EP2699806B1 - Electropneumatic position controller - Google Patents

Electropneumatic position controller Download PDF

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Publication number
EP2699806B1
EP2699806B1 EP12715905.1A EP12715905A EP2699806B1 EP 2699806 B1 EP2699806 B1 EP 2699806B1 EP 12715905 A EP12715905 A EP 12715905A EP 2699806 B1 EP2699806 B1 EP 2699806B1
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EP
European Patent Office
Prior art keywords
valve group
electropneumatic
housing
pressure
valve
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Not-in-force
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EP12715905.1A
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German (de)
French (fr)
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EP2699806A1 (en
Inventor
Andre-Heinrich Meinhof
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Siemens AG
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Siemens AG
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Classifications

    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F15FLUID-PRESSURE ACTUATORS; HYDRAULICS OR PNEUMATICS IN GENERAL
    • F15BSYSTEMS ACTING BY MEANS OF FLUIDS IN GENERAL; FLUID-PRESSURE ACTUATORS, e.g. SERVOMOTORS; DETAILS OF FLUID-PRESSURE SYSTEMS, NOT OTHERWISE PROVIDED FOR
    • F15B20/00Safety arrangements for fluid actuator systems; Applications of safety devices in fluid actuator systems; Emergency measures for fluid actuator systems
    • F15B20/005Leakage; Spillage; Hose burst
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F15FLUID-PRESSURE ACTUATORS; HYDRAULICS OR PNEUMATICS IN GENERAL
    • F15BSYSTEMS ACTING BY MEANS OF FLUIDS IN GENERAL; FLUID-PRESSURE ACTUATORS, e.g. SERVOMOTORS; DETAILS OF FLUID-PRESSURE SYSTEMS, NOT OTHERWISE PROVIDED FOR
    • F15B19/00Testing; Calibrating; Fault detection or monitoring; Simulation or modelling of fluid-pressure systems or apparatus not otherwise provided for
    • F15B19/005Fault detection or monitoring
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F15FLUID-PRESSURE ACTUATORS; HYDRAULICS OR PNEUMATICS IN GENERAL
    • F15BSYSTEMS ACTING BY MEANS OF FLUIDS IN GENERAL; FLUID-PRESSURE ACTUATORS, e.g. SERVOMOTORS; DETAILS OF FLUID-PRESSURE SYSTEMS, NOT OTHERWISE PROVIDED FOR
    • F15B2211/00Circuits for servomotor systems
    • F15B2211/30Directional control
    • F15B2211/305Directional control characterised by the type of valves
    • F15B2211/3056Assemblies of multiple valves
    • F15B2211/30565Assemblies of multiple valves having multiple valves for a single output member, e.g. for creating higher valve function by use of multiple valves like two 2/2-valves replacing a 5/3-valve
    • F15B2211/30575Assemblies of multiple valves having multiple valves for a single output member, e.g. for creating higher valve function by use of multiple valves like two 2/2-valves replacing a 5/3-valve in a Wheatstone Bridge arrangement (also half bridges)
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F15FLUID-PRESSURE ACTUATORS; HYDRAULICS OR PNEUMATICS IN GENERAL
    • F15BSYSTEMS ACTING BY MEANS OF FLUIDS IN GENERAL; FLUID-PRESSURE ACTUATORS, e.g. SERVOMOTORS; DETAILS OF FLUID-PRESSURE SYSTEMS, NOT OTHERWISE PROVIDED FOR
    • F15B2211/00Circuits for servomotor systems
    • F15B2211/60Circuit components or control therefor
    • F15B2211/63Electronic controllers
    • F15B2211/6303Electronic controllers using input signals
    • F15B2211/6306Electronic controllers using input signals representing a pressure
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F15FLUID-PRESSURE ACTUATORS; HYDRAULICS OR PNEUMATICS IN GENERAL
    • F15BSYSTEMS ACTING BY MEANS OF FLUIDS IN GENERAL; FLUID-PRESSURE ACTUATORS, e.g. SERVOMOTORS; DETAILS OF FLUID-PRESSURE SYSTEMS, NOT OTHERWISE PROVIDED FOR
    • F15B2211/00Circuits for servomotor systems
    • F15B2211/80Other types of control related to particular problems or conditions
    • F15B2211/87Detection of failures
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F15FLUID-PRESSURE ACTUATORS; HYDRAULICS OR PNEUMATICS IN GENERAL
    • F15BSYSTEMS ACTING BY MEANS OF FLUIDS IN GENERAL; FLUID-PRESSURE ACTUATORS, e.g. SERVOMOTORS; DETAILS OF FLUID-PRESSURE SYSTEMS, NOT OTHERWISE PROVIDED FOR
    • F15B2211/00Circuits for servomotor systems
    • F15B2211/80Other types of control related to particular problems or conditions
    • F15B2211/875Control measures for coping with failures
    • F15B2211/8752Emergency operation mode, e.g. fail-safe operation mode
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F15FLUID-PRESSURE ACTUATORS; HYDRAULICS OR PNEUMATICS IN GENERAL
    • F15BSYSTEMS ACTING BY MEANS OF FLUIDS IN GENERAL; FLUID-PRESSURE ACTUATORS, e.g. SERVOMOTORS; DETAILS OF FLUID-PRESSURE SYSTEMS, NOT OTHERWISE PROVIDED FOR
    • F15B2211/00Circuits for servomotor systems
    • F15B2211/80Other types of control related to particular problems or conditions
    • F15B2211/885Control specific to the type of fluid, e.g. specific to magnetorheological fluid
    • F15B2211/8855Compressible fluids, e.g. specific to pneumatics

