WO2001065324A1

WO2001065324A1 - Method and device for processing data of an automation system for a building system engineering installation

Info

Publication number: WO2001065324A1
Application number: PCT/DE2001/000739
Authority: WO
Inventors: Gunther Clade; Josef Lermer; Georg Luber
Original assignee: Siemens Aktiengesellschaft
Priority date: 2000-03-01
Filing date: 2001-02-28
Publication date: 2001-09-07
Also published as: AU4227501A

Abstract

The invention relates to a method and device for processing data of an automation system for a building system engineering installation. According to the invention, the data of the automation system and data of system nodes (14, 15) of the installation are interlinked and assigned to one another. To this end, the system nodes (14, 15) connected to the automation system are detected, said system nodes (14, 15) are interlinked by means of data that can be retrieved from data memories (1, 2, 3) and by using system rules for assigning the system nodes, and the system nodes (14, 15) that are assigned to one another communicate with one another via the automation system. The system nodes (14, 15) that are automatically detected beforehand are assigned and linked, in particular, by an installation device (12) which is connected to the automation system, contains all communications rules, address and linking data, and which automatically assigns the system nodes (14, 15).

Description

description

Method and device for processing. Automation system data for a GeJoaudesystem- technik system

The present invention relates to a method and apparatus for processing data of an automation system ^¬ Nasr for a plant of the Gebaudesystemtechmk. the 0- berbegπffen of independent claims 1 and 10.

Such methods and devices are suitable for the in stallation ^¬ various actuators and sensors within a Geoauαes by a bus system, for example, Europe / eit used ΞIBA bus (European Installation Bus As- sociation). In the case of such methods and devices, it is known to record data of the automation system and the system subscribers of the system by means of a detection device for processing parameters of an automation system and m to a “support device”

Preparation data and information to be supported for linking and assigning the individual system participants of the system, ie for installing and setting up the system. When installing the control technology of a building or the corresponding system participants of the building system, the installer uses conventional methods and devices for processing and assigning the individual system participants to each other on the basis of a corresponding installation plan and cables the electrical installation according to this plan.

Furthermore, it is known to implement a building system technology based on an automation system by means of an automation system designed as a bus system and to program the individual system participants and the bus system according to a predetermined installation plan. For this it is necessary to Assign participants, for example, group and device addresses as well as communication protocols so that they can communicate with each other and operate or act according to your assignment and your application.

Furthermore, it is known, for example from DE 198 57 649 AI, to provide a distributed control system with system components, the individual system components transmitting data via a communication channel to a configuration device

] n transmitted. The component-specific data of the individual system components are assigned to the configured components and a physical address is assigned in each case on the basis of a system pian existing within the designing arrangement in the manner of a pipe and installation diagram. The projection and system plan existing within the project planning facility is thus based on the existing system components.

DE 195 39 480 discloses a method for the automated generation of control structures, with which a specific control task is to be implemented using a data processing device and an expert system stored therein. On the basis of the I&C structures stored in databases, the planning of such an I&C structure is simplified by defining and assigning fixed I&C interfaces. Finally, a process automation system is known from DE 196 27 464 AI, where automation devices on a process-related automation level via communication connections with a host computer and others

Data processing devices communicate in a different operating and monitoring level.

These previously known methods and devices for processing data from an automation system for a system of building systems technology do indeed disclose various methods and systems for implementing planned links αer system subscribers of an automation system that is the onkrete implementation z _^ elsystem- or automaflsierungssyste - specific requirements, they jedocr have the disadvantage, the entire car cass atisierungss stem with the corresponding opportunities Systemtεi-takers and αngsrege the Verknüp _^ n previously thought unα gep must be ant.

The present invention is therefore based on the object of improving the known methods and devices in such a way that the installer's approach to conventional planning of an electrical installation can be implemented directly on a bus system, without the installer having to gain more detailed knowledge of the mode of operation of the bus system and without the need for prior planning with all of the rules for linking and assigning the system participants to the systematic system.

The invention achieves this object by means of the characterizing features of independent patent claims 1 and 10. Advantageous embodiments of the invention are characterized and claimed in the subclaims.

According to the present invention, the linking and assignment of the system participants of a building system technology connected to an automation system takes place independently on the basis of predetermined system rules or on the basis of intuitively entered connections, the corresponding assignment of the system participants in the automation system and their programming again being carried out independently.

For this purpose, the system participants connected to the automation system are detected in accordance with the invention and linked to one another by means of data which can be called up from data memories and on the basis of system rules for assigning the system participants, so that the system participants assigned to one another can communicate with one another by means of the automation system. An installation device is advantageously connected to the automation system and possibly switched to an installation or learning mode. Based on data obtained from the automation system, the individual system part numbers can be detected by the installation device and then linked or assigned to one another. In this case, the individual system participants can also advantageously be switched to a learning mode in order to either cause them to send corresponding data for detection to the automation system or to be receptive for corresponding detection or detection data.

