RU2178909C1 - Automatic supervisory control system for building engineering systems - Google Patents

Abstract

FIELD: construction engineering; erecting intellectual buildings and structures. SUBSTANCE: automatic supervisory control system is made to comply with European Installation Bus (EIB) standard. It has at least two devices for controlling building engineering systems, supervisory control board, at least one power supply, and at least one connecting cable. Primary subsystem is connected to supervisory control board and/or to other subsystem of automatic supervisory control system, and/or to other automatic supervisory control system; two primary subsystems may be integrated to secondary subsystem by means of at least one connecting cable; secondary subsystem is connected to supervisory control board and/or other subsystem of automatic supervisory control system, and/or other automatic supervisory control system; maximum length of each cable incorporated in of structured cable system of building that serves as connecting cable and is measured from respective device controlling engineering systems of building to power supply does not exceed length specified by European Installation Bus standard. EFFECT: reduced cost, installation time, and maintenance charges of building. 7 cl, 3 dwg

Description

 The invention relates to the field of construction, in particular to the electrical equipment of residential and administrative buildings and structures, namely, buildings and structures equipped with an automated dispatch control system for building engineering systems (ASDU) or so-called “intelligent buildings”.

The electrical equipment of a modern building is a complex of complex engineering systems and includes devices designed to perform the following functions:
- lighting control;
- climate control (heating, ventilation and air conditioning systems);
- energy management;
- management of access control and notification systems;
- operational control, indication, monitoring;
- and etc.

 To control each of the above systems, a large number of cable connections and switching devices are used, which leads to an increased risk of fire. In addition, the integrated management of all systems is very difficult and requires additional complication of the cable system, such as coordinated management of heating and air conditioning systems. A cable system and a system of switches and regulators for coordinated control of the lighting system and the operation of blinds, curtains and shutters will be cumbersome and practically not rebuildable, so expanding or reorganizing such a system will be more difficult than dismantling the old and creating a new one. Moreover, only comprehensive control of the entire distribution energy network can be a condition for the reliable functioning of a modern building. Thus, the equipment of erected and reconstructed buildings with modern engineering systems without the use of modern control systems leads to a decrease in the reliability of their work and unjustified costs.

 To solve the above problems, they often use an automated dispatch system for building engineering systems, made, in particular, in accordance with the European Installation Bus (EIB) standard (the so-called "European installation bus"). The EIB system is one of the most promising developments in the field of HBES (Home & Building Electronic System - Electrical Systems of Buildings and Structures), it is a distributed open network system that meets all the requirements of automation of residential and office buildings and allows you to solve all the problems of building automation mentioned above. To control the engineering systems of the building, only one cable ("twisted pair") is used, connecting all devices, this significantly reduces the cost of cable connections. Power supply cables are not used to control devices, their purpose is only to supply energy to devices, which reduces the risk of fire and many times reduces installation time. In addition, the use of special software makes it easy to reorganize the network in case of changing requirements for its configuration.

 An automated dispatching system for building engineering systems in accordance with the European Installation Bus (EIB) standard is disclosed, in particular, in US Pat. No. 5839097 A (Robert Bosch GmbH), 11.17.98, 364/138 "Electrical home appliance" and includes in itself, devices for managing building engineering systems, a control room, a power source and a connecting cable. The technical solution described is taken as a prototype.

The main disadvantage of the prototype is the high cost and the long time to lay the cable infrastructure for the automated control system, despite the fact that the electrical parameters of the signals of many low-current control systems for engineering systems of the building are fully or with minor restrictions suitable for transmitting informational structured cable systems (SCS) designed for copper cable paths for voice and data transmission and built on cable type "unshielded pair". Thus, the American company Lucent Technologies developed a variant of the structured cabling system SYSTIMAX ^® , made with the possibility of connecting devices to control the building engineering systems to the SCS, however, this system does not provide the possibility of building an integrated automated dispatch system for building engineering systems in the sense defined by the EIB standard.

 Thus, the problem to which the claimed invention is directed, consists, firstly, in reducing the cost and time of laying the cable infrastructure for an automated dispatch system for building engineering systems, and secondly, in making it possible to easily move devices for managing building engineering systems , changes in the configuration and composition of systems, thirdly, in ensuring the possibility of simultaneously laying the entire cable infrastructure of the building and its subsequent maintenance with the power of a single set of tools and skills. The technical result achieved by the implementation of the claimed invention is to reduce the cost and time of installation of the dispatch control system of engineering systems of the building, as well as reduce the cost of operating the building.

