RU2145657C1 - Multifunctional cable system of building, process of formation of this system for constructed or renovated building, process of rise of functional durability and reliability of this system - Google Patents

Abstract

FIELD: construction of multistory buildings. SUBSTANCE: proposed multifunctional cable system includes central distributor of building with points of connection of main cable of complex of buildings and main cables of building pulled in direction from central distributor to each story of building. Each story of building carries story distributors with connection to each of them of proper main cable of building and story horizontal cable pulled through rooms of this story. Each main cable of building and each horizontal cable presents set of individual cables formed as common group that includes power cable for power supply network of building and cables based on twisted pair and fiber-optical cables for communication systems of building. Each story distributor includes distribution cabinet for connection of cables based on twisted pair and fiber-optical cables of corresponding main cable of building and story horizontal cable and distribution cabinet for connection of power cables of corresponding main cable of building and story horizontal cable spaced apart. Working positions each including at least one socket coupled to power cable and at least one socket connected to proper cable of communication systems of building are arranged in each room of story at preset distance one from another and in number proportional to area of rooms. EFFECT: widened functional capabilities of cable system of building, simplified process of installation and increased functional reliability and durability of system. 9 cl, 4 dwg

Description

 The invention relates to the field of construction and reconstruction of multi-storey buildings and relates to the construction of a multifunctional cable system for this building, which is mounted in the building at the stage of capital construction or major reconstruction of the old building. At the same time, a multifunctional cable system is understood to mean such an open system, which, having a structured construction principle, would provide for the possibility of implementing on its basis any low-current applied monitoring and control systems, local computer, telephone networks and special networks such as fire safety.

 The main application of the invention relates to intelligent buildings. The term “intelligent building,” as defined by the Washington Institute of Intelligent Building, refers to “a building that provides a productive and efficient use of the workspace by optimizing its four core elements,” namely, structure, systems, services, and management, as well as the relationships between them. Under the structure is meant the provision of the building with a common cable platform for power consumers, telecommunications, automation functions of the building as a whole and its individual services. A common cable platform of a building is understood to mean a multifunctional cable network installed in a building at the stage of capital construction or capital reconstruction, which implements the power supply of power equipment, low-voltage systems of various kinds, and automation of the building and the building’s units as a whole. Therefore, the term “multifunctional cable system of a building” means a complex cable network installed in a building for modern and future high-tech systems and services, which is a set of cable and connecting components integrated into the building’s architecture integrated into the building’s architecture, integrated into the building as an integral part of the building using specific engineering design rules.

 Currently, as part of the established practice of designing and installing a multi-story building, the principle of separate design of individual cable systems in the building is being implemented. So, the power cable network for the power supply of the building life support services, developed at the design stage of the building, is provided as a necessary component of the building and therefore is included in the set of documents for the building design. As for low-current systems, especially the local area network, the latter, as a rule, are not included in the main set of drawings. At the same time, a project for cable sewers, a power cable network is developed in a separate section of the project, a telephone cable network is developed in another section of the project, and a local area network system is developed in the third section of the project, while all these sections of the project are not interconnected, since during construction and the creation of networks, each of them is guided by its own specific rules, different from the rules for constructing other systems. Today, the installation of these low-current systems is carried out in the building after putting it into operation in accordance with the functional purpose of the building and in accordance with the specific task that this particular applied low-current system must solve. In accordance with the task, targeted installation and cabling is carried out to form a private network designed exclusively for this specific low-current system. When changing the task assigned to the system, the network itself changes, since the latter is determined not only by the task itself, but also by the equipment used to solve this problem. Complicating the task or transferring it to a higher technological level leads to the fact that the previously built network must be replaced by new ones, and old equipment replaced by new ones that meet the new task. This leads to the need to develop a new network plan and the cost of its installation and cabling.

