DE3514334A1 - Building control system - Google Patents

Abstract

The building control system according to the invention contains a number of different serial information transmission systems which in each case are optimised for special transmission tasks, these information transmission systems being connected to one another via coupling points. The overall system can thus be implemented with little expenditure in spite of individual functions needing a high transmission rate. In the case of a multiplicity of control functions with low data transmission rate, occurring in a building, a simple system can be used and more elaborate information transmission systems with higher transmission capacity are only used for the complex functions with high data transmission rate. <IMAGE>

Description

description

The invention relates to a building control system having at least one serial information transmission system to which several participants are connected are.

Serial information transmission systems are for example off the magazine "Elektronic", 19, 1982, pages 88 to 96 known. In communication technology so-called "local networks" are used in which a A large number of participants can be linked to one another. This has in particular the advantage that over a single information transmission system an unrestricted Exchange of information between the connected participants is made possible. The whole system is very variable, since e.g. new participants do not have separate Lines must be connected to all other participants, but only a connection to the data bus is required. Such local networks can be via Coupling points also connected to a long-distance transmission network, in particular the postal network will. This means that information can also be transmitted over the spatially limited Area of the local network possible.

For example, from DE-OS 32 15 081 it is already known to use a serial transmission system in building control technology, which with the electrical installation network works as a transmission path. Thereby are through Modulation of a carrier frequency information telegrams are formed, which are then transmitted via the electrical installation network are transmitted. There is something special about such a system Advantage that no separate lines have to be provided.

However, the disadvantage is the limited transfer rate, which is used for larger Buildings or complex functions are not enough. For such tasks was therefore conventional wiring or a powerful bus system have been used up to now. Such a bus system is, however, both because of the necessary wiring for the bus in the entire building as well as because of the relatively expensive connection points For the large number of participants this is quite complex and is therefore only available for industrial users Plants into consideration.

The object of the invention is to implement a building control system in such a way that that the overall system has a high transfer rate despite individual functions need, can be implemented with little effort.

This object is achieved in that in the same Building control system several different serial information transmission systems are available that are each optimized for special transmission tasks and that these information transmission systems are connected to one another via coupling points are.

According to the invention, within a local network, as it is a building control system, not an information transfer system the maximum data transfer rate that occurs with the connected devices can cope, but there are several information transmission systems with each other coupled. This allows for the large number of control functions occurring in a building a simple system can be used with a low data transfer rate, e.g. with the electrical installation network as a transmission path.

Only for the complex functions with a high data transfer rate, which generally only affect a small part of the building and the participants, information transmission systems with higher transmission capacity are used, which inevitably requires your own cable laying and higher costs for the subscriber connection require. The total cost of the system, however, are significantly reduced. Via the coupling points between the individual information transmission systems becomes only a part of what is present on the individual information transmission systems Transmit information telegrams, e.g. the performance of the information transmission system with a lower data transfer rate.

The building control system advantageously contains several sub-information transmission systems, which are connected to a link information transmission system via coupling points are, the subscriber addresses are divided into a first category, the is only related to the associated sub-information transmission system and one second category, which is assigned to data transmission to participants outside of the Sub-information transmission system is related, and each coupling point contains a block that only allows information messages of the second category through. Because in practice the majority of the information telegrams are only within a subsystem must be transmitted, the transmission rate is significantly reduced by this measure. The address pool, i.e. the maximum number of addresses that can be specified, can also be become clear.

The lock can be realized in a simple manner that Addresses of the first and second category by preceding bits of the information telegram are differentiated and that the lock in the coupling points preceded by this Bits.

The coupling points can advantageously not only one logical lock dapstellen, but the sub-information transmission systems as well electrically (galvanically) decouple the linking information transmission system. This subdivision of the overall system means that the failure area remains in the event of a fault limited.

For information transfer limited to a space, it is expedient to use an infrared transmission can be selected.