After the detection of the as certain actuators and sensors

visualized graphically and linked to one another by means of the circuit types, installation types and / or system rules stored in the further data memories and / or by means of input means for the input and / or selection of circuit types, installation types or system rules. After the individual actuators and sensors of the building system technology have been detected, they are advantageously visualized on the installation device and can either be intuitively planned by an operator or linked to one another using stored system rules.

A suitable connection module for the individual sensors and actuators is a connection module, which may be virtually present in the installation device or implemented by software, which realizes the graphical representation of the actuators and sensors and the assignment of the detected sensors and actuators and corresponding circuit types, installation types and / or system rules performs. The connection module advantageously has access to corresponding data memories which contain data about the detected actuators and sensors. If, for example, incompatible sensors or actuators that are not intended for one another are linked to one another, this can either represented graphically by means of a warning, or the connection module prevents such a desired connection or assignment.

After the assignment and linking of the individual detected sensors and actuators, these and / or the automation system are set up to establish communication between the assigned sensors and actuators with channels, applications, parameters and / or addresses. Here, it is neces- dig that certain fit provided sensors and Ak ^¬ factors within the automation system can cate kom ^¬ each other. For example, certain communication rules, device addresses, group addresses, communication protocols and data connection rules exist in a building installation that are known to be advantageously retrievable by an installation module from corresponding data memories and are assigned to the previously assigned and linked actuators and sensors. The sensors and actuators are thus programmed in the installation module based on the communication rule in the automation system.

The method according to the invention advantageously has a test module for checking the connections between the sensors and actuators or the correspondingly assigned circuit types, installation types and / or system rules, and an activation module for assigning the corresponding sensors and actuators after the corresponding check of the assignments activate, ie Assign appropriate addresses, channels and parameters to the sensors and actuators via the automation system, as well as notify corresponding application rules so that they are described below with their “partners *, i.e. assigned group participants can communicate.

The connection module, the installation module, the test module and the activation module can advantageously access the data of the data storage device of the installation device for the assignment and linking of the installation participants. In an advantageous variant of the present invention, the data memories are not located in the installation device, but rather are distributed decentrally to the individual actuators and sensors which, during the detection process, send this information to the installation device connected to the automation system, so that the installation device then links this data and mapping can use. This has the advantage that the data has to be kept in the installation device, but is made available individually based on the specific installation of the individual installation participants.

The assignments of sensors and actuators and the assignments of corresponding channels, applications, parameters and addresses are advantageously graphically visualized, revised on the installation device, if necessary, and sent to the automation system and the corresponding sensors and actuators to set the automation system.

In particular, in the building system technology using bus technology, the method according to the invention or the device according to the invention can be used advantageously, since the inhibitor threshold of the installer compared to bus technology is significantly lower or completely built. The installer is released from the task of complex calculations for assigning corresponding bus addresses, device addresses and / or group addresses and can intuitively connect the detected actuators and sensors to each other on the screen of the installation device, while the concrete calculation and assignment of the individual actuators and sensors runs automatically in the background. For this purpose, the method according to the invention uses the data stored in the corresponding data memories and automatically shows the installer whether and how a connection was established. On the basis of the actuators and sensors detected in the system and their corresponding assignment, the links, the application software, the parameters, the address and the channels are selected and assigned automatically.

For example, after the detection of the individual sensors and actuators, the circuit types and the installation types are selected from the corresponding data memories and assigned to the detected sensors and actuators. The data memories can be implemented using a list, a free link, via pointers, using a matrix or a multidimensional list. The channel assignment takes into account any existing communication channels from the data memory for connection types and takes account of the connectivity to existing communication channels. After the selection of the application programs taking into account the selected circuit types, a suitable parameter assignment of the system participants is determined taking into account the circuit types. Subsequently, the detected system participants that are to be linked with one another are assigned group addresses and device addresses and finally visualized as a rough circuit proposal on the installation device.

An advantageous embodiment of the present invention is explained in more detail with reference to the drawings. Show

1 shows the schematic view of a system of building system technology, and

2 shows a possible flow diagram or a possible arrangement of the modules of the method according to the invention or the device according to the invention.

1 shows various actuators 14 and sensors 15 which are connected to a communication line 13, in particular to a building installation bus for a system of building system technology are connected. An installation device 12 can be connected to this communication line 13, which detects c_e on the automation system, ie system participants 14, 15 connected to the installation bus. The installation device 12 links the system participants 14, 15 by means of data memories 1, 2, 3 aoru ble data shown in FIG 2 and using system rules to assign the system participants 14, 15 to one another. Subsequently, the installation device 12 sets the automation system in such a way that the system participants 14, 15 assigned to one another can communicate with one another.