 Practice shows that the life cycle of a particular telecommunication system is 3-5 years, office automation systems change every 2-3 years, and building automation systems every 5-7 years. Naturally, if we follow the described practice of building cable systems, in order to maintain a sufficiently high level of functionality of any system, it is necessary to replace the networks, that is, the plan for laying communications, every 2-5 years, which naturally increases the cost of maintaining services and the building itself. It should be borne in mind that modern cables used both for power networks and for low-current networks have a service life comparable to the service life of the building, at the same time, as previously indicated, the equipment itself connected to these cables 3-5 years has time to become outdated and requires replacement with a more functional one and meeting modern tasks and requirements.

 To meet the growing demand for telecommunication cable systems that could support a variety of applications, manufacturers created cable systems that supported voice and specific data applications. Despite the emergence of such trends, end users were still forced to choose among many cable systems from various manufacturers. In some cases, compatibility was possible, in others it was not. The lack of uniformity and versatility forced the industry to develop standards that guarantee compatibility between products from different manufacturers. To meet this requirement, in 1985 the Electronic Industry Association (EIA) and the Telecommunications Industry Association (TIA) created a family of telecommunication cable system standards.

 For example, the EIA / TIA-569 standard for telecommunication routes and rooms provides recommendations on the creation, within certain rules, of structured low-voltage cable networks installed in commercial buildings in accordance with the growing needs of people working in them. The standard is designed to regulate requirements for telecommunications routes and spaces that support a wide variety of telecommunications services (and not just voice and data). These requirements are aimed at maintaining a telecommunication environment in which equipment of various manufacturers and various types of components operate.

 This standard defines a new principle for the construction of cable networks, which are called structured ones, a feature of which is that, in accordance with the architecture of a multi-storey building, a universal low-current network is constructed, the peculiarity of which is that it is performed not for a specific application, but for a floor plan by floors. This allows you to connect the required equipment in any rooms of the floor to the individual network cables, and make the switching in floor-mounted cross cabinets. The advantages of such a network are that in the event of failure of a separate cable section, it is sufficient to transfer and connect the equipment previously connected to this section to another cable section or to another cable with a commutation on the panel of the crossover cabinet.

 Known structured cable system of a building, mainly multi-story, including a central distributor of the building, having mechanical termination points with the main cable of the building complex and the main cables of the building extending in the direction from the central distributor to each floor of the building, floor distributors, each of which has points of mechanical termination with the corresponding building trunk cable and at least one floor horizontal cable on-floor cable subsystem, stretched into the premises of this floor, as well as workplaces, including sockets for connecting passive and active equipment of the building connected to each floor horizontal cable (see EIA / TIA STANDARD "Commercial Building Standard for Telecommunications Pathways and Spaces" EIA / TIA-569, October, 1990, Electronic Industries Association, Engineering department, p. 8, 52, copies of pages 8 and 52 are attached).

 The disadvantage of this building’s cable system is that it does not provide for the possibility of combining the principle of building and laying a power cable system and low-voltage cable systems into a single system, subject to the general rule for its construction. The same feature is retained in the sequential installation of power cables first by one service department, and then low-voltage cables by other services. Moreover, the installation of the latter is often carried out already during the operation of the building or during the period when the building was built and all the finishing work was done. In this case, in the absence of embedded elements, for example between the rooms of the floor, it is necessary to perform additional work on the formation of passages for cables, which naturally is not always possible without violating the design of the room. Practice shows that the formation of the cable laying path is the most expensive stage of network installation, as it includes not only, for example, work on making holes for embedded elements, but also restoration and repair work.

 The present invention is aimed at solving the technical problem of creating a multifunctional cable system of a multi-storey building, which is mounted as an integral functional-universal component of the building itself and includes a combination of cables, both power and low-current, for various applications. The technical result achieved in this case is to expand the functionality of the building’s cable system, simplify the installation process and increase the operational reliability and durability of the building’s cable system, approaching the service life of the building itself.

