EP1960851A1

EP1960851A1 - Operator's device for the detection of a required sensor or actuator, and corresponding method

Info

Publication number: EP1960851A1
Application number: EP06819814A
Authority: EP
Inventors: Frank Lahner; Peter Thamm
Original assignee: Siemens AG
Current assignee: Siemens AG
Priority date: 2005-12-15
Filing date: 2006-11-28
Publication date: 2008-08-27
Also published as: DE102005060050A1; US20090284390A1; WO2007068582A1

Abstract

The invention relates to an operator's device which communicates in a wireless manner with sensors and/or actuators. Positional data of the sensors/actors as well as the ways to get to the same are stored in the memory of the operator's device. Access data is evaluated and displayed in a program and processing unit of the operator's device in order to find a sensor or actuator required in a system when a signal is received.

Description

description

HMI device for finding a searched sensor or actuator and corresponding method

The invention relates to an operating device for the wireless operation ^¬ tion of sensors and / or actuators, which are distributed in a system and each having a transmitting and receiving unit, with means for data input, with a display unit, with a memory and with a Program and processing unit.

Furthermore, the invention relates to a method for finding a desired sensor or actuator of a plurality of distributed in a Anlage sensor and / or actuators, each having a transmitting and receiving unit, with the aid of a kommu ^¬ nikationsfähigen control unit.

In extended facilities (e.g., refinery, automotive production), it is not always easy to locate sensors or other components when they are either being serviced, inspected, readjusted, or simply broken. The cause lies in the different size ratios between extended plant and small automation component, such as Sensors and / or actuators. In addition, these sensors and actuators are also often located in places that are not always immediately obvious.

So far, this object is achieved in that maintenance personnel on the basis of plans in the center searches the location of the ge ^¬ sought sensor, remembers this and then goes into the field. If the sensor can not be located directly at the target, only cumbersome searching is helpful. If necessary, a site plan is included in the field, eg if several sensors must be visited one after the other in case of complicated systems. There are other auxiliary structures as well. In some process control systems, for example, maintenance personnel in some process control systems are led by the control panel of the automation system via cabinets and input / output components to the faulty module by the display of red fault LEDs, which could also continue to the sensor or actuator. However, this only makes sense in compact electronics rooms, where you can move from one fault LED to the next.

The invention has for its object to improve an operating device of the type mentioned above so that it facilitates finding a sensor or actuator of several distributed in a system sensors and actuators.

Furthermore, it is an object of the invention to provide a method for finding a desired sensor or actuator of several distributed in a system sensors and / or actuators, which also has a simple way the way to the sought sensor or actuator.

The first object is achieved by an operating device according to claim 1. Advantageous developments of the invention are described in the dependent claims 2 and 3. The further object is achieved by a method according to claim 4.

An embodiment of the invention will be explained in more detail below with reference to a drawing. Show it:

1 shows a roadmap of a plant with the locations of

Sensors and / or actuators,

FIG 2 shows a first, displayed on a display unit Wegin ^¬ formation for finding a searched sensor or actuator and 3 shows a second, displayed on a display unit path ^¬ information to find a desired sensor o of the actuator. The operating device according to the invention is used for the wireless operation ^¬ tion of distributed in a system sensors and / or actuators. The sensors and actuators as well as the operating device are capable of communication, ie they each have a transmitting and receiving unit. The operating device has means for data input ^¬ , for example, a keyboard, a display unit, such as a screen, a memory and a program and processing unit. Location information, eg coordinates for the exact location of the sensors and actuators of the system are stored in the memory. In addition, location information for the leading to the sensors and actuators paths are stored in the system in the memory, including a road map is understood, as shown in FIG 1.

1 shows sensors or actuators A, B, C, D and E with the paths leading to them.

