WO2015022268A1

WO2015022268A1 - Method for the energy-efficient operation of automation devices of an industrial automation system, and simulation system

Info

Publication number: WO2015022268A1
Application number: PCT/EP2014/067068
Authority: WO
Inventors: Jörg HASSEL; Johannes Reinschke
Original assignee: Siemens Aktiengesellschaft
Priority date: 2013-08-14
Filing date: 2014-08-08
Publication date: 2015-02-19
Also published as: EP3014368A1; DE102013216069A1

Abstract

The invention relates to a method for the energy-efficient operation of automation devices of an industrial automation system and to a simulation system. For the planning of energy-efficient operation of automation devices of an industrial automation system, automation devices to be controlled and/or monitored are represented in a simulation system. In the simulation system, a respective field bus interface is associated with selected automation devices, by means of which field bus interface an automation device can be switched into specified operating states in order to control energy consumption. Respective energy profile parameters of an associated automation device can be queried by means of field bus interfaces represented in the simulation system, which energy profile parameters comprise a current operating state, available energy-saving operating states, a switchover characteristic, and/or an operating-state-dependent energy consumption. A material flow simulation is performed for a specifiable goods input course. By means of said material flow simulation, operating times and idle times specific to the automation devices can be determined. Switching sequences for operation that reduces energy consumption are determined on the basis of the determined operating times and idle times and on the basis of queried energy profile parameters.

Description

description

Method for the energy-efficient operation of automation devices of an industrial automation system and simulation system

An industrial automation system usually includes a plurality of networked via an industrial communication network automation devices and is used in the context of manufacturing or process automation for the control or regulation of equipment, machinery or equipment. Due to time-critical framework conditions in technical systems automated by means of industrial automation systems, industrial communication networks for communication between automation devices predominantly

Real-time communication protocols such as Profinet, Profibus or Real-Time Ethernet.

In the earlier international patent application Anmel- PCT / EP2012 / 059015 deaktenzeichen is a method for determining a power consumption of a production system ^¬ be written, in which firstly a load profile of the production ^¬ system by means of a load calculating means is determined. In addition, an energy demand of the production system is estimated on the basis of he ^¬ mediated load profile and using an electromechanical model of the production system by means of a Energieberechnungseinrich- processing. An energy model is determined using the abge ^¬ estimated energy demand. The energy consumption of the production system is then determined by means of the Lastberech ^¬ drying apparatus in response to the detected energy model and the transported with the production system load. WO 2013/044964 A1 discloses a method for energy-efficient control of a system or of a part of a system in which the controller uses a structural model of the system and state models of system components contained in the system. The structural model and the state ^models comprise information on possible states of the plant components and on the state-dependent energy consumption of the plant components. Based on the structural model and the models to stand ^¬ a control sequence of the individual system components is calculated in each case to achieve an energy-efficient state of the plant, taking into account of dependencies between system components.

EP 2 479 630 A1 discloses a method for the collision-free transfer of a system from a dummy mode to a collision-free mode

Operating mode described. In this case, plant operating state information of contiguous process sections required for collision-free startup of the installation is at least partially derived from simulation data of a real-time simulation tool. The real-time simulation tool simulates ei ^¬ nen plant operation in parallel with an actual operation in real time.

From EP 2 533 112 AI a method for monitoring a system with a first and a second energy operating state is known. In this case, the system has a different energy consumption in the first and second energy operating state. First, the system is switched by means of a ers ^¬ th switching command from the first into the second energy state of operation. Subsequently, a first

UmschaltZeitspanne between a start of the switching operation and reaching the second energy operating state he ^¬ mediates. The first switching time is gespei- in one of Appendices ^¬ ge associated database for UmschaltZeitspannen chert. Alternatively or additionally, a state ^{information of} the installation determined using the first switchover time span can be stored in a state database assigned to the installation.

The present invention has for its object to provide a method for energy-efficient operation of automation devices of an industrial automation system, which allows energy savings through suitable Abschaltkon- scepter, and to provide an apparatus for performing the method.

This object is achieved by a method having the features specified in claim 1 and by a simulation system having the features specified in claim 6. Advantageous developments of the present invention are specified in the dependent claims.

According to the method of the invention for energy-efficient operation of automation devices of an industrial automation system, to be controlled or monitored automation devices in a Simulationssys ^¬ system to be imaged. Selected automation equipment is in the simulation system are each assigned a field bus interface net, on an automation device for Energiever ^¬ consumption control can be switched in predetermined operating conditions. For example, the selected pro grammable controllers ^¬ boards is in each case assigned a PROFIenergie- interface in the simulation system. By means of the fieldbus interfaces depicted in the simulation system, energy profile parameters of an associated automation device can be interrogated which include a current operating state, available energy-saving operating states, a switching characteristic or an operating-state-dependent energy consumption. For a predeterminable goods input history in the industrial automation system, a material ^¬ flow simulation is performed by the invention are determined by the programmable controllers teindividuelle working and idle periods. On the basis of the determined operating and idle times and on the basis of queried energy profile parameters for the selected automation devices, switching sequences are determined for an energy-minimized operation.