As an information transmission system for areas with low transmission rates power lines are advantageously used over which a modulated carrier frequency is transmitted. It can also be used for information transmission systems with medium Transmission rates a bus system with a relatively low operating frequency and as an information transmission system a bus system with a relatively high frequency is used for higher transmission rates will.

The invention is explained in more detail below with reference to FIGS. 1 and 2.

Fig. 1 shows an overview diagram of a building control system at according to the present invention several different information transmission systems available. An essential part of the information transmission necessary in a building takes place via a system 1, for example with a coaxial cable or a twisted two-wire line can work as a transmission medium and e.g.

has a maximum transmission rate of 144 kbit / s. At these hereinafter referred to as the building bus information transmission system can, for example a control center 2, devices for switching, reporting and line protection 3 as well as devices be connected for measuring, controlling and regulating 4. One also to the building bus 1, connected function block "Security" labeled 5 can do all types the hazard notification, such as a break-in notification, Smoke alarm or water intrusion alarm include. A function block labeled 6 "EVU load management" comprises control devices, with which an energy supply company can influence the consumption behavior in the building can. The in the building installed meter can be read by the utility company in a control center. One labeled 8 Function block includes special tasks, such as those in hotels or nurseries appear. Those indicated by a function block 9 can also be connected Door systems (doorbell, door opener) and a timer 10, for example via a radio receiver is controlled by the time signal transmitter of the Bundespost.

Via an infrared coupling point 13, infrared transmission operated transmitter 14 or receiver 15, for example paging systems, to the Building bus 1 can be connected. This is a transition to wireless information transmission possible, but this is spatially due to the required optical connection between Infrared coupling unit 13 and transmitter 14 or receiver 15 is limited.

A coupling of the building bus 1 with the postal network is via both a telephone remote control 11 as well as a connection 12 to the ISDN network (Integrated Services digital network) possible. While using a telephone remote control control functions and query functions via the normal telephone network with low transmission speeds can be handled is a high speed transmission over the ISDN network possible.

The building bus 1 is connected to a second via a coupling point 16 Information transmission system 17 connected to the installation network as a transmission medium works and in the following referred to as "intrinsic house information system" will.

This has a much lower data transfer rate, However, it can be implemented with less effort, since the laying of a separate There is no need for a line in this area and access is easy. For many information transfer tasks In the building, however, this system will be sufficient, so that not the entire building with the building bus 1 must be supplied. The demarcation between the functions that are connected to the building bus 1 and those that are connected to the non-intrinsic House information system 17 are connected depends not only on the required Data transfer rate, but e.g.

including whether the building control system is being reinstalled is installed. In this case, laying a coaxial cable means for the Building bus 1, possibly together with the power line, does not require a lot of effort, while retrofitting a building control system in all cases, where the high transmission rate of building bus 1 is not absolutely necessary, the intrinsic house information system 17 will give preference.

The coupling point 16 is designed so that between building bus 1 and house control system 17 without an intrinsic line only for the other system in each case certain information is exchanged. On the one hand, this becomes the building bus 1 from the internal exchange of information on the self-contained house information system 17 relieved and on the other hand the in-house information system 17 without internal lines the full data traffic on the building bus that cannot be handled by this 1 not bothered.

The intrinsic house information system 17 can also be a Contain control center 18, which optionally via a telephone remote message 19 can be connected to the telephone network. Typical functions for the self-contained House information system 17 are the functions identified by function block 20 "Switching and reporting".

The functions "measuring, controlling, regulating" (function block 21), security (Function block 22), "EVU load management" (function block 23) come for the non-intrinsic House information system only in question if it is less complex and otherwise, as already discussed, handled via building bus 1. About the intrinsic House information system 17 can also transmit voice with an intercom 24 take place.

If the building control system were computer controlled, it would be the transmission rate required for a direct connection of the building bus 1 so high that the building bus 1 is very expensive. In this case, therefore, one will a third, tailored to the processing speed of the computer system Provide information transmission system 25.