Definitions

  • the invention relates to an electropneumatic positioner with a supply air connection for connecting a compressed air supply line, with at least one exhaust connection for connecting a pneumatic drive of a control device and with a valve disposed in the positioner controllable valve group according to the preamble of claim 1.
  • pneumatic actuators are often used as actuators in which an on an actuator, such as a connected to a closing body lifting rod, acting membrane with the aid of a gaseous medium, for which hereinafter generally the term "air" is used with variable pressure is applied to generate movements.
  • the pressurization can take place on one side, wherein the membrane is loaded on the other side with a spring, or on two sides, with different pressures on both sides of the membrane cause the deflection.
  • the control of the pressures or by an electropneumatic positioner in which at least one controllable valve pressurized supply air distributed depending on the control via one or two exhaust ports on the one or both sides of the membrane in the actuator.
  • a two-stage pilot valve for use in an electropneumatic positioner known.
  • a first stage four flow resistances, of which at least one flow resistance is variable, are arranged in a bridge circuit.
  • Two opposite circuit points of the bridge circuit are connected to supply air or exhaust air to the environment.
  • a variable in size and sign pressure difference ready is used between the two other circuit points.
  • a valve group which has an actuated by the pressure difference control piston.
  • a pneumatic valve in the valve group is actuated, either depending on the control via the supply air supplied compressed air to the exhaust port to the actuator or derived via the same exhaust port air supplied to the outside.
  • the pneumatic drive of a control valve is connected to the exhaust air connection.
  • the drive controlled by the positioner automatically brings the process valve into a safety position, ie a safe position in the environment of the respective process, usually "open" or "close”.
  • a positioner and an actuator with such a positioner known.
  • the actuator has a seal, in particular a sliding seal
  • a leakage chamber is provided on the side of the seal which is remote from the pressure, which is connected to a pressure switch which, when a set pressure is exceeded, sends a signal to the actuator Positioner generated.
  • a seal in particular, the usual in control valves fabric bushing comes into question.
  • the signaling can be used to generate an alarm or perform a safety routine.
  • the DE 196 36 418 C2 discloses the use of a gas tight housing for a positioner.
  • the invention has for its object to provide an electropneumatic positioner, which is characterized by increased functional safety.
  • the invention has the advantage that a much larger number of possibly occurring error cases can now be classified as harmless errors.
  • the ratio between dangerous errors and non-dangerous errors is therefore much cheaper.
  • the invention is based on the recognition that material wear in seals or membranes, which are used in valves of a valve group, usually first expressed as compressed air leakage at the valves and leads to their pressure in a gas-tight housing to an increase in pressure within the housing. If there is a creeping or a sudden leak, for example if one of them breaks Membrane, within the housing, so the resulting pressure increase is detected by means of a pressure switch, which cooperates with the valves of the valve group and this controls so that the valve group is placed in a predetermined safety position.
  • valve groups in electro-pneumatic positioners are usually housed anyway in a separate housing, the invention is associated with only a small additional effort.
  • the existing housing must namely be supplemented only by a suitable housing seal.
  • the pressure monitor and the control of the valve group in order to put them in safety position when the internal pressure of the housing is too high, can be realized by electronic or electromechanical means, for example a pressure sensor with a downstream electromagnet.
  • electronic or electromechanical means for example a pressure sensor with a downstream electromagnet.
  • these are operated exclusively pneumatically, so that advantageously no electrical auxiliary energy is required for their operation, which is available only to a limited extent in particular for field instruments of process instrumentation, which are operated with a 4 to 20 mA interface.
  • the safety position is approached completely independently of the operability of the electronics of the electropneumatic positioner and thus further increases the functional safety.
  • a shutter is provided for venting the housing with a predetermined maximum air flow.
  • the housing interior is then connected via the aperture as a flow resistance with the environment of the electropneumatic positioner.
  • the aperture may be sized so that an air flow of one liter per minute leads to a pressure increase of 0.8 bar in the housing interior, in which the pressure switch responds and the valve group in the safety position.
  • an electropneumatic positioner in which the valve group is preceded by an electropneumatic converter, preferably the exhaust side of the orifice is connected to the exhaust outlet of the converter.