Preferably, the switching sequences for a power consumption minimized operation are determined taking into account device dependencies. In addition, according to a further embodiment of the present invention, a power consumption determination is carried out on the basis of determined operating and idle times and on the basis of queried energy profile parameters for a plurality of goods input course variants. Variations of energy consumptions are displayed on a user interface. In addition to the energy consumptions determined by means of variants, advantageously allocated throughput times are represented by the industrial automation system at the user interface for a variant selection. Thus, the best variant in terms of energy consumption or throughput time or a weighted combination of both can be selected.

The simulation system according to the invention to design an energy-efficient operation of automation devices an industrial automation system is to be controlled or monitored via automation devices out ^¬ staltet for mapping and furnished. In addition, the simulation system for assigning each of a fieldbus interface is configured from ^¬ selected automation devices and established between tet. In this case, in each case an automation device for energy consumption control in predetermined operating states can be switched via a fieldbus interface. The selected automation ^¬ tisierungsgeräten may be associated with the simulation system, for example, each have a professional power interface. With ^{¬ means} mapped in the simulation system fieldbus interfaces each energy profile parameters of an associated automation device can be queried, the current Betriebszu ^¬ stand, available energy-saving operating conditions, a toggle characteristic or an operating state-dependent energy consumption.

In addition, the simulation system according to the invention for carrying out a material flow simulation for a specifiable Gütereingangsverlauf in industrial automation ^¬ system and to determine automatisierungsgeräteindivi- duel operating and idle times based on the material flow simulation is designed and set up. Furthermore, the simulation system for determining switching sequences for an energy consumption minimized operation of the selected automation devices based on the determined operating and idle times and based queried energy profile parameters for the selected automation devices configured and configured.

Preferably, the simulation system is designed and set up for determining the switching sequences for an energy-minimized operation taking into account device dependencies. In addition, the simulation system can be designed and set up such that for a plurality of goods receipt process variants an energy consumption determination based on determined operating and idle times and on the basis of queried energy profile parameters is performed, and that variant ^¬ determined energy consumption ^{¬ are} displayed on a user interface.

According to a preferred embodiment, the simulation system is configured and arranged to that at ^¬ addition to those variant as determined energy consumption associated cycle times through the industrial automation ^¬ sierungssystem at the user interface for a variant selection are displayed.

The present invention will be explained in more detail below on a ^¬ exporting approximately example with reference to the drawing. The figure shows a schematic representation of an industrial

Automation system with multiple automation ^¬ approximately devices and a simulation system for planning an energy efficient operation of the automation devices.

The schematically illustrated in the figure industrial car ^¬ tion system comprising a plurality of programmable controllers such as programmable logic controllers 311-313 and by this controlled machining robots 321-323 and drive units 331-332 of a manufacturing station. The programmable logic controllers 311-313 are connected in the present embodiment via a PROFIbus- or PROFInet-based fieldbus system with the processing robots 321-323 and drive units 331-332. In addition, the programmable controllers are connected via 311-313 an industrial communication network 201 with a Simulationssys ^¬ system 101 to prepare an energy efficient operation of the automation devices 311-313, 321-323, 331-332. The simulation system 101 may, for example, inventory of a Engineering system for configuring and monitoring the programmable controllers 311-313, 321-323, 331-332.

The simulation system comprises a plurality of functional modules 111-115 for planning an energy-efficient operation of the programmable controllers 311-313, 321-323, 331-332. This includes a functional module 111 for mapping to be controlled or moni ^¬ chender automation devices, are modeled in the simulation system 101 using its automation ^¬ approximate device. In this case, information from an engineering database 116 can be used. In addition, a function module 112 is provided for the assignment of in each case one fieldbus interface to automation devices. In this way, selected automation devices in the simulation system 101 can each be assigned a fieldbus interface via which an automation device for energy consumption control can be switched to predetermined operating states. In the present embodiment, ^¬ each associated with an energy PROFIener- interface the selected automation ^¬ approximately devices in the Simulation system one hundred and first Means in the simulation system

101 mapped fieldbus interfaces are each interrogated energy profile parameters of an associated automation device, which include a current operating state, available energy-saving operating states, a switching characteristic and an operating state-dependent energy consumption.

