DE202015009348U1 - Arrangement for the configuration of a bus-oriented programmable electrical installation - Google Patents

Abstract

Arrangement for configuring a bus-oriented programmable electrical installation, wherein application-oriented initial project planning data (IPD) for a project for an electrical installation are generated by a first configuration program (KP1), wherein in the first configuration program (KP1) the initial configuration data (IPD) with a unique identifier and / or be associated with a semantic meaning.

Description

The invention relates to an arrangement for configuring a bus-oriented programmable electrical installation.

In order to enable a simple and comfortable operation of the various components in modern buildings or houses, these can be controlled via an installation bus. Such an installation bus is, for example, the European installation bus (EIB), which is described in the KNX standard.

A building installation device makes it possible to control individual building installations, such as a lamp or a radiator, individually according to a predetermined operating plan, by providing a bus device to each building installation, which controls the respective building installation, ie, for example, automatically turns a lamp on and off or on Thermostat of a radiator sets. The bus devices can be connected to one another and also to a central configuration device via a building installation bus, so that the devices can exchange data with one another and the bus devices can be configured or reconfigured centrally via the configuration device. The data exchanged under the bus devices may be sensor data or control data, for example.

The underlying bus system is based on the fact that each bus participant has its own microprocessor and thus manages its data independently and independently of a central processor. Each bus user is assigned an application program with communication objects and parameters. When commissioning such a bus system, the communication relationships of the bus participants must be configured. In the case of the EIB, the engineering tool software (ETS) is frequently used here. This is a software that runs on a PC or laptop and is connected to the bus. Some possible types of connections are RS232, USB, wireless or Ethernet. The ETS is a database-based graphical tool for designing a bus-oriented programmable electrical installation. The configuration data for each individual bus participant or each individual application program are stored separately in the ETS database. When changing an application program, it must be reconfigured manually. This is associated with a very high cost.

From the European patent application EP1584998A1 as well as from the European patent EP2180338B1 methods for configuring a bus-oriented programmable electrical installation are known, but insufficient support for a change of configuration parameters.

It is therefore the object of the present invention to facilitate the configuration of a bus-oriented programmable electrical installation, in particular with regard to the change of configuration parameters.

The object is achieved by an arrangement for configuring a bus-oriented programmable electrical installation, wherein application-oriented initial configuration data (IPD) for a project for an electrical installation are generated by a first configuration program (KP1), wherein in the first configuration program (KP1) the initial configuration data (IPD) be associated with a unique identifier and / or with a semantic meaning. By associating the configuration data with a unique identifier and / or with a semantic meaning, reparameterization (esp. Changes, modifications, extensions of the configuration data) can be carried out very easily and conveniently.

A first advantageous embodiment of the invention is that the generated initial configuration data (IPD) are imported into a second configuration program (KP2) and modified in the second configuration program (KP2) and / or extended to the first modified configuration data (MPD1) Configuration program (KP2) the modified and / or extended configuration data are associated with a unique identifier and / or with a semantic meaning. In a KNX system, configuration data generated in the ETS can thus be exported to a third-party system (eg engineering tool) and consistently changed based on the identifier (eg Id) and the semantics of the configuration data.

A further advantageous embodiment of the invention is that the first modified configuration data (MPD1) from the second configuration program (KP2) in the first configuration program (KP1) are imported, in the first configuration program (KP1) with the first modified configuration data (MPD1) the initial configuration data (IPD) or with modified initial configuration data (MIPD) to second modified configuration data (MPD2), based on the unique identifier and / or the associated associated semantic meaning, merged. In a KNX system, configuration data generated in the ETS can thus be exported to a third-party system (eg engineering tool), and There, based on a unique identifier (eg Id) and the semantics of the configuration data, they are consistently changed and re-imported into the ETS where they are merged with the original ETS data. Advantageously, the merging of the data takes place automatically, ie without manual adjustments by a user. Advantageously, the unique identifier of the configuration data is generated automatically by the respective configuration program (eg ETS (engineering tool software) for KNX systems).

A further advantageous embodiment of the invention lies in the fact that the configuration data comprise access protection attributes. The project engineer (eg a KNX project) can assign a one-level or multi-level access protection, which allows the user, the caretaker or a maintenance technician to change the parameterization or configuration. This association of parameters with access rights can be done in the ETS (EngineeingToolSoftware) or in a separate tool.