 The indicated technical result for the device is achieved in that in a multifunctional cable system of a building, mainly a multi-storey building, including a central distributor of a building having mechanical termination points with a main cable of a building complex and main building cables extending in a direction from the central distributor to each floor of the building, floor distributors, each of which has mechanical termination points with the corresponding building trunk cable and with at least one floor horizontal cable of the horizontal cable subsystem of the floor, stretched into the premises of this floor, as well as workplaces, including sockets connected to each floor horizontal cable for connecting passive and active equipment of the building, each main cable of the building, stretched along vertical shafts or on interfloor embedded elements of a building in the direction from the central distributor to the corresponding floor of the building, and each horizontal cable, p drawn through embedded elements into all rooms of this floor in accordance with the floor plan of the floor, is a set of separate cables formed into a common group, which includes at least one power cable for the building’s electrical supply network and cables for low-voltage networks of the building based on twisted pair cable and fiber optic cables, each floor distributor includes a cross-section cabinet separated from each other with points of mechanical termination of twisted-based cables pairs and fiber optic cables of the corresponding trunk cable of the building and the floor horizontal cable and a distribution cabinet with points for mechanical termination of power cables of the corresponding trunk cable of the building and the floor horizontal cable, while the length of the floor horizontal cable includes workplaces, each of which includes, at least one outlet connected to the power cable, and at least one outlet connected to the corresponding cable of the network of low-voltage building systems, located in each room of the floor at a given distance from each other and in an amount proportional to the area of the room.

 Each workplace includes at least one outlet connected with a power cable, and sockets of a network of low-current building systems, the number of which is equal to or greater than the number of cables of a network of low-current building systems, located in a set of cables of a floor horizontal cable.

 At least one floor horizontal cable is configured to connect to a remote I / O controller, to which remote I / O modules are connected by a loop.

 The system can be equipped with redundant trunk cables of the building, stretched in the direction from the central distributor or from the additional distributor connected to the latter to each floor of the building, redundant floor distributors, each of which has mechanical termination points with the corresponding redundant trunk cable of the building and with a horizontal floor cable horizontal cable subsystem of the floor. Moreover, the central distributor is configured to disconnect at least one building trunk cable and transfer its function to the backup trunk cable.

 The set of separate cables formed into a general group is laid along the route in a tray, divided into a section for laying power cables and into a section for laying cables of low-voltage systems of a building, or a group of separate cables formed into a general group is laid along a strip in a tray, divided into sections for laying the power cable, on the section for laying cables of some networks of low-current building systems and on the section for laying cables of special networks of low-current building systems.

 The specified technical result for the first method is achieved by the fact that in the method of forming a multifunctional cable system for a building under construction or being restored, mainly a multi-storey building, namely, in the direction from the central distributor of the building, the building main cables are laid and connected to the mechanical termination points of the central distributor and points of mechanical termination of the corresponding floor distributors, on each floor a set of horizontal floor cables of the horizontal cable subsystem by pulling them through the floor premises and connecting to the points of mechanical termination of the corresponding floor distributor, workplaces are formed in the rooms by connecting sockets for each passive and active building equipment to each floor horizontal cable; each cable in the form of a set, which includes for the building’s electrical power network, at At least one power cable and for networks of low-current systems of the building, cables based on twisted pair and fiber optic cables install a floor distributor on each floor in the form of a staggered cross cabinet and a floor distribution cabinet spaced apart from each other, the installation of these cables is carried out in accordance with building plan and floor plans of the floors, while these cables are laid in sectional trays with the separation of the power cable from the cables for networks of low-current building systems, after implementation laying the main cable of the building in the vertical shaft of the building or on the interfloor embedded elements and on each floor of the floor horizontal cables through the embedded elements in all rooms of the floor, respectively, connect the power cable to the corresponding points of mechanical termination of the floor distributor and connect the cables based on twisted pair and fiber optic cables to the corresponding points of mechanical termination of the floor cross-section cabinet, and then carried out in the premises of the at the same time, at least one outlet connected to the power cable and at least one outlet for each of the network cables of the low-current building system is installed for each workstation.