In addition, the simulation system 101 comprises a function module 113 for carrying out a material flow simulation for a predefinable goods input course 301 in the industrial automation system. The result of this material flow simulation is a determination of an output profile 302 of finished or semi-finished goods, including allocated throughput times. In addition, the function module 113 uses the material flow simulation to determine automation device-specific operating and idle times.

Furthermore, a function module 114 is provided for determining switching sequences 117 for energy-minimized operation of the selected automation devices. On the basis of the determined operating and idle times and on the basis of the queried energy profile parameters for the selected automation devices, switching sequences 117 for an energy consumption minimized by the function module 114

Operation determined. The switching sequences 117 for energy-consumption- ^minimized operation are determined taking into account device dependencies and transmitted to the programmable controllers 311-313, 321-323, 331-332 for control.

Another function module 115 is provided for a power consumption detection times for egg ^¬ ne plurality of goods Incoming History variants determined on the basis operating and empty and perform based polled energy profile parameters. With this function module 115 variant as determined energy consumption on a user interface ^¬ be visualized. In this case, in addition to the variants of energy consumptions determined throughput times by the industrial automation system at the user interface for a variant selection Darge ^¬ provides. On the basis of the variant selection, associated switching sequences 117 for the programmable controllers 311-313, 321-323, 331-332 are generated.

Claims

claims

1. A method for energy-efficient operation of automation devices of an industrial automation system, in which

- to be controlled and / or monitored Automatisierungsgerä ^¬ te be imaged in a simulation system,

- Selected automation devices in the simulation system is assigned in each case a fieldbus interface over which an automation device for Energiever ^¬ consumption control in predetermined operating states is switchable ^¬ bar,

in each case energy profile parameters of an associated automation device can be interrogated by means of fieldbus interfaces mapped in the simulation system, which comprise a current operating state, available energy-saving operating states, a switching characteristic and / or an operating-state-dependent energy consumption,

- for a predetermined inward cargo performance in the industrial automation system, a material flow simulation is carried out, be ^¬ averages through the automation-device-specific working and idle times he

- Based on the determined operating and idle times and based on queried energy profile parameters for the selected automation devices switching sequences are determined for a power consumption minimized operation.

2. The method according to claim 1,

in which the switching sequences for a power consumption minimized operation are determined taking into account device dependencies.

3. The method according to any one of claims 1 or 2,

in which a power consumption determination is carried out on the basis of determined operating and idle times and on the basis of queried ^{Energieprofilpara ¬} meter for a plurality of Gütereingangsverlaufsvarianten, and in the variant determined te ^¬ te energy consumption at a user interface are Darge ^¬ provides.

4. The method according to claim 3,

are represented by the industrial automation system to the user interface for a variant selection at the assigned in addition to the variant as determined energy consumption ^¬ throughput times.

5. The method according to any one of claims 1 to 4,

in which a PROFIenergy interface is assigned to the selected automation devices in the simulation system.

6. Simulation system for planning an energy-efficient operation of automation devices of an industrial automation system, in which

- The simulation system for mapping to be controlled

and / or supervising automation devices is ausgestal ^¬ tet and furnished

- is designed in the simulation system for assigning each of a fieldbus interface to the selected automation ^¬ devices and arranged, wherein via a fieldbus interface respectively an automation ^¬ device for power consumption control in predetermined operating states can be switched, in each case energy profile parameters of an assigned automation device can be interrogated by means of fieldbus interfaces mapped in the simulation system, which comprise a current operating state, available energy-saving operating states, a switching characteristic and / or an operating-state-dependent energy consumption,

the simulation system for carrying out a material flow simulation for a predefinable incoming goods run in the industrial automation system and for the

Determination of automation device-specific operating and idle times on the basis of the material flow simulation designed and set up,

- The simulation system for determining switching sequences for energy consumption minimized operation of the selected automation devices based on the determined operating and idle times and based queried energy profile parameters for the selected automation devices and configured.

7. Simulation system according to claim 6,

is configured and arranged to that the switching ^¬ advertising sequences determined for a energieverbrauchsminimierten operation taking into account the device dependencies.

8. Simulation system according to one of claims 6 or 7, which is designed and set up that for a plurality of Gütereingangsverlaufsvarianten an energy consumption determination based on determined operating and idle times ^¬ and carried out queried energy profile parameters is performed, and that variants determined Energieverbräu ^¬ che displayed on a user interface.

9. Simulation system according to claim 8,

which is designed and set up that, in addition to the variant energy consumption determined associated throughput times are represented by the industrial automation ^¬ system at the user interface for a variant selection.

10. Simulation system according to one of claims 6 to 9, wherein the selected automation devices in the simulation system is assigned in each case a PROFIenergie interface.