A further advantageous embodiment of the invention lies in the fact that the access protection attributes are assigned to parameters of the configuration data. By associating parameters or configuration data with access rights, authorized users can make consistent data reconfiguration for an underlying project.

A further advantageous embodiment of the invention is that the import and / or export of the configuration data takes place in a structured format, for. In XML (Extensible Markup Language). Instead of XML, another standardized metalanguage can be used for the configuration data transfer, such as SGML (Standard Generalized Markup Language), HTML (Hypertext Markup Language) or the like. The use of a structured or standardized format facilitates data transfer and data merging.

The object is further achieved by an arrangement for configuring a bus-oriented programmable electrical installation, comprising the arrangement:
a first configuration program (KP1) for generating application-oriented initial configuration data (IPD) for a project for an electrical installation, the initial configuration data (IPD) being associated with a unique identifier and / or with a semantic meaning;
a second configuration program (KP2) suitable for import and for further processing and / or extension of the initial configuration program (KP1) created initial configuration data (IPD), in the second configuration program (KP2) first modified configuration data (MPD1) can be created, and wherein the further processed and / or extended configuration data are associated with a unique identifier and / or with a semantic meaning. The arrangement can be realized with standard hardware or standard infrastructure for the configuration of bus-oriented programmable electrical installation for buildings. The configuration programs are advantageously related engineering or configuration tools. The engineering tool software (ETS) is usually used for the configuration of EIB or KNX bus systems. This is a software that runs on a PC or laptop and is connected to the bus. Some possible types of connections are RS232, USB, wireless or Ethernet. The ETS is a database-based graphical tool for designing a bus-oriented programmable electrical installation. The configuration data for each individual bus participant or each individual application program are stored separately in the ETS database. When an application program was changed, it had previously had to be reconfigured by hand. This complex and inefficient procedure is no longer necessary when using he inventive arrangement.

A further advantageous embodiment of the invention is that the first modified configuration data (MPD1) created by the second configuration program (KP2) can be imported into the first configuration program (KP1) for further processing and / or supplementation. This makes it possible for consistent configuration data to be kept in a configuration program (eg ETS), even though modifications and extensions to this configuration data were made in one or more other configuration programs.

A further advantageous embodiment of the invention is that the arrangement comprises a storage means (database) for storing the configuration data, wherein the first and the second configuration program (KP1, KP2) have access to the storage means (database). This means that the configuration data can be accessed by the configuration programs without the need for an explicit export or import of the configuration data. An ETS is usually implemented on a PC or laptop, which by default is equipped with a memory (hard disk, main memory).

A further advantageous embodiment of the invention is that the data exchange between the first configuration program (KP1) and the second configuration program (KP2) via a communication network. The communication network may be z. B. is a bus connection (wired or wireless). The communication network can also be a WLAN connection. Thus, remote access is possible and cloud solutions can be realized.

The invention and advantageous embodiments of the present invention will be explained using the example of the following figures. Showing:

1 a first exemplary arrangement for configuring a bus-oriented programmable electrical installation,

2 a second exemplary arrangement for configuring a bus-oriented programmable electrical installation,

3 a third exemplary arrangement for configuring a bus-oriented programmable electrical installation.

Building installations, in particular electrical installations for the control of light sources, blinds, fans, heaters, alarm systems, etc. are often implemented using standardized bus technology, eg. B. with a KNX bus system. With a KNX bus system, operating elements (sensors) and corresponding actuators are connected and controlled in a building. Each participant of such a bus system has its own microprocessor and can thus independently and independently of a central processor manages its data. Each bus user is assigned an application program with corresponding communication objects and parameters. When commissioning a KNX bus system (or a similar system), the communication relationships and parameters of the bus nodes must be configured. The engineering tool software (ETS) is usually used for the configuration of KNX bus systems. The ETS is a database-based graphical tool for configuring bus-oriented programmable electrical installations. Using a database, the configuration data in the ETS, i. H. the communication relationships and the device parameters, created separately for each bus user or each application program and finally transmitted or fed via an interface (eg USB data interface) in the bus system and its participants.