To detect the system participants 14, 15, the installation device 12 compares the data received from the system participants 14, 15 via the automation system with the data of the data memories 1, 2, 3 located in the installation device.

According to another advantageous variant of the present invention, the system participants 14, 15 independently send the data specifying these to the installation device 12, so that they do not have to be kept there, but only have to be processed after receipt and evaluated for the detection of the system participants 14, 15.

The system participants 14, 15 or the installation device 12 are advantageously switched over to a learning mode in order to detect the system participants, so that certain data can be sent by the system participants 14, 15 to the installation device 12 and are recognized there as “installation data”.

The installation device 12 advantageously has an actuator module 4 shown in FIG. 2 for the detection and storage of actuators 14 and a sensor module 5 for the detection and storage of sensors 15, as well as a first data memory 1 with actuator data and a second data memory 2 with sensor data. The installation device 12 can also tere data storage 3 for storing circuit types, installation types or system rules, all of which are connected to a 6 m connection module, which can be used to assign the actuators and sensors.

Advantageously, the Installationsgerat Ξmgabemittel 12 for inputting and / or selection of circuit types Installati ^¬ onsarten or system rules. These input means can be software-implemented graphical user interfaces on the basis of which the operator recognizes actuators and sensors. selector. and can assign 6 in the connection module. Neoer. the actuator module 4 and sensor module 5 may have further modules for selecting the circuit types and installation types and further data memories for storing the possible circuit types and installation types. All of these data and modules are connected to the 6 m connection module, on the basis of which the operator can make the assignments.

After the assignment of the actuators and sensors in the connection module 6, the logical combination and the generation of the physical assignments in the automation system takes place in an installation module 7, 8, which in particular has an application module 7 and an address module 8. In the installation module 7, 8, the sensors and actuators are logically linked to one another on the basis of the circuit types, installation types and / or system rules selected in the connection module 6. The application module 7 is used to assign specific applications to the sensors 15 and actuators 14, and the address module 8 is used to assign addresses, such as, for example, Device or group addresses, the automation system to sensors 15 and actuators 14.

Furthermore, the installation device 12 advantageously has a test module 9 or an activation module 10 for checking the connections between the sensors 15 and actuators 14 or the assigned circuit types, installation types and / or system rules and / or for activating the sensors 15 and actuators 14.

A display 11 is used for the final visualization of the checked and activated assignment of the detected sensors with actuators. Outside, display II can be used to assign the system rules in connection module 6 to actuators 14 and sensors 15.

According to the invention, software is also provided on a storage medium which can be read out by a data processing device in order to carry out the method and device according to the invention, where this software contains the logical steps for the detection and assignment of the individual modules 4 to 10 Contains sensors 15 and actuators 14 and their activation.

A preferred practical exemplary embodiment is described in more detail as follows:

For example, an installer should implement the lighting system for a building using an EIB bus system. For this purpose, he uses actuators and sensors already installed in the building and connected to the bus system, such as light switches, dimmers, lamps and light barriers. All of these actuators and sensors are connected to one another with the usual 2-wire bus line, without any specific assignment or planning taking place in detail. The installer then connects the installation device 12 to the bus system and activates a detection procedure which, according to an advantageous variant of the present invention, detects those actuators and sensors which have been switched to a learning mode and which are connected to the system. The corresponding actuator 14 or the corresponding sensor 15 is shown in the installation device 12 and can now be installed by the installer, for example by means of a “mouse”. whose actuators 14 and sensors 15 are connected. The installation device 12 now recognizes the actuators and sensors provided for one another on the basis of the connections entered by the installer or on the basis of previously set assignment rules and processes them using the various

2 modules shown. All bussystemtecnnischen information such as bus addresses, random addresses, group addresses, parameters, channels and application requirements are automatic ^¬ generated table, managed and the individual Aκforen and sen sors assigned. Subsequently, the completely programmed constantly active compounds can be shown graphically on the monitor ^¬ and as Gesamtmformation m the automation system and are thus fed to the respective actuators and sensors.

The commissioning of a building management system is greatly simplified for the installer on the basis of the device or method according to the invention and requires no further specific knowledge of the bus system used by the installer. The system participants can be recognized automatically and assigned and programmed with each other with an automatic address and function assignment.

Claims

claims

1. A method for processing data k of an automation system for a plant of the Gebaudesystemtechn _^, in which the data of the automation system and data from Sys ^¬ temteilnehmern (14, 15) of the system are linked and associated, characterized in that the devices connected to the automation system system subscribers (14, 15) are detected, that the system participants (14, 15) are linked to one another by means of data that can be called up from data memories (1, 2, 3) and on the basis of system rules for assigning the system participants, and that the system participants (14, 15 ) communicate with each other using the automation system.