 The specified technical result for the second method is achieved by the fact that in the method of increasing the operational durability and reliability of the multifunctional cable system of a building, mainly a building under construction or being renovated, the building cables of the building are laid and connected to points in the direction from the central distributor of the building mechanical termination of the central distributor and the mechanical termination points of the corresponding floor distribution owners, on each floor they lay horizontal floor cables of the horizontal cable subsystem by pulling them through the floor premises and connect to the points of mechanical termination of the corresponding floor distributor, workplaces are formed in the rooms by connecting outlets to each floor horizontal cable for connecting passive and active building equipment, and then they control the connections to the points of mechanical termination and control the formed networks building system to change the parameters of the tested signals transmitted through these networks or their individual sections, when laying cables, they simultaneously install separate buildings structured according to a single infrastructure in accordance with the building plan and floor plans on the floors of the electrical power network and networks of low-current building systems , for laying these cables, each cable is formed in the form of a set that includes at least one force for the building’s electrical power network A new cable and for networks of low-current building systems, twisted pair cables and fiber optic cables use a floor distributor on each floor in the form of a floor cross-over cabinet and a floor distribution cabinet spaced apart from each other, to each of which cables of the corresponding networks are connected, when In this, the laying of trunk and floor cables is carried out in building structures that are closed to access, then in the premises of each floor workplaces are formed, for each work at least one outlet connected to the power cable and at least one outlet for each network cable of the low-current building system are installed, while the functions of one network cable of the low-current building systems are transferred to another unused cable from these networks patch cords in patch panels of floor-mounted cross cabinets.

 The indicated features for each of the objects are significant and interconnected with the formation of a stable set of essential features sufficient to obtain the desired technical result.

 The present invention is illustrated by a specific example, which, however, is not the only possible, but clearly demonstrates the possibility of achieving each set of essential features of the required technical result.

In FIG. 1 - a diagram of the interfloor cabling in a multi-story building;
in FIG. 2 - scheme of laying power cables on the floor;
in FIG. 3 is a diagram of the cabling for low-current systems on the floor;
in FIG. 4 is a diagram of the cabling of a multifunctional cable system on the floor, isometric view.

 The multifunctional cable system for a multi-storey building includes a central distributor 1 of the building (Fig. 1) located in a separate room, such as the basement of the building, and having mechanical termination points with the main cable 2 of the complex of buildings and the main main cables 3, 4 of the building, stretched in the direction from the central distributor 1 to each floor of the building. On each floor of the building there is a floor distributor 5 having mechanical termination points with the corresponding main trunk cable 3 or 4 of the building and at least one floor horizontal cable 6 of the horizontal cable floor subsystem. Floor horizontal cable 6 extends into the premises of this floor. Along the horizontal cable 6, workplaces 7 are mounted, including sockets connected to each floor horizontal cable for connecting passive and active building equipment.

 Each main cable 3 or 4 of the building, stretched along the vertical shafts 8 or along the interfloor embedded elements 9 of the building in the direction from the central distributor 1 to the corresponding floor of the building, and each horizontal cable 6, drawn through the embedded elements 10 into all rooms of this floor in accordance with the floor plan of this floor, is a set of individual cables formed into a common group. Each kit includes at least one power cable 11 for the building’s electrical power network, and twisted pair cables 12 and fiber optic cables 13 for low-current networks of the building.

 Each floor distributor includes a cross-section cabinet 14 spaced apart from each other with mechanical termination points for cables 12 based on twisted pair and fiber optic cables 13 of the corresponding main trunk cable 3 or 4 of the building and floor horizontal cable 6 and a distribution cabinet 15 with mechanical termination points power cables of the corresponding main trunk cable of the building and floor horizontal cable.