In an ETS database, the configuration data for each individual bus participant or each individual application program is stored separately. When changing an application program, it must be reconfigured manually. This is very time-consuming and error-prone, because the changes are based on manual annotation. Furthermore, the data in the ETS only allow project-based access protection and contain no information relevant to the user (user of the building). Due to this lack of information, it is not possible or very difficult for the user to carry out a reparameterization.

If further processing is to be performed in another tool (Cloud), additional data will be added to this project. These data are not recognized by the ETS. If data is added after editing in another tool and then further processed in the ETS, this data is partially lost. After processing in the ETS, the data has to be reimported and merged by the tool.

So far there is no information for the user and no access protection that allows access to certain parameters and protects other parameters. After modifying the project data of the ETS, further processing in the ETS is no longer possible.

The inventive arrangements or methods make it possible to facilitate or automate the configuration of a bus-oriented programmable electrical installation, in particular with regard to the change of configuration parameters.

1 shows a first exemplary arrangement A1 for configuring a bus-oriented programmable electrical installation.

In the first configuration program KP1 (eg ETS) a project is created in the normal way, with initial configuration data IPD. Following this, the designer assigns user-specific names for certain parameters. So z. Eg for "Switch-off delay channel A" "Switch-on duration of court lighting during movement". As a result, the user is able to identify the function of this parameter and to carry out a reparameterization. This association of parameters with names can be done in the ETS or in a separate tool.

Optionally, the project engineer also assigns one-level to multi-level access protection, which allows the user, the caretaker or a maintenance technician to change the parameterization. This association of parameters with access rights can also be done in the ETS or in a separate tool.

In the first step, the project Initial is created, with initial configuration data IPD. The project is exported and imported into the other tool KP2 (eg engineering tool in a cloud). In this tool a change of the project can be made. These modified data MPD1 can now be exported again and imported into the configuration program KP1 (eg ETS) and processed further. Even with the configuration program KP2 (eg Tool in a Cloud), the project can be processed in parallel. If the project edited in the configuration program KP1 (eg ETS) is now imported again into the configuration program KP2 (eg tool in a cloud), the data must be merged again during import. Merging is made possible by unique ids on parameters and other elements. When the function of a channel changes (eg, from kitchen light to switchable power outlet), the unique ID (s) or implied semantic meaning is implicitly changed.

By associating parameters or configuration data with unique identifiers (eg IDs or user names) and access protection attributes or semantic meanings, the merging of changed project files (eg from ETS project files) is possible. The merging of changed project files can also be carried out automatically with computer assistance.

• – ein erstes Konfigurationsprogramm KP1 (z. B. eine ETS) zur Erstellung von anwendungsorientierten initiale Projektierungsdaten IPD für ein Projekt für eine Elektroinstallation, wobei die initialen Projektierungsdaten IPD mit einer eindeutigen Kennzeichnung (Id) und/oder mit einer semantischen Bedeutung (z. B. einem projektbasierten Zugriffsschutz) assoziiert sind;
• – ein zweites Konfigurationsprogramm KP2 (z. B. ein Engineeringtool in einer Cloud) geeignet zum Import und zur Weiterverarbeitung und/oder Erweiterung der im ersten Konfigurationsprogramm KP1 erstellten initialen Projektierungsdaten IPD, wobei im zweiten Konfigurationsprogramm KP2 erste modifizierte Projektierungsdaten MPD1 erstellbar sind, und wobei die weiterverarbeiteten und/oder erweiterten Projektierungsdaten mit einer eindeutigen Kennzeichnung und/oder mit einer semantischen Bedeutung assoziiert sind.

The representation according to 1 shows a first exemplary arrangement A1 for configuring a bus-oriented programmable electrical installation, the arrangement A1 comprises:

• A first configuration program KP1 (eg an ETS) for generating application-oriented initial configuration data IPD for a project for an electrical installation, the initial configuration data IPD having a unique identifier (Id) and / or with a semantic meaning (e.g. a project-based access protection) are associated;
• A second configuration program KP2 (eg an engineering tool in a cloud) suitable for importing and further processing and / or expanding the initial configuration data IPD created in the first configuration program KP1, wherein the first modified configuration data MPD1 can be created in the second configuration program KP2, and wherein the further processed and / or extended configuration data are associated with a unique identifier and / or with a semantic meaning.