For this purpose, e.g. the well-known and mentioned in the introduction is suitable Literature "Electronics", 19, 1982, pages 88 to 96 described Ethernet bus system. This is connected to the building bus 1 with a coupling point 26. To the bus system 25 can be a complex skin control system 27 and a house personal computer 28 can be connected.

Fig. 2 shows how to use the building control system spatially, for example could arrange. The structure of the building control system is based on the topology adapted to the building.

The overall system consists of several sub-information transmission systems 33 to 38 and a link information transmission system 29.

The link information transmission system 29 is of a type Riser led, if necessary also parallel to the riser of the electrical installation relocated.

The sub-information transmission systems 33 to 38 are on a floor-by-floor basis Via coupling points 30 to 32 to the link information transmission system 29 connected. Of course, this structure is only an example for the Basic idea to see the topology of the building control system to the building topology adapt.

The structure of the building control system shown in Fig. 2 has with an appropriate design of the coupling points 30 to 32 in particular also advantages regarding the required address set. Much of the information is namely in practice only within a sub-information transmission system 33 to 38 exchanged. Only some of the addresses, hereinafter referred to as "global addresses", must be available within the overall system. For example, any Sub-information transmission system 33 to 38 have an address pool related only to this from 0 to 256, while another 256 addresses (global addresses) to the sub-information transmission system Serve comprehensive exchange of information. If you now each coupling point 30 to 32 locks only the information provided with a global address passes through, each individual sub-information transmission system 33 to 38 only to the 256 own addresses and the 256 global addresses and the link information transmission system 29 can only be designed for 256 addresses. Without the subdivision described of the control system would require 6 x 256 addresses. With the reduction of the address list is associated with a significant simplification for the participants.

The coupling points 30 to 32 can be constructed simply because they for the signals to be transmitted only one by a criterion to be explained must contain a controlled lock, but otherwise this, if necessary with reinforcement, 1 implement. To differentiate between information telegrams that are only used for transmission are determined within a sub-information transmission system 33 to 38 and those that are to be transmitted across subsystems is more advantageous Way, the first bit of the address is used. In the numerical example shown, thus, for example, an information telegram through the coupling points 30 to 32 blocked if this first bit is "0" while it is allowed to pass unchanged, if this is "1". Such a lock can be implemented with very little effort.

Claims (8)

Claims 1. Building control system with at least one serial Information transmission system to which several participants are connected, thereby characterized in that in the same building control system several different serial Information transmission systems (1, 14, 15, 17, 25, 29, 33 to 38) are available, which are each optimized for special transmission tasks and that these information transmission systems are connected to one another via coupling points (13, 16, 26, 30 to 32). 2. Building control system according to claim 1, characterized in that that it contains several sub-information transmission systems (33 to 38) which over Coupling points (30 to 32) with a link information transmission system (29) are connected so that the subscriber addresses are divided into a first category, which relates only to the assigned sub-information transmission system (33 to 38) is and a second category that focuses on data transmission to participants outside of the assigned sub-information transmission system and that each coupling point (30 to 32) contains a block that only contains information telegrams of the second category lets through. 3. Building control system according to claim 2, characterized in that that addresses of the first and second category by preceding bits of the information telegram are differentiated and that the lock in the coupling points (30 to 32) on this addressing the preceding bits. 4. Building control system according to claim 2 or 3, characterized in that that the coupling points (30 to 32) not only represent a logical lock, but the sub-information transmission systems (32 to 38) and the link information transmission system (29) electrically (galvanically) decouple. 5. Building control system according to one of claims 1 to 4, characterized characterized in that for the information transfer limited to a space Infrared transmission (13 to 15) is used. 6. Building control system according to one of claims 1 to 5, characterized characterized in that as information transmission systems (17) for areas with low Transmission rate power lines are used over which a modulated carrier frequency is transmitted. 7. Building control system according to one of claims 1 to 6, characterized characterized in that as an information transmission system (1) for medium transmission rates a bus system with a relatively low operating frequency is used. 8. Building control system according to one of claims 1 to 7, characterized characterized in that as an information transmission system for higher transmission rates a bus system with a relatively high operating frequency is used.