 The length of the horizontal floor cable workplaces 7, each of which includes at least one outlet 16 connected to the power cable 11, and at least one outlet 17 connected to the corresponding cable 12 or 13 of the network of low-voltage systems buildings are located in each room of the floor at a given distance from each other and in an amount proportional to the area of the room.

 Moreover, each workstation 7 may include at least one outlet 16 connected to the power cable, and several outlets 17 of the networks of low-current building systems, the number of which is equal to or greater than the number of cables of the networks of low-current building systems located in the set of floor cables horizontal cable 6. The increase in the number of jobs for connecting additional equipment is carried out, for example, by connecting additional cable segments to the ends of horizontal cables or laying from cross ovogo cabinet further horizontal cable trays and for mortgages.

 In FIG. 2 shows a floor plan of a multi-storey building, which separately shows a structured horizontal power cable subsystem laid in accordance with the floor plan, and in FIG. Figure 3 presents a plan of the same floor, which separately shows a structured horizontal cable subsystem of low-current building systems, laid in accordance with the plan of this floor. And in FIG. 4 isometric view shows a multi-storey cable subsystem of a multi-functional building cable system showing the combination of power and low-current floor subsystems into a single structured subsystem laid out according to a single plan in accordance with the floor plan. The multifunctional cable system according to the invention shown in FIG. 1 and 4, it allows you to connect the required equipment in any rooms of the floor to the individual network cables, and switch in floor-mounted cross cabinets. The advantages of such a network are that in the event of failure of a separate cable section, it is sufficient to transfer and connect the equipment previously connected to this section to another cable section or to another cable with a commutation on the panel of the crossover cabinet.

 The multifunctional cable system for a multi-storey building is equipped with redundant trunk cables of the building 18 and 19, stretched in the direction from the central distributor 1 or from the additional distributor 20 connected to the latter to each floor of the building, as well as redundant floor distributors 21, each of which has mechanical termination points with corresponding redundant trunk cable of the building and with floor horizontal cable 6 of the horizontal cable subsystem of the floor. In this case, the central distributor is configured to disconnect at least one trunk cable of the building, for example, indicated by 3, and transfer its function to the backup trunk cable, for example, indicated by 18.

 This allows for failure of the main trunk cable or for other reasons to transfer its function to a backup trunk cable that was not previously used, and to make the corresponding connection switching in the corresponding floor distributor. The use of cable redundancy allows not only repair but also preventive maintenance, while maintaining the operability of the cable system as a whole and without interrupting its operation modes.

 The set of individual cables formed into a general group is laid along the route in the tray 22, which is divided into a section for laying the power cable and a section for laying cables in the networks of low-current building systems. Or a set of separate cables formed into a general group is laid along the route in a tray divided into a section for laying power cables, a section for laying cables of some networks of low-current building systems and a section for laying cables of special networks of low-current building systems, for example, fire alarm systems or building security.

 At least one floor horizontal cable is configured to connect to a remote I / O controller, to which remote I / O modules are connected by a loop.

 The installation of this multifunctional cable system in a building under construction or a multi-storey building subject to major restoration allows you to transfer this building into the category of intelligent buildings, the peculiarity of which is that regardless of the application of this building or the shift of its occupied services and offices, it becomes possible to mount any applied low-current systems and applications, which allows you to transfer a building or its services without changing the cable system from one application to another st.

 To form a multifunctional cable system for a multi-storey building under construction or under restoration, the main cables 3, 4 of the building are laid in the direction from the central distributor of the building and connected to the mechanical termination points of the central distributor 1 and the mechanical termination points of the corresponding floor distributors 5. Floor floors are laid horizontal cables 6 horizontal cable subsystem by pulling them through the premises floor and the connection to the points of mechanical termination of the corresponding floor distributor 5. Before laying these cables, each cable is formed in the form of a set that includes at least one power cable for the building’s electrical power network and twisted-based cables for low-voltage building systems pairs and fiber optic cables.