The first modified configuration data MPD1 are advantageously imported from the second configuration program KP2 into the first configuration program KP1, the first modified configuration data MPD1 having the initial configuration data IPD or modified initial configuration data MIPD (s. 2 ) to second modified configuration data MPD2 (s. 2 ) based on the unique identifier and / or the associated associated semantic meaning.

Advantageously, the import and / or export of the configuration data in a structured format, z. In XML (Extensible Markup Language). Instead of XML, another standardized metalanguage can be used for the configuration data transfer, such as SGML (Standard Generalized Markup Language), HTML (Hypertext Markup Language) or the like. By using a structured or standardized format, data transfer and data merging is facilitated or it can be automated by a suitable computer program.

• – ein erstes Konfigurationsprogramm KP1 (z. B. eine ETS) zur Erstellung von anwendungsorientierten initiale Projektierungsdaten IPD für ein Projekt für eine Elektroinstallation, wobei die initialen Projektierungsdaten IPD mit einer eindeutigen Kennzeichnung (Id) und/oder mit einer semantischen Bedeutung (z. B. einem projektbasierten Zugriffsschutz) assoziiert sind;
• – ein zweites Konfigurationsprogramm KP2 (z. B. ein Engineeringtool in einer Cloud) geeignet zum Import und zur Weiterverarbeitung und/oder Erweiterung der im ersten Konfigurationsprogramm KP1 erstellten initialen Projektierungsdaten IPD, wobei im zweiten Konfigurationsprogramm KP2 erste modifizierte Projektierungsdaten MPD1 erstellbar sind, und wobei die weiterverarbeiteten und/oder erweiterten Projektierungsdaten mit einer eindeutigen Kennzeichnung (z. B. Id) und/oder mit einer semantischen Bedeutung assoziiert sind;
• – ein Speichermittel (Datenbank) zur Speicherung der Projektierungsdaten, wobei das erste und das zweite Konfigurationsprogramm (KP1, KP2) Zugriff auf das Speichermittel DB (z. B. eine relationale Datenbank) haben.

2 shows a second exemplary arrangement A2 for configuring a bus-oriented programmable electrical installation, comprising the arrangement A2:

• A first configuration program KP1 (eg an ETS) for generating application-oriented initial configuration data IPD for a project for an electrical installation, the initial configuration data IPD having a unique identifier (Id) and / or having a semantic meaning (e.g. a project-based access protection) are associated;
• A second configuration program KP2 (eg an engineering tool in a cloud) suitable for importing and further processing and / or expanding the initial configuration data IPD created in the first configuration program KP1, wherein the first modified configuration data MPD1 can be created in the second configuration program KP2, and wherein the further processed and / or extended configuration data are associated with a unique identifier (eg Id) and / or with a semantic meaning;
• A storage means (database) for storing the configuration data, the first and second configuration programs (KP1, KP2) having access to the storage means DB (eg a relational database).

The first modified configuration data MPD1 are advantageously imported from the second configuration program KP2 into the first configuration program KP1, the first modified configuration data MPD1 having the initial configuration data IPD or modified initials being stored in the first configuration program KP1 Configuration data MIPD (s. 2 ) to second modified configuration data MPD2 (s. 2 ) based on the unique identifier and / or the associated associated semantic meaning. In the arrangement A2 according to 2 is no explicit data transmission over a communication medium necessary for the import or export of the configuration data, because the configuration data or the respective modified configuration data are stored in the storage medium DB (advantageously in a standardized format or in defined data structures) to which the configuration programs KP1, KP2 can access.

Optionally, the accesses to the storage medium DB by the configuration programs KP1, KP2 also via a remote access (remote access). The configuration data IPD, MPD1, MPD2, MIPD can be located in a storage medium (eg data server) in a cloud.

3 shows a third exemplary arrangement A3 for configuring a bus-oriented programmable electrical installation, wherein the data exchange between the first configuration program KP1 and the second configuration program KP2 via a communication network KN (eg bus system) takes place. The communication network KN can be realized by wire or wireless (eg by radio links).