  • the position of the valve group by a controller electronics which is usually present in electropneumatic positioner, detectable, so that it outputs a signal indicating an error condition, for example in the form of an alarm message via a fieldbus when the valve group itself is in the safety position, but this state does not correspond to the control of the valve group by the controller electronics and any of these downstream electro-pneumatic converter.
  • an automation device or a control station as a receiver of the alarm this can be further processed and output to an operator, so that it can be initiated by this maintenance or other appropriate actions to handle the reported error condition.
  • the pneumatic positioner has a pilot valve 3 and a controller electronics 4.
  • An air supply connection 5 serves to connect a compressed air supply line 6, via which, for example, compressed air at 6 bar pressure to the pilot valve 3 is supplied.
  • the upper chamber 7 of the drive 1 is connected to an exhaust port 8 of the pilot valve.
  • a supply air valve 9 compressed air from the compressed air supply line 6 or derived from the pressure chamber 7 by means of an exhaust valve 10 via a valve outlet 11 into the environment.
  • an electropneumatic converter 12 which is designed in a known manner as a bridge circuit of flow resistances, and a booster drive 13 for actuating the supply air valve. 9 and the exhaust valve 10 in accordance with the pressure difference set by means of the electropneumatic converter 12.
  • a pressure regulator 19 By a pressure regulator 19, the supply pressure of, for example, 6 bar to a regulated pressure of, for example, 1.4 bar, which is applied to the bridge circuit of the electropneumatic converter 12, reduced.
  • a valve group of the electropneumatic positioner which consists in the embodiment shown from the supply air valve 9, the exhaust valve 10 and the booster drive 13 is disposed in a gas-tight housing 14 within the positioner.
  • a pressure switch 15 the pressure prevailing within the housing 14 is monitored for maintaining a predetermined threshold value of, for example, 0.8 bar. All free internal spaces within the gas-tight housing 14, the pressure chambers of the booster drive 13 opposite areas, the area around the valves 9 and 10, located in the valve group spring chambers and the area around the locking device of the valves 9 and 10 are pneumatically interconnected.
  • a leak such as a crack in a membrane of the booster drive 13, so escapes compressed air through the leak in the gas-tight interior of the housing 14 and leads to a pressure increase, which is detected by the pressure switch 15.
  • the pressure switch 15 As long as the pressure does not exceed a threshold value of 0.8 bar, the pressure monitor 15 does not intervene in the regulation of the position of the actuating device 2. However, as soon as the pressure rises above the limit value, the pressure monitor 15 opens the exhaust air valve 10.
  • the supply air valve 9 is closed at the same time by the locking device, not shown in the figure, so that the pressure in the pressure chamber 7 of the drive 1 drops rapidly and the actuating device 2 in the safety position, which corresponds to an "opening" of the process valve in the embodiment shown, is offset.
  • the required switching state of the valve group is also referred to as a safety position.
  • the process valve to be arranged so that it "closes" at pressure drop in the chamber 7.
  • additional components for example the electropneumatic converter 12, the pressure regulator 19 and / or the pressure monitor 15, can additionally be integrated into the housing 14.
  • a diaphragm 16 is provided, which can also be referred to as throttle or flow resistance and is connected between the interior of the housing 14 and an exhaust outlet 17 of the electropneumatic converter 12.
  • the orifice 16 is for example adjusted so that a leakage of one liter per minute leads to a pressure increase of 0.8 bar in the housing 14.
  • the pressure switch 15 therefore only responds when the air flow through the throttle 16 exceeds one liter per minute or if the exhaust port 17 of the converter 12 is clogged due to, for example, icing or soiling.
  • the current position of the valves 9 and 10 is taken into account in the controller electronics 4.
  • the controller electronics 4 In order to detect a response of the pressure switch 15 and thereby caused starting the safety position by the valve group with the valves 9 and 10, is additionally checked in the controller electronics 4, whether the position of the supply air valve 9 and the exhaust valve 10 with the by the control electronics 4 via the electro-pneumatic transducer 12 corresponds to the predetermined position.
  • a mismatch while simultaneously taking the safety position by the valve group evaluates the controller electronics 4 as a fault condition and generates a corresponding alarm message, for example, via a fieldbus 18, with which the electropneumatic positioner is integrated into an automation network of an automation system, for example, to a higher-level control station so that appropriate action can be taken to remedy it in response to the error that has occurred.