 A floor distributor 5 is installed on each floor in the form of a floor crossover cabinet and a floor distribution cabinet spaced apart from each other, and the installation of these cables is carried out in accordance with the building plan and floor plans in section trays with the power cable being separated from the cables for networks of low-voltage building systems .

 After laying the main cable of the building in the vertical shaft of the building or in the interfloor embedded elements and on each floor of the floor horizontal cables, through the embedded elements in all rooms of the floor, respectively, connect the power cable 11 to the corresponding points of mechanical termination of the floor distributor and connect the cables 12 based on twisted pair and fiber optic cables 13 to the corresponding points of the mechanical termination of the floor cross-section cabinet 14.

 Then, workplaces 7 are formed in the premises, and for each workplace, at least one outlet connected to the power cable and at least one outlet for each of the network cables of the low-current building system is installed.

 The operational durability and reliability of this cable system of a multi-storey building under construction or being restored is a consequence of the implementation of the previously mentioned method of formation and is determined by the fact that when laying cables, they simultaneously install separate buildings structured according to a single infrastructure in accordance with the building plan and floor plans of the electric power network and networks of low-current building systems.

 To lay these cables, each cable is formed in the form of a set that includes at least one power cable for the building’s electrical supply network and twisted pair cables and fiber optic cables for low-current networks of the building. At the same time, the laying of trunk and floor cables is carried out in building structures that are closed to access.

 On each floor, a floor distributor is used in the form of a floor crossover cabinet and a floor distribution cabinet separated from each other, to each of which the cables of the corresponding networks are connected, while the transfer of the functions of one cable of the networks of low-current systems of the building to another unused cable from these networks is carried out by switching cords in patch panels of floor-mounted cross cabinets.

 At the last stage, control over the formed networks of the building’s cable system is carried out by changing the parameters of the tested signals transmitted through these networks or their individual sections.

 The present invention allows to expand the functionality of the cable system of the building, to simplify the process of its installation and to increase the operational reliability and durability of the cable system of the building, making them at least equal to the service life of the cable itself.

Claims (9)