2. The method according to claim 1, characterized in that data of the system participants (14, 15) is compared with data of the data storage (1, 2, 3) located in an installation device (12) and the system participants (14, 15) connected to the automation system. be detected on the basis of a data comparison and / or a data recognition.

3. The method according to any one of claims 1 or 2, characterized in that the system participants (14, 15) and / or the installation device (12) for detection and / or for linking or assigning the Systemteilnenmer (14, 15) m switched a learning mode become.

4. The method according to any one of the preceding claims, characterized in that the installation participants (14, 15) detectable as specific actuators (14) and sensors (15) are graphically visualized and linked to each other by means of the further data memories (3) stored circuit types, installation types and / or system rules and / or by means of input means onsarten for inputting and / or selection of circuit types Installati ^¬ or system rules are linked to each other.

5. The method according to any one of the preceding claims, characterized in that at ^¬ In stallationsgerat (12) by means of an optionally graphically Presenting ^¬ cash Verbmdungsmoduls (6) the association of the detected sensors (15) and A.ktoren (14) and the appropriate circuitry types, installation types and / or system rules.

6. The method according to any one of the preceding claims, that the automation system and / or the sensors (15) and actuators

(14) for establishing communication between the assigned sensors (15) and actuators (14) with channels, applications, parameters and / or addresses.

7. The method according to any one of the preceding claims, characterized in that an installation module (7, 8) for assigning corresponding channels, applications, parameters and / or addresses and a test module (9) and / or an activation module (10) for checking the ver - Bonds between the sensors (15) and actuators (14) or the associated circuit types, installation types and / or system rules and / or for activating the sensors (15) and actuators (14) is used.

8. The method according to claim 7, characterized in that the conversion module (6), the installation module (7, 8), the test module (9) and / or the activation module (10; on the data of the data memory (1, 2, 3) access.

9. The method according to any one of the preceding claims, characterized in that the assignment of the sensors (15) and actuators (14) and the assignment of corresponding channels, applications, parameters and / or addresses are graphically visualized, revised and for setting the automation system to the Automation system and the corresponding sensors (15) and actuators (14).

10. Device for processing data of an automation system for a system of building system technology, in which the data of the automation system and data of system participants (14, 15) of the system can be linked and associated with one another, characterized in that an installation device (12) which the System participants (14, 15) connected to the automation system detects that the installation device (12) links the system participants (14, 15) to one another by means of data that can be called up from data memories (1, 2, 3) and using system rules to assign the system participants (14, 15) , and that the installation device (12) sets the automation system in such a way that the system participants (14, 15) assigned to one another can communicate with one another.

11. The device according to claim 10, characterized in that the installation device (12) compares the data received by the system participants (14, 15) via the automation system for the detection of the system participants (14, 15) with data from the data memories (1, 2, 3;) located in the installation device.

12. Device according to one of claims 10 or 11, characterized in that the Sys ^¬ temteilnehmer (14,15) and / or the Installationsgerat (12) for the detection and / or for linking or allocation of

System participants (14, 15) can be switched to a learning mode.

13. Device according to one of claims 10 to 12, characterized in that the system participants (14, 15) are actuators (14) and sensors (15), and that the installation device (12) em actuator module (4) for detection and storage of actuators (14) and em sensor module (5) for the detection and storage of sensors (15) and a first data memory (1) with actuator data and a second data memory (2) with sensor data.

14. Device according to one of claims 10 to 13, characterized in that the installation device (12) further data storage (3) for storing circuit types, installation types or system rules and / or input means for entering and / or for selecting circuit types, installation types or System rules.

15. Device according to one of claims 10 to 14, characterized in that the installation device (12) em connecting module (6) for assigning the sensors (15) and actuators (14) and corresponding switching tung types, types of installation and / or system rules ^¬ has.

16. The device as claimed in one of claims 10 to 15, that the automation system is a building installation bus.

17. Device according to one of claims 10 to 16, characterized in that the installation device (12) em installation module (7,8) for the logical connection of the sensors (15) and actuators (14) on the basis of appropriate circuit types, installation types and / or system rules having.

18. The apparatus according to claim 17, characterized in that the in ^¬ stallationsmodul (7, 8) at least one application module (7) specific for assigning applications to the sensors (15) and actuators (14) and at least em address module (8) for the supply Order of addresses of the automation system to the sensors (15) and actuators (14).

19. Device according to one of claims 10 to 18, characterized in that the installation device (12) em test module (9) and / or em activation module (10) for checking the connections between the sensors (15) and actuators (14) or has the assigned circuit types, installation types and / or system rules and / or for activating the sensors (15) and actuators (14).

20. Software on a storage medium that can be read from a PC ^¬, for carrying out the method of egg nem of claims 1 to 9 or for setting a device according to one of claims 10 to 19, characterized in that it contains the logical steps for the detection and assignment of the sensors (15) and actuators (14) and their activation.