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  • Engineering & Computer Science (AREA)
  • Physics & Mathematics (AREA)
  • Fluid Mechanics (AREA)
  • Mechanical Engineering (AREA)
  • General Engineering & Computer Science (AREA)
  • Chemical & Material Sciences (AREA)
  • Analytical Chemistry (AREA)
  • Fluid-Pressure Circuits (AREA)
  • Control Of Fluid Pressure (AREA)
  • Fluid-Driven Valves (AREA)
  • Indication Of The Valve Opening Or Closing Status (AREA)

Description

Die Erfindung betrifft einen elektropneumatischen Stellungsregler mit einem Zuluftanschluss zum Anschließen einer Druckluftversorgungsleitung, mit zumindest einem Abluftanschluss zum Anschließen eines pneumatischen Antriebs eines Stellgeräts und mit einer in dem Stellungsregler angeordneten steuerbaren Ventilgruppe gemäß dem Oberbegriff des Anspruchs 1.The invention relates to an electropneumatic positioner with a supply air connection for connecting a compressed air supply line, with at least one exhaust connection for connecting a pneumatic drive of a control device and with a valve disposed in the positioner controllable valve group according to the preamble of claim 1.

Zur Steuerung von Prozessventilen werden häufig pneumatische Stellantriebe als Stellgeräte eingesetzt, in denen eine auf ein Stellglied, beispielsweise eine mit einem Schließkörper verbundene Hubstange, wirkende Membran mit Hilfe eines gasförmigen Mediums, für das hier im Weiteren allgemein der Begriff "Luft" verwendet wird, mit veränderlichem Druck zur Erzeugung von Bewegungen beaufschlagt wird. Die Druckbeaufschlagung kann einseitig erfolgen, wobei die Membran auf der anderen Seite mit einer Feder belastet ist, oder zweiseitig, wobei unterschiedliche Drücke auf beiden Seiten der Membran die Auslenkung verursachen. Die Regelung des oder der Drücke erfolgt durch einen elektropneumatischen Stellungsregler, in welchem zumindest ein ansteuerbares Ventil unter Druck stehende Zuluft je nach Ansteuerung über einen bzw. zwei Abluftanschlüsse auf die eine bzw. auf beide Membranseiten in dem Stellantrieb verteilt.For the control of process valves pneumatic actuators are often used as actuators in which an on an actuator, such as a connected to a closing body lifting rod, acting membrane with the aid of a gaseous medium, for which hereinafter generally the term "air" is used with variable pressure is applied to generate movements. The pressurization can take place on one side, wherein the membrane is loaded on the other side with a spring, or on two sides, with different pressures on both sides of the membrane cause the deflection. The control of the pressures or by an electropneumatic positioner, in which at least one controllable valve pressurized supply air distributed depending on the control via one or two exhaust ports on the one or both sides of the membrane in the actuator.

Aus der DE 10 2004 048 689 B3 ist ein zweistufiges Vorsteuerventil zur Verwendung in einem elektropneumatischen Stellungsregler bekannt. In einer ersten Stufe sind vier Strömungswiderstände, von denen mindestens ein Strömungswiderstand veränderlich ist, in einer Brückenschaltung angeordnet. Zwei gegenüberliegende Schaltungspunkte der Brückenschaltung sind mit Zuluft bzw. Abluft zur Umgebung hin verbunden. Zwischen den beiden anderen Schaltungspunkten steht eine in Größe und Vorzeichen veränderliche Druckdifferenz bereit, die als pneumatisches Ausgangssignal des damit in der ersten Stufe realisierten elektropneumatischen Wandlers zur Ansteuerung der nachgeordneten zweiten Stufe dient. In der zweiten Stufe befindet sich eine Ventilgruppe, die einen von der Druckdifferenz betätigbaren Steuerkolben aufweist. Durch diesen wird ein pneumatisches Ventil in der Ventilgruppe betätigt, das je nach Ansteuerung entweder über die Zuluftleitung zugeführte Druckluft zu dem Abluftanschluss zum Stellantrieb hinleitet oder über denselben Abluftanschluss zugeführte Luft nach außen ableitet. An den Abluftanschluss ist beispielsweise der pneumatische Antrieb eines Regelventils angeschlossen. Bei Ausfall der pneumatischen Energie (Druckluft) wird oft gefordert, dass der von dem Stellungsregler angesteuerte Antrieb das Prozessventil automatisch in eine Sicherheitsstellung, d. h. eine im Umfeld des jeweiligen Prozesses sichere Position, in der Regel "Öffnen" oder "Schließen", bringt.From the DE 10 2004 048 689 B3 is a two-stage pilot valve for use in an electropneumatic positioner known. In a first stage, four flow resistances, of which at least one flow resistance is variable, are arranged in a bridge circuit. Two opposite circuit points of the bridge circuit are connected to supply air or exhaust air to the environment. Between the two other circuit points is a variable in size and sign pressure difference ready, as a pneumatic output of the so in the first stage realized electropneumatic converter for controlling the downstream second stage is used. In the second stage is a valve group, which has an actuated by the pressure difference control piston. By this a pneumatic valve in the valve group is actuated, either depending on the control via the supply air supplied compressed air to the exhaust port to the actuator or derived via the same exhaust port air supplied to the outside. For example, the pneumatic drive of a control valve is connected to the exhaust air connection. In the event of failure of the pneumatic energy (compressed air), it is often required that the drive controlled by the positioner automatically brings the process valve into a safety position, ie a safe position in the environment of the respective process, usually "open" or "close".

Zunehmend wird auch bei Auftreten anderer Fehler in elektropneumatischen Stellungsreglern im Rahmen der funktionalen Sicherheit, die in Sicherheitsanforderungsstufen oder "Safety Integrity Level" (SIL) klassifiziert ist, ein möglichst sicheres Erreichen der vorgegebenen Sicherheitsstellung gefordert. Es kann nämlich bei einer Fehlerbewertung zwischen gefährlichen Fehlern, bei welchen durch den Fehler oder auf eine Anforderung hin die Sicherheitsstellung nicht mehr angefahren werden kann, und ungefährlichen Fehlern, bei welchen das Gerät zwar nicht mehr funktionsfähig ist, jedoch in die vorgegebene Sicherheitsstellung versetzt wird, unterschieden werden. Materialverschleiß in Ventilen der Ventilgruppe, insbesondere bei den an Ventilen häufig verwendeten Dichtungen oder Membranen, kann bisher häufig zu gefährlichen Fehlern an elektropneumatischen Stellungsreglern führen.Increasingly, the occurrence of other failures in electropneumatic positioners in the context of functional safety, which is classified in Safety Requirements Level or "Safety Integrity Level" (SIL), requires the most secure attainment possible of the given safety position. It can namely in an error assessment between dangerous errors in which the safety position can not be approached by the error or on a request, and non-dangerous errors in which the device is no longer functional, but is placed in the predetermined safety position, be differentiated. Material wear in valves of the valve group, in particular in the seals or membranes commonly used on valves, can often lead to dangerous errors in electropneumatic positioner.