 1. A multi-functional cable system of a building, mainly a multi-storey building, including a central distributor of a building, having mechanical termination points with a main cable of a building complex and main building cables extending in the direction from the central distributor to each floor of the building, floor distributors, each of which has points mechanical termination with an appropriate trunk cable of the building and at least one floor horizontal cable of the horizon cable subsystem of the floor, stretched into the premises of this floor, as well as workplaces, including sockets connected to each floor horizontal cable for connecting passive and active equipment of the building, characterized in that each main cable of the building, stretched along vertical shafts or along floors embedded elements of the building in the direction from the central distributor to the corresponding floor of the building, and each horizontal cable drawn through the embedded elements into all The premises of this floor in accordance with the floor plan of the floor are a set of separate cables formed in the general group, which includes at least one power cable for the building’s electrical supply network and twisted pair and fiber cables for low-voltage networks of the building -optical cables, each floor distributor includes a cross-section cabinet separated from each other with points of mechanical termination of cables based on twisted pair cable and fiber-optic cables, respectively a building main cable and a horizontal floor cable and a distribution cabinet with points for mechanical termination of power cables of the corresponding building main cable and a horizontal floor cable, while the length of the horizontal floor cable includes workplaces, each of which includes at least one outlet, connected to the power cable, and at least one outlet connected to the corresponding cable of the network of low-current systems of the building, located in each room on the floor th distance from each other and in an amount proportional to the area of the room.  2. The system according to claim 1, characterized in that each workplace includes at least one outlet connected to a power cable, and sockets of a network of low-current building systems, the number of which is equal to or greater than the number of cables of a network of low-current building systems, located in the cable set floor horizontal cable.  3. The system according to claim 1, characterized in that at least one floor horizontal cable is configured to connect to a remote I / O controller, to which remote I / O modules are connected by a loop.  4. The system according to claim 1, characterized in that it is equipped with redundant trunk cables of the building, stretched in the direction from the central distributor or from the additional distributor connected to the latter to each floor of the building, redundant floor distributors, each of which has mechanical termination points with the corresponding redundant trunk cable of the building and with a floor horizontal cable of the horizontal cable subsystem of the floor.  5. The system according to claim 4, characterized in that the central distributor is configured to disconnect at least one building trunk cable and transfer its function to the backup trunk cable.  6. The system according to claim 1, characterized in that the set of individual cables formed in a common group is laid along the route of laying in a tray, divided into a section for laying the power cable and a section for laying cables of networks of low-current building systems.  7. The system according to claim 1, characterized in that the set of individual cables formed in a common group is laid along the route of laying in a tray, divided into a section for laying power cables, a section for laying cables of some networks of low-current building systems and sections for laying cables special networks of low-current building systems.  8. The method of forming a multifunctional cable system for a building under construction or being restored, mainly a multi-storey building, which consists in laying the building main cables in the direction from the building’s central distributor and connecting them to the mechanical termination points of the central distributor and the mechanical termination points of the corresponding floor distributors, each floor carry out the laying of floor horizontal cables of the horizontal cable subsystem by pulling them through the floor premises and connecting to the points of mechanical termination of the corresponding floor distributor, workplaces are formed in the premises by connecting sockets for each pass floor and active building equipment to each floor horizontal cable, characterized in that each cable is formed before laying these cables in the form of a kit that includes at least one power cable for a building’s electrical power network and for low-voltage systems cables of the building, based on twisted pair cable and fiber optic cables, install a floor distributor on each floor in the form of a floor-mounted crossover cabinet and a floor distribution cabinet spaced apart, the installation of these cables is carried out in accordance with the building plan and floor plans of the floors, while these cables are laid in sectional trays with the separation of the power cable from the cables for networks of low-current building systems, after laying the main cable of the building vertically the building’s mine or on interfloor embedded elements and on each floor of horizontal floor cables through embedded elements in all floors of the floor, respectively, connect the power cable to the corresponding points of mechanical termination of the floor distributor and connect cables based on twisted pair and fiber optic cables to the corresponding points of mechanical termination storey cross cabinet, and then carry out the formation of premises in the premises, while for each workplace at least one outlet connected to the power cable and at least one outlet for each of the network cables of the low-current building system are installed.  9. A way to increase the operational durability and reliability of the multi-functional cable system of a building, mainly a building under construction or being restored, which consists in laying the building main cables in the direction from the central distributor and connecting them to the mechanical termination points of the central distributor and the mechanical termination points of the corresponding floor distributors, on each floor they carry out laying of floor horizontal cables the horizontal cable subsystem by pulling them through the premises of the floor and connecting to the points of mechanical termination of the corresponding floor distributor, workplaces are formed in the premises by connecting sockets to each floor horizontal cable to connect passive and active equipment of the building, and then control the connections to the points of mechanical termination and control of the formed networks of the building's cable system by changing the parameters of the tested signals, skipping on these networks or in their individual sections, characterized in that when laying the cables, they simultaneously install separate buildings structured according to a single infrastructure in accordance with the building plan and floor plans on the floors of the power supply network and networks of low-current building systems, for laying these cables the formation of each cable in the form of a set that includes at least one power cable for the building’s electrical power network and cables based on the low-current networks of the building A twisted pair cable and fiber optic cables use a floor distributor on each floor in the form of a floor crossover cabinet and a floor distribution cabinet spaced apart from each other, each of which is connected to the cables of the corresponding networks, while the laying of trunk and floor cables is carried out in a closed access to the building structure, then in the premises of each floor workplaces are formed, at least one outlet is installed for each workplace, associated with the power cable, and at least one outlet for each cable of the networks of the low-current building system, while transferring the functions of one cable of the networks of the low-current building systems to another unused cable from these networks is carried out by switching cords in the connection panels of the floor cross-section cabinets.

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