Advantageously, the communication network KN can be used for building automation (eg KNX bus).

Optionally, the generated initial configuration data IPD are imported into a second configuration program KP2 (VS2) and modified in the second configuration program (KP2) and / or extended to the first modified configuration data MPD1 (VS3), wherein in the second configuration program KP2 the modified and / or extended configuration data be associated with a unique identifier and / or with a semantic meaning.

Optionally, the first modified configuration data MPD1 from the second configuration program KP2 in the first configuration program KP1 imported (VS4), wherein in the first configuration program KP1 the first modified configuration data MPD1 with the initial configuration data IPD or modified initial configuration data MIPD to second modified configuration data MPD2, based on the unique identifier and / or the associated associated semantic meaning (VS5).

An ETS (as a configuration program KP1, KP2) is a software that runs on a PC or laptop and is connected to the bus. Some possible types of connections are RS232, USB or Ethernet. The ETS is a database-based graphical tool for designing a bus-oriented programmable electrical installation. The configuration data for each individual bus participant or each individual application program are stored separately in the ETS database.

The data exchange advantageously takes place via a defined or standardized format (eg XML).

Arrangement for configuring a bus-oriented programmable electrical installation, wherein application-oriented initial project planning data (IPD) for a project for an electrical installation are generated by a first configuration program (KP1), wherein in the first configuration program (KP1) the initial configuration data (IPD) with a unique identifier and / or be associated with a semantic meaning.

reference numeral

• A1-A3

  arrangement

  KP1, KP2

  configuration Utility

  DB

  storage medium

  KN

  Communication network

  IPD

  Initial configuration data

  MIPD

  Modified initial configuration data

  MPD1

  First modified configuration data

  MPD2

  Second modified configuration data

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• EP 1584998 A1 [0005]
• EP 2180338 B1 [0005]

Claims (10)

Arrangement for configuring a bus-oriented programmable electrical installation, wherein application-oriented initial project planning data (IPD) for a project for an electrical installation are generated by a first configuration program (KP1), wherein in the first configuration program (KP1) the initial configuration data (IPD) with a unique identifier and / or be associated with a semantic meaning. Arrangement according to Claim 1, the generated initial configuration data (IPD) being imported into a second configuration program (KP2) and being changed and / or extended in the second configuration program (KP2) to first modified configuration data (MPD1), wherein in the second configuration program (KP2) the modified and / or extended configuration data are associated with a unique identifier and / or with a semantic meaning. Arrangement according to one of the preceding claims, wherein the first modified configuration data (MPD1) from the second configuration program (KP2) in the first configuration program (KP1) are imported, wherein in the first configuration program (KP1) the first modified configuration data (MPD1) with the initial configuration data ( IPD) or with modified initial configuration data (MIPD) to second modified configuration data (MPD2), based on the unique identifier and / or the associated associated semantic meaning, merged. Arrangement according to one of the preceding claims, wherein the configuration data comprise access protection attributes. Arrangement according to claim 4, wherein the access protection attributes are assigned to parameters of the configuration data. Arrangement according to one of the preceding claims, wherein the import and / or the export of the configuration data takes place in a structured format. Arrangement for configuring a bus-oriented programmable electrical installation, the arrangement comprising: a first configuration program (KP1) for generating application-oriented initial configuration data (IPD) for a project for an electrical installation, the initial configuration data (IPD) being associated with a unique identifier and / or with a semantic meaning; a second configuration program (KP2) suitable for import and for further processing and / or extension of the initial configuration program (KP1) created initial configuration data (IPD), in the second configuration program (KP2) first modified configuration data (MPD1) can be created, and wherein the further processed and / or extended configuration data are associated with a unique identifier and / or with a semantic meaning. Arrangement according to Claim 7, wherein the first modified configuration data (MPD1) created by the second configuration program (KP2) can be imported into the first configuration program (KP1) for further processing and / or supplementation. Arrangement according to claim 7 or 8, further comprising a storage means (database) for storing the configuration data, wherein the first and the second configuration program (KP1, KP2) have access to the storage means (database). Arrangement according to one of claims 7 to 9, wherein the data exchange between the first configuration program (KP1) and the second configuration program (KP2) takes place via a communication network.

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