Aus der DE 42 39 431 A1 sind ein Stellungsregler sowie ein Stellglied mit einem solchen Stellungsregler bekannt. Zur Überwachung wird, sofern das Stellglied eine Dichtung, insbesondere eine Gleitdichtung, aufweist, auf der druckabgewandten Seite der Dichtung ein Leckageraum vorgesehen, welcher mit einem Druckschalter verbunden ist, der bei Überschreiten eines eingestellten Druckes eine Signalgabe an den Stellungsregler erzeugt. Als Dichtung kommt insbesondere die bei Regelventilen üblicherweise vorhandene Stoffbuchse in Frage. Mit Hilfe des Druckschalters kann überwacht werden, ob sich im Leckageraum auf Grund einer Leckage ein über dem zulässigen Druck liegender Druck ausbildet. Die Signalgabe kann zur Erzeugung eines Alarms oder zur Durchführung einer Sicherheitsroutine verwendet werden.From the DE 42 39 431 A1 are a positioner and an actuator with such a positioner known. For monitoring purposes, if the actuator has a seal, in particular a sliding seal, a leakage chamber is provided on the side of the seal which is remote from the pressure, which is connected to a pressure switch which, when a set pressure is exceeded, sends a signal to the actuator Positioner generated. As a seal, in particular, the usual in control valves fabric bushing comes into question. With the help of the pressure switch can be monitored whether a leakage above the allowable pressure is formed in the leakage chamber due to leakage. The signaling can be used to generate an alarm or perform a safety routine.

Aus der US 2003/0208305 A1 ist ein Verfahren zum Feststellen einer Leckage mithilfe von im Regelkreis eines pneumatischen Ventils gemessenen Parametern bekannt.From the US 2003/0208305 A1 For example, a method for detecting a leak by using parameters measured in the control loop of a pneumatic valve is known.

Die DE 196 36 418 C2 offenbart die Verwendung eines gasdichten Gehäuses für einen Stellungsregler.The DE 196 36 418 C2 discloses the use of a gas tight housing for a positioner.

Der Erfindung liegt die Aufgabe zugrunde, einen elektropneumatischen Stellungsregler zu schaffen, der sich durch eine erhöhte funktionale Sicherheit auszeichnet.The invention has for its object to provide an electropneumatic positioner, which is characterized by increased functional safety.

Zur Lösung dieser Aufgabe weist der neue elektropneumatische Stellungsregler der eingangs genannten Art die im kennzeichnenden Teil des Anspruchs 1 angegebenen Merkmale auf. In den abhängigen Ansprüchen sind vorteilhafte Weiterbildungen der Erfindung beschrieben.To solve this problem, the new electropneumatic positioner of the type mentioned in the characterizing part of claim 1 features. In the dependent claims advantageous developments of the invention are described.

Die Erfindung hat den Vorteil, dass eine wesentlich größere Anzahl eventuell auftretender Fehlerfälle nun als ungefährliche Fehler klassifiziert werden kann. Das Verhältnis zwischen gefährlichen Fehlern und ungefährlichen Fehlern wird daher deutlich günstiger.The invention has the advantage that a much larger number of possibly occurring error cases can now be classified as harmless errors. The ratio between dangerous errors and non-dangerous errors is therefore much cheaper.

Die Erfindung beruht auf der Erkenntnis, dass sich Materialverschleiß bei Dichtungen oder Membranen, welche in Ventilen einer Ventilgruppe Verwendung finden, meist zunächst als Druckluftleckage an den Ventilen äußert und bei deren Unterbringung in einem gasdichten Gehäuse zu einer Druckerhöhung innerhalb des Gehäuses führt. Tritt eine schleichende oder eine plötzliche Leckage, beispielsweise bei Reißen einer Membran, innerhalb des Gehäuses auf, so wird die dabei entstehende Druckerhöhung mittels eines Druckwächters festgestellt, der mit den Ventilen der Ventilgruppe zusammenwirkt und diese derart ansteuert, dass die Ventilgruppe in eine vorgegebene Sicherheitsstellung versetzt wird.The invention is based on the recognition that material wear in seals or membranes, which are used in valves of a valve group, usually first expressed as compressed air leakage at the valves and leads to their pressure in a gas-tight housing to an increase in pressure within the housing. If there is a creeping or a sudden leak, for example if one of them breaks Membrane, within the housing, so the resulting pressure increase is detected by means of a pressure switch, which cooperates with the valves of the valve group and this controls so that the valve group is placed in a predetermined safety position.

Da Ventilgruppen in elektropneumatischen Stellungsreglern meist ohnehin in einem gesonderten Gehäuse untergebracht werden, ist die Erfindung lediglich mit einem geringen Mehraufwand verbunden. Das vorhandene Gehäuse muss nämlich nur um eine geeignete Gehäuseabdichtung ergänzt werden.Since valve groups in electro-pneumatic positioners are usually housed anyway in a separate housing, the invention is associated with only a small additional effort. The existing housing must namely be supplemented only by a suitable housing seal.