 Implementation of an automated dispatching system for the engineering systems of a building, ensuring the achievement of the above technical result in all cases to which the requested amount of legal protection applies, can be characterized by the following set of features.

 The automated dispatching system for building engineering systems is made in accordance with the European Installation Bus standard and includes at least two devices for managing building building systems, a control room, at least one power source and at least one connecting cable. Moreover, according to the invention, at least two of the above-mentioned devices for controlling building engineering systems are connected by means of a connecting cable into at least one primary subsystem of an automated dispatch control system, which includes at least one power source. The primary subsystem is directly connected to the dispatch console and / or to another subsystem of the automated dispatch control system and / or to another automated dispatch control system. At least two primary subsystems can be combined with at least one connecting cable into a secondary subsystem of an automated dispatch control system associated with a control desk and / or with another subsystem of an automated dispatch control system and / or with another automated dispatch system management. Moreover, the maximum length of each cable of a structured cable system of a building used as a connecting cable, measured from the corresponding device for controlling the building engineering systems to the power source to which it is connected, does not exceed the length determined based on at least the requirements of the European standard Installation Bus to the characteristics of the corresponding connecting cable and the diameter of this cable of the structured building cable system.

 In addition, in the particular case of the invention, the system may include means for communicating with external information systems, and devices for controlling the building's engineering systems can be, in particular, devices for controlling the external and internal lighting of the building, devices for controlling the blinds and shutters , devices for controlling facilities for heating and air conditioning of a building, as well as devices for managing energy consumption and means of guarding alarms and access control.

 In addition, in the particular case of the invention, as the connecting cable for the primary subsystem of the automated supervisory control system, you can use the connecting cable of the horizontal subsystem of the structured cable system of the building, connected to the storey cross of the structured cable system.

 In addition, in the particular case of the invention, as the connecting cable for the secondary subsystem of the automated dispatch control system, you can use the connecting cable of the trunk subsystem of the structured cable system of the building, connected to the central cross-section of the structured cable system and connecting the horizontal subsystems and the communication center of the structured cable system.

 In addition, in the particular case of the invention, a connecting cable for the horizontal subsystem of the structured cable system of the building and a connecting cable of the trunk subsystem of the structured cable system of the building can be used as the connecting cable for the primary subsystem of the automated dispatch control system.

 The possibility of carrying out the invention, characterized by the above set of features, as well as the possibility of realizing the purpose of the invention can be confirmed by the description of the possible implementation of an automated dispatch control system of building engineering systems in accordance with the present invention, which is illustrated by graphic materials that depict the following.

 FIG. 1 is a schematic diagram of the construction of an ASDU in accordance with the described example of its implementation.

 FIG. 2,3 - possible configuration options for ADCS.

 System 1 has a distributed hierarchical structure, which makes it as flexible as possible. The lower hierarchical element of the system (see Fig. 1) is the primary subsystem - the line (EIB-Line) 2. The devices 3 for controlling the building engineering systems are, in particular, devices for controlling the external and internal lighting of the building, devices for controlling the blinds and shutters, devices for controlling the means for heating and air conditioning of the building, as well as devices for controlling energy consumption and means of guarding the alarm and access control, etc. As a connecting cable 4 for the primary systems 2 of the automated dispatch control system (ASDU) use a twisted pair cable of the horizontal subsystem of the structured building cable system (SCS). Moreover, the location of the power supply 5 line 2 in the structure of the system corresponds to the location of the storey cross 6 SCS.

 To connect devices 3 ADCS use special information sockets (IR) 7, for example, sockets of the type RJ-45, designed to connect devices of various low-current systems. Moreover, these IR 7, in contrast to IR 8 for connecting the corresponding devices 9 (computers, peripherals, telephones, etc.) to SCS, are located in various areas of the premises (on the ceiling, on the walls, at doorways). To one IR 7, not one device can be connected, as in the case of connecting a telephone or computer to IR 8, but several devices, for example, sensors connected to a loop. In addition, each IR 7 of an automated dispatch control system combined with SCS in accordance with the claimed invention is universal, that is, if necessary, you can disconnect from it, for example, a loop of temperature sensors, make a switching cord switch on the central or floor cross-section 6 and connect to the same IR, a surveillance video camera, in the same way IR ASDU can be converted into computer or telephone HP and used in the structure of SCS.

