of the installed equipment.

The problem is solved and the technical result is achieved by the fact that the cable assembly for laying in data transmission networks contains independent four-pair cables.

The pairs of twists included in the four-pair cables consist of pairs of twisted insulated single-wire copper conductors with a fixed twist pitch, each pair has its own twist pitch, which is different from other pairs in the cable, four twisted pairs, in turn, are twisted into a core using the unidirectional twist method and enclosed in a sheath made of a thermoplastic composition, while the four-pair cables in the cable assembly, in turn, are twisted together by the method of unidirectional twisting and are provided with a common outer sheath of a thermoplastic composition. The cable assembly for laying in data transmission networks is supplied in construction lengths of 305 or 500 m and the assembly lengths are cut off at the facility after the assembly is laid between the most remote installation points, taking into account the assembly length reserve included in the project.

If laying the assembly without cutting off the construction length is not possible due to the characteristics of cable routes and cable penetrations, then the required length is cut off in advance according to the calculation given in the project documentation. Cutting off cable assembly design lengths or laying the assembly without pre-cutting allows you to maximize the use of the cable assembly and minimize unused residues.

Under the outer sheath of the assembly, along its entire length, a breaking cordel is laid, and the cable assembly is made with the possibility of removing the outer sheath by cutting it with the help of a breaking cordel and further laying independent four-pair cables from the cable assembly of the required length to the connection point into multidirectional cable routes equipment. Lengths of independent cables may vary and depend on the location of the connected equipment. The calculation of these lengths is made according to the project documentation, while the length of the cable assembly segment is calculated from the maximum length of the cable on both sides. All calculations of cable assembly segments, taking into account reserves, are made in accordance with the project documentation.

The cable assembly and independent cables may contain a polymeric bonding tape winding under the sheath. The cable assembly may contain a filling module, which is a polymer tube or rod made of a thermoplastic composition used for cable sheathing and assembly, with a diameter that allows the cables of the cable assembly to be twisted around it in one row.

The utility model is illustrated by drawings, where

in fig. 1 shows a section of a cable forming a cable assembly,

in fig. 2 - section of the cable assembly with 6 cables,

in fig. 3 - section of the cable assembly with 10 cables.

The presented cable assembly for data transmission networks contains independent four-pair cables 1, each cable contains four twisted pairs 2 and has a sheath 5 made of a thermoplastic composition. Each of the twisted pairs 2, in turn, is made in the form of twisted pairs of insulated 4 single-wire copper conductors 3. In each independent cable 1, four twisted pairs 2 are twisted by the unidirectional twisting method and covered with a sheath 5. Several independent cables 1 are twisted together by the unidirectional twisting method and covered with a common shell 6 of a thermoplastic composition with reduced smoke emission and does not emit corrosive products during combustion. The thermoplastic composition is based on polymers from the polyolefin family with the addition of flame retardants. In this case, the cable assembly for data transmission networks is cut off from the construction length with a segment with a length sufficient to connect equipment from both ends of the assembly. Under the outer sheath 6 of the cable assembly, a cordel 7 is laid along the entire length, with the help of which the outer sheath 6 is removed, which makes it possible to install independent cables 1 into separate multidirectional cable routes for electrical connection of equipment.

Under the outer sheath 6 of the cable assembly for data transmission networks, as well as under the outer sheaths 5 of each cable 1, a fastening winding 8 can be laid to fix both the twisted pairs in the cable and the cables in the assembly.

The cable assembly can also be provided with a filling module 9 laid along its entire length.

The proposed cable assembly is used as follows.

The cable assembly is used to create a passive cable system that meets the necessary electrical properties and fire safety requirements for laying indoors with a mass stay of people, and is a cable assembly for laying along main cable routes, the lengths of which are determined in the project documentation.

The range of used connectors is determined by the project. The number of four-pair cables in a cable assembly may vary. Options for connecting equipment and the number of connectors on each side can be applied in a wide range in accordance with the decisions laid down in the project documentation.

After sheath 6 is removed, the cable assembly turns into a set of independent cables 1 in sheath 5, which can be terminated with any connectors and work with various data transfer protocols and various equipment connected to cables 1 of one assembly. In this case, each independent cable 1 of the assembly has the same fire properties as the assembly, due to the use of appropriate materials in the outer sheath 5.

Passive cable assembly for data transmission networks is used in the laying of highways as a single product and allows the flexible use of each independent cable 1 in sheath 5 at the beginning and end of the line, leading it to different rooms and connecting it to different equipment using different connectors.

Usage example

For example, it is necessary to carry out installation work in a multi-storey building. A cable assembly of the required estimated length is installed on each floor, with the required number of cables 1. Cable assemblies of various lengths cut from the building length (305 or 500 m) according to the project documentation can be used on each of the floors. Delivery of cables to the floors exactly in the form of an assembly makes it possible to prevent the formation of defects in the process of pulling and installation in the interfloor channel, which can occur if single cables 1 are pulled by a bundle, which is essential for maintaining the electrical parameters of the cables. The volume of the assembly is optimized due to the dense laying of cables in it, which, in turn, allows minimizing the volume occupied by cables in the interfloor channel.

Segments of the cable assembly rise to the upper floor along the interfloor channel and are fixed in it to the tray with cable clamps. One end of the cable assembly is laid along the trays in the basement up to the main cross-section of the building and then put into the equipment rack. The required stock of the assembly length is placed in the rack, then the outer shell 6 is removed using a cordel 7 to the length necessary to connect independent cables 1 to the equipment of various services (video recorder, Internet router, LAN switch, TV splitter, equipment for collecting parameters from sensors and etc.) Each cable assembly and each cable 1 included in it is marked according to the project.

The other end of the cable assembly on the corresponding floor is fixed in the interfloor channel. Further, the common sheath 6 is removed and the cables 1 are laid independently and in different directions along the cable routes of the floor. Each independent cable 1 is cut to the required length, taking into account the margin at the point of connection to the equipment.

In this case, the length of the entire cable assembly is calculated according to the design documentation for the length of the longest line laid to the most remote devices. Cables 1 are cut to the estimated length, terminated with various connectors provided by the equipment manufacturer, and the required supply of cables 1 is placed in cable routes.

After installation, all cables of assembly 1 are tested for compliance with category 5e.

Thus, the claimed technical solution makes it possible to provide a higher reliability of the electrical characteristics of the connection of the passive cable system for equipment due to the absence of intermediate connections. Also, the use of cable assembly allows you to reduce the time spent on laying cables compared to the time spent on laying four-pair single or bundled cables. Combining the assembly of independent four-pair cables allows them to be guaranteed to meet the category requirements of the standard for category 5e. Cutting off the construction lengths of the calculated lengths allows for more economical use of the cable assembly and minimizes unused cable assembly residues.

Claims (4)

1. Cable assembly for laying in data transmission networks, containing four-pair cables in a sheath of a thermoplastic composition, while the cables of the assembly are placed in a common outer sheath of thermoplastic composition, while under the outer sheath of both the assembly and its constituent four-pair cables along the entire length a breaking cordel was laid. 2. Cable assembly according to claim 1, characterized in that the sheath of four-pair cables and cable assembly is made of a thermoplastic composition with reduced smoke emission and does not emit corrosive products during combustion. 3. Cable assembly according to claim 1, characterized in that it additionally contains a filling module. 4. Cable assembly according to claim 1, characterized in that under the sheaths of four-pair cables and the cable assembly, a fastening winding is additionally placed.

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