Prinzipiell können der Druckwächter und die Ansteuerung der Ventilgruppe, um diese bei zu hohem Gehäuseinnendruck in Sicherheitsstellung zu versetzen, durch elektronische oder elektromechanische Mittel, beispielsweise einen Drucksensor mit nachgeschaltetem Elektromagneten, realisiert werden. Vorzugsweise werden diese jedoch ausschließlich pneumatisch betrieben, so dass in vorteilhafter Weise zu ihrem Betrieb keinerlei elektrische Hilfsenergie benötigt wird, die insbesondere bei Feldgeräten der Prozessinstrumentierung, welche mit 4 bis 20 mA-Schnittstelle betrieben werden, nur beschränkt zur Verfügung steht. Zudem wird bei einer derartigen Realisierung die Sicherheitsstellung völlig unabhängig von der Betriebsfähigkeit der Elektronik des elektropneumatischen Stellungsreglers angefahren und somit die funktionale Sicherheit weiter erhöht.In principle, the pressure monitor and the control of the valve group, in order to put them in safety position when the internal pressure of the housing is too high, can be realized by electronic or electromechanical means, for example a pressure sensor with a downstream electromagnet. Preferably, however, these are operated exclusively pneumatically, so that advantageously no electrical auxiliary energy is required for their operation, which is available only to a limited extent in particular for field instruments of process instrumentation, which are operated with a 4 to 20 mA interface. In addition, in such a realization, the safety position is approached completely independently of the operability of the electronics of the electropneumatic positioner and thus further increases the functional safety.

Da eine geringe Leckage bis zu einer gewissen Grenze ohne Betriebsbeeinträchtigungen zulässig ist, wird eine Blende zur Entlüftung des Gehäuses mit einem vorbestimmten maximalen Luftdurchfluss vorgesehen.Since a small leakage is allowed to a certain limit without operational impairments, a shutter is provided for venting the housing with a predetermined maximum air flow.

Das Gehäuseinnere ist dann über die Blende als Strömungswiderstand mit der Umgebung des elektropneumatischen Stellungsreglers verbunden. In einem Ausführungsbeispiel kann die Blende so bemessen sein, dass ein Luftdurchfluss von einem Liter pro Minute zu einem Druckanstieg von 0,8 bar im Gehäuseinnenraum führt, bei welchem der Druckwächter anspricht und die Ventilgruppe in Sicherheitsstellung versetzt.The housing interior is then connected via the aperture as a flow resistance with the environment of the electropneumatic positioner. In one embodiment, the aperture may be sized so that an air flow of one liter per minute leads to a pressure increase of 0.8 bar in the housing interior, in which the pressure switch responds and the valve group in the safety position.

Bei einer Ausgestaltung eines elektropneumatischen Stellungsreglers, in welcher der Ventilgruppe ein elektropneumatischer Wandler vorgeschaltet ist, wird vorzugsweise die Abluftseite der Blende auf den Abluftausgang des Wandlers geschaltet. Das hat den Vorteil, dass neben der Überwachung der Ventilgruppe auf Einhalten der zulässigen Leckage auch der Abluftausgang des elektropneumatischen Wandlers auf freie Durchgängigkeit geprüft wird, da ein Verstopfen des Ausgangs, beispielsweise wegen Vereisung oder Verschmutzung der Austrittsöffnung, selbst bei geringer Leckage zu einer Erhöhung des Gehäuseinnendrucks führt und somit auch bei dieser Störung die Ventilgruppe in die Sicherheitsstellung versetzt wird. Damit kann auch ein Verschluss des Ausgangs des elektropneumatischen Wandlers als ungefährlicher Fehler klassifiziert werden, der ansonsten zur Wirkungslosigkeit der Ansteuerung der Ventilgruppe und damit zu einem gefährlichen Fehler des Stellungsreglers führen könnte.In one embodiment of an electropneumatic positioner in which the valve group is preceded by an electropneumatic converter, preferably the exhaust side of the orifice is connected to the exhaust outlet of the converter. This has the advantage that in addition to the monitoring of the valve group on compliance with the permissible leakage and the exhaust air outlet the electro-pneumatic converter is checked for free continuity, since clogging of the output, for example due to icing or contamination of the outlet opening, even with low leakage leads to an increase in the internal pressure of the housing and thus the valve group is placed in the safety position even in this disorder. Thus, a closure of the output of the electropneumatic converter can be classified as a non-dangerous error that could otherwise lead to the inefficiency of the control of the valve group and thus to a dangerous error of the positioner.