The sensors and actuators send with the aid of their transmitting unit signals that include, inter alia, an identification date, such as an identification number or a name, which is assigned to each sensor and actuator specifically for identification. The signals can be received by the operating device in the reception area represented by a respective concentric circle. By means of the program and processing unit is detected when an operator with the operating device in one of the receiving areas of the sensors or actuators A, B, C, D and E is located. For example, if the operating device receives signals from the sensors / actuators D, E at the same time, it is located in the overlapping area of the reception areas of D, E, ie at the location indicated by X1 in FIG. 1. This is also done by evaluation in the program and processing unit determined. In conjunction with the abgespei ^¬ cherten location information for the sensors and actuators can be specified, in which way a wanted sensor or actuator, for example, the sensor B is found. For this purpose, the operator enters the desired sensor B via the keypad of the HMI device, whereupon after determining the location XI on the display unit, a route plan with route information according to FIG. will be shown. This roadmap shows the current location Xl as well as the way information by arrow to get to the desired sensor B. As can be seen in FIG. 1, the path to the sensor B leads through receiving areas of the sensors / actuators D and A, these also partially overlapping each other. Upon reaching the overlap area of the sensor B and the sensor / actuator A is determined by the programming and processing unit, the new location X2 of the operating device and ge ^¬ displayed Mäss FIG 3 on the route plan with the further routing information.

The data received from the sensors and / or actuators in their reception area of the operating unit signals can beinhal- th addition to the identification data further information. For example, each signal depending on whether the distance ^¬ ner source a certain signal strength. When approaching the source of the signal strength increases, and vice versa for fernung Ent ^¬ from this it decreases. The detection of the signal strength and the evaluation of its change in the program and processing unit provides additional clues for the path information. For example, GE's position X2 ^¬ is Mäss FIG 3 is relatively low, the signal strength of the sensor B and decreases with pacing of the path in the arrow direction (see also FIG 1). In order to get close to the sensor B, the operator has to turn left with the operating device, whereby the signal strength increases even further.

According to the invention, a method for finding a searched sensor or actuator of a plurality of sensors and / or actuators distributed in a system is also specified. The sensors and actuators each have a transmitting and ^{Empfangsein ¬ unit} . With the aid of a communication-capable HMI device, the route to the searched sensor or actuator is displayed. For this purpose, the operating device has at least means for data input, a display unit, a memory and a program and processing unit. Location information, in particular coordinates for the exact locations of the individual sensors and / or actuators are stored in the memory. Besides, they are In the memory also location information for the leading in the system to the sensors and / or actuators paths stored. The method according to the invention essentially comprises the following steps:

1. About the means for data entry is the sought

Sensor or actuator associated identification date, e.g. an identification number or name, entered,

2. In the program and processing unit, at least one signal received by a sensor or actuator is evaluated in conjunction with the location information stored in the memory for sensors / actuators and for pathways of the system and then path information for finding the desired sensor or actuator on the display unit displayed.

In the embodiment can be downloaded during the search via wireless, ie wireless, coordinates or map material. In addition, it is possible to wirelessly retrieve sensor information. The user creates the map for the operating device, in particular the path of the room. The creation of the card can be done both on the operator panel and externally. The sensors are automatically fed into the system by passing through the room via radio. It is always like ^¬ again your own point of view, based on the map, entered and the operating unit or the software calculates the positions of the sensors. Subsequently, a check and corresponding changes can be made.

Claims

claims

1. Operating device for wireless operation of sensors and / or actuators, which are distributed in a system and each having a transmitting and receiving unit, with means for data input, with a display unit, with a memory and with a program and processing unit, characterized characterized in that the memory location information, for example coordina ^¬ th for the locations of individual sensors and / or actuators, as well as for the leading in of the system to the sensors and / or actuators paths stored, the program and processing unit for evaluating one of a Sensor or actuator received signal in conjunction with the stored location information for the actuators and / or sensors as well as the paths of the system is used and that the display unit is used to display route information for finding a sought in the system sensor or actuator.

2. Operating device according to claim 1, characterized in that the program and processing unit from the signal for each sensor and / or actuator individually Identifikationsda ^¬ tum determined.

3. Operating device according to claim 1, characterized in that the program and processing unit from the signal

Signal strength determined and evaluated for the path information.

4. A method for finding a desired sensor or actuator of several distributed in a system sensors and / or actuators, each having a transmitting and receiving unit with the aid of a communication-enabled operating device, the at least means for data input, a display unit, a memory in which Location information, eg coordinates, are stored for the individual sensors and / or actuators as well as for the paths leading to the sensors and / or actuators in the Anlag, with the following steps:

1. Via the data entry means, an identification data associated with the sought sensor or actuator, e.g. entered an identification number or name,

2. In the program and processing unit at least one of a sensor or actuator received signal in

Connected to the location information stored in memory for sensors / actuators and evaluated for ways of the system and then display a way information for finding the desired sensor or actuator on the display unit.