 The connection of the ADCS devices is carried out according to the topology "line", "star", "tree" or in any combination, only the connection of the line into the "ring" is unacceptable. Thus, each component of the system can interact with any other component or group.

 Each line 2 can contain no more than sixty-four devices 3 for managing building engineering systems, while the limitation on the number of devices in a line is caused by the characteristics of the power supply of the EIB bus, and the distance from each device 3 for controlling building engineering systems connected to line 2 to the nearest power supply 5 must be limited to 90 meters, due to the use of connecting cable 4 of the horizontal subsystem SCS, which has a recommended diameter of 0.51 mm, while The cable as the calculated diameter of the connecting cable in accordance with the EIB standard is 0.80 mm. With the cable length limit mentioned above, the voltage drop across devices located at the far end of the cable will be within the limits allowed by the EIB standard. The standard length of the connecting cable of the horizontal SCS subsystem, measured from the floor cross, is 100 m, which makes it possible to almost fully use the connecting cable of the horizontal SCS subsystem in the automated control system without the use of additional power supplies 5.

 The number of devices in the line can be increased to two hundred and fifty-six (which corresponds to the number of physical addresses for each line) using additional power supplies 5 and special devices - repeaters 10 (see Fig. 2,3), transparent to messages, but galvanically separated line to segments.

 Up to twelve lines 2 can be combined into a secondary subsystem - segment (EIB Area) 11, by means of special devices - linear couplers (Line Coupler) 12, the structural arrangement of which corresponds to the location of the power supply line 5 and the floor cross-section SKS. As the connecting cable for the secondary subsystem 11 of the automated control system, use the connecting cable 13 of the trunk subsystem of the structured cable system of the building, connected to the central cross-section 14 SCS and connecting the horizontal subsystems and the communication center 15. The location of the control desk 16 in the system structure corresponds to the location of the central cross-section 14 SCS , and as a means of communication with other systems of supervisory control, a special basic connector (Backbone coupler) 17 is used. To communicate with external information systems (Internet and so on. n.) using means included in the communication center 15 structured cabling system.

 The described example of the automated control system of the engineering systems of the building proves the possibility of realizing the purpose of the invention and achieving the above technical result, but it does not exhaust all the possibilities of carrying out the invention, characterized by the combination of features given in the claims.

Claims (7)

 1. An automated system for supervising the engineering systems of a building, comprising at least two devices for controlling the engineering systems of the building, a control desk, at least one connecting cable, characterized in that at least two of the said control devices The building's engineering systems are connected by means of a connecting cable to at least one primary subsystem of the automated dispatch control system associated with the control desk and / or another subsystem of the said automated dispatch control system, wherein at least two primary subsystems can be combined with at least one connecting cable into a secondary subsystem of the automated dispatch control system associated with the dispatch console and / or with another subsystem of the automated system supervisory control, while at least part of the above-mentioned connecting cables use information structured cables abelnoy system of the building, in addition, the automated dispatch control system may be associated with other management systems.  2. The system according to p. 1, characterized in that it contains means for communication with external information systems, and devices for controlling the engineering systems of the building are, in particular, devices for controlling the external and internal lighting of the building, devices for controlling the blinds and shutters, devices for controlling facilities for heating and conditioning buildings, devices for managing energy consumption and means of burglar alarms and access control.  3. The system according to claim 1 or 2, characterized in that the connecting cable for the specified primary subsystem uses the connecting cable of the horizontal subsystem of the information structured cable system of the building, connected to the storey cross of the information structured cable system of the building.  4. The system according to one of paragraphs. 1-3, characterized in that as the connecting cable for the specified secondary subsystem use the connecting cable of the trunk subsystem of the information structured cable system of the building, connected to the central cross of the information structured cable system of the building and connecting the horizontal subsystems and the communication center of the information structured cable system of the building.  5. The system according to claim 1 or 2, characterized in that the connecting cable for the specified primary subsystem uses the connecting cable of the horizontal subsystem of the information structured cable system of the building and the connecting cable of the trunk subsystem of the information structured cable system of the building.  6. The system according to one of paragraphs. 3-5, characterized in that it includes at least one power source, and the maximum length of each connecting cable of the structured cable system of the building, measured from the corresponding device for controlling the engineering systems of the building to the power source to which it is connected, is limited and with the specified cable length restriction, the voltage drop across devices located at the far end of the cable is within acceptable limits.  7. The system according to one of paragraphs. 1-6, characterized in that the automated dispatch system is connected to external information systems, in particular the Internet.

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