Gemäß einer vorteilhaften Weiterbildung der Erfindung ist die Stellung der Ventilgruppe durch eine Reglerelektronik, die üblicherweise in elektropneumatischen Stellungsreglern vorhanden ist, erfassbar, so dass diese ein Signal zur Anzeige eines Fehlerzustands, beispielsweise in Form einer Alarmmeldung über einen Feldbus, ausgibt, wenn die Ventilgruppe sich in der Sicherheitsstellung befindet, dieser Zustand jedoch nicht der Ansteuerung der Ventilgruppe durch die Reglerelektronik und einem eventuell dieser nachgeschalteten elektropneumatischen Wandler entspricht. In einem Automatisierungsgerät oder einer Leitstation als Empfänger des Alarms kann dieser weiterverarbeitet und an einen Bediener ausgegeben werden, so dass durch diesen Wartungsarbeiten oder sonstige geeignete Aktionen zur Behandlung des gemeldeten Fehlerzustands eingeleitet werden können.According to an advantageous embodiment of the invention, the position of the valve group by a controller electronics, which is usually present in electropneumatic positioner, detectable, so that it outputs a signal indicating an error condition, for example in the form of an alarm message via a fieldbus when the valve group itself is in the safety position, but this state does not correspond to the control of the valve group by the controller electronics and any of these downstream electro-pneumatic converter. In an automation device or a control station as a receiver of the alarm, this can be further processed and output to an operator, so that it can be initiated by this maintenance or other appropriate actions to handle the reported error condition.

Anhand der Zeichnung, in der ein Ausführungsbeispiel der Erfindung dargestellt ist, werden im Folgenden die Erfindung sowie Ausgestaltungen und Vorteile näher erläutert.Reference to the drawing, in which an embodiment of the invention is shown, the invention and refinements and advantages are explained in more detail below.

In der Figur sind lediglich die zum Verständnis der Erfindung beitragenden Teile eines elektropneumatischen Stellungsreglers sowie ein daran angeschlossener pneumatischer Antrieb 1 für ein Stellgerät 2, hier ein Prozessventil, dargestellt. Der pneumatische Stellungsregler weist ein Vorsteuerventil 3 sowie eine Reglerelektronik 4 auf. Ein Zuluftanschluss 5 dient zum Anschließen einer Druckluftversorgungsleitung 6, über welche beispielsweise Druckluft mit 6 bar Druck dem Vorsteuerventil 3 zugeführt wird. Die obere Kammer 7 des Antriebs 1 ist mit einem Abluftanschluss 8 des Vorsteuerventils verbunden. Je nach Ansteuerung wird der Kammer 7 entweder mittels eines Zuluftventils 9 Druckluft von der Druckluftversorgungsleitung 6 zugeleitet oder von der Druckkammer 7 mittels eines Abluftventils 10 über einen Ventilausgang 11 in die Umgebung abgeleitet. Durch eine geeignete Verriegelungsmechanik, welche der Übersichtlichkeit wegen in der Figur nicht dargestellt ist, wird dafür gesorgt, dass die beiden Ventile 9 und 10 nie gleichzeitig geöffnet sind, da sonst Druckluft ungenutzt in die Umgebung entweichen könnte. Zur Regelung der Position des Stellgeräts 2 über den in der Druckkammer 7 des Antriebs 1 eingestellten Druck dienen die Reglerelektronik 4, ein elektropneumatischer Wandler 12, der in bekannter Weise als Brückenschaltung von Strömungswiderständen ausgeführt ist, und ein Booster-Antrieb 13 zur Betätigung des Zuluftventils 9 und des Abluftventils 10 entsprechend der mit Hilfe des elektropneumatischen Wandlers 12 eingestellten Druckdifferenz.In the figure, only the contributing to understanding of the invention parts of an electropneumatic positioner and a connected thereto pneumatic drive 1 for a control device 2, here a process valve shown. The pneumatic positioner has a pilot valve 3 and a controller electronics 4. An air supply connection 5 serves to connect a compressed air supply line 6, via which, for example, compressed air at 6 bar pressure to the pilot valve 3 is supplied. The upper chamber 7 of the drive 1 is connected to an exhaust port 8 of the pilot valve. Depending on the control of the chamber 7 is supplied either by means of a supply air valve 9 compressed air from the compressed air supply line 6 or derived from the pressure chamber 7 by means of an exhaust valve 10 via a valve outlet 11 into the environment. By a suitable locking mechanism, which is not shown for clarity in the figure, it is ensured that the two valves 9 and 10 are never opened at the same time, otherwise compressed air could escape unused into the environment. To control the position of the actuating device 2 via the pressure set in the pressure chamber 7 of the drive 1, the controller electronics 4, an electropneumatic converter 12, which is designed in a known manner as a bridge circuit of flow resistances, and a booster drive 13 for actuating the supply air valve. 9 and the exhaust valve 10 in accordance with the pressure difference set by means of the electropneumatic converter 12.

Durch einen Druckregler 19 wird der Versorgungsdruck von beispielsweise 6 bar auf einen geregelten Druck von beispielsweise 1,4 bar, welcher an der Brückenschaltung des elektropneumatischen Wandlers 12 anliegt, reduziert.By a pressure regulator 19, the supply pressure of, for example, 6 bar to a regulated pressure of, for example, 1.4 bar, which is applied to the bridge circuit of the electropneumatic converter 12, reduced.

Eine Ventilgruppe des elektropneumatischen Stellungsreglers, die in dem gezeigten Ausführungsbeispiel aus dem Zuluftventil 9, dem Abluftventil 10 und dem Booster-Antrieb 13 besteht, ist in einem gasdichten Gehäuse 14 innerhalb des Stellungsreglers angeordnet. Durch einen Druckwächter 15 wird der innerhalb des Gehäuses 14 herrschende Druck auf Einhalten eines vorbestimmten Schwellwerts von beispielsweise 0,8 bar überwacht. Alle freien Innenräume innerhalb des gasdichten Gehäuses 14, die den Druckkammern des Booster-Antriebs 13 entgegengesetzten Bereiche, der Bereich um die Ventile 9 und 10, in der Ventilgruppe befindliche Federkammern und der Bereich um die Verriegelungseinrichtung der Ventile 9 und 10 sind pneumatisch miteinander verbunden. Tritt in der Ventilgruppe eine Leckage, beispielsweise ein Riss in einer Membran des Booster-Antriebs 13, auf, so entweicht Druckluft durch die Leckstelle in den gasdichten Innenraum des Gehäuses 14 und führt zu einer Druckerhöhung, die durch den Druckwächter 15 erfasst wird. Solange der Druck einen Schwellwert von 0,8 bar nicht überschreitet, greift der Druckwächter 15 nicht in die Regelung der Stellung des Stellgeräts 2 ein. Sobald jedoch der Druck über den Grenzwert hinaus ansteigt, öffnet der Druckwächter 15 das Abluftventil 10. Durch die in der Figur nicht dargestellte Verriegelungseinrichtung wird gleichzeitig das Zuluftventil 9 geschlossen, so dass der Druck in der Druckkammer 7 des Antriebs 1 schnell abfällt und das Stellgerät 2 in die Sicherheitsstellung, die in dem gezeigten Ausführungsbeispiel einem "Öffnen" des Prozessventils entspricht, versetzt wird. Der dazu erforderliche Schaltzustand der Ventilgruppe wird ebenfalls als Sicherheitsstellung bezeichnet.A valve group of the electropneumatic positioner, which consists in the embodiment shown from the supply air valve 9, the exhaust valve 10 and the booster drive 13 is disposed in a gas-tight housing 14 within the positioner. By a pressure switch 15, the pressure prevailing within the housing 14 is monitored for maintaining a predetermined threshold value of, for example, 0.8 bar. All free internal spaces within the gas-tight housing 14, the pressure chambers of the booster drive 13 opposite areas, the area around the valves 9 and 10, located in the valve group spring chambers and the area around the locking device of the valves 9 and 10 are pneumatically interconnected. Occurs in the valve group a leak, such as a crack in a membrane of the booster drive 13, so escapes compressed air through the leak in the gas-tight interior of the housing 14 and leads to a pressure increase, which is detected by the pressure switch 15. As long as the pressure does not exceed a threshold value of 0.8 bar, the pressure monitor 15 does not intervene in the regulation of the position of the actuating device 2. However, as soon as the pressure rises above the limit value, the pressure monitor 15 opens the exhaust air valve 10. The supply air valve 9 is closed at the same time by the locking device, not shown in the figure, so that the pressure in the pressure chamber 7 of the drive 1 drops rapidly and the actuating device 2 in the safety position, which corresponds to an "opening" of the process valve in the embodiment shown, is offset. The required switching state of the valve group is also referred to as a safety position.

Abweichend von dem beschriebenen Ausführungsbeispiel ist es in einer alternativen Ausgestaltung selbstverständlich möglich, das Prozessventil so anzuordnen, dass es bei Druckabfall in der Kammer 7 "schließt". In einer weiteren Abwandlung des Ausführungsbeispiels können zusätzliche Komponenten, beispielsweise der elektropneumatische Wandler 12, der Druckregler 19 und/oder der Druckwächter 15, zusätzlich in das Gehäuse 14 integriert werden.Notwithstanding the described embodiment, it is of course possible in an alternative embodiment, the process valve to be arranged so that it "closes" at pressure drop in the chamber 7. In a further modification of the exemplary embodiment, additional components, for example the electropneumatic converter 12, the pressure regulator 19 and / or the pressure monitor 15, can additionally be integrated into the housing 14.

Geringe Leckagen an der Ventilgruppe im Gehäuse 14 müssen noch nicht zwangsläufig zu Funktionsbeeinträchtigungen führen. Um zu vermeiden, dass schon bei geringen Leckagen die Sicherheitsstellung des Stellgeräts 2 eingenommen wird, ist eine Blende 16 vorgesehen, die auch als Drossel oder Strömungswiderstand bezeichnet werden kann und zwischen den Innenraum des Gehäuses 14 und einen Abluftausgang 17 des elektropneumatischen Wandlers 12 geschaltet ist. Die Blende 16 ist beispielsweise so eingestellt, dass eine Leckage von einem Liter pro Minute zu einem Druckanstieg von 0,8 bar im Gehäuse 14 führt. Der Druckwächter 15 spricht daher erst an, wenn der Luftstrom durch die Drossel 16 einen Liter pro Minute übersteigt oder wenn der Abluftausgang 17 des Wandlers 12 beispielsweise aufgrund von Vereisung oder Verschmutzung verstopft ist.Small leaks on the valve group in the housing 14 do not necessarily lead to functional impairment. In order to avoid that the safety position of the actuator 2 is taken even at low leakage, a diaphragm 16 is provided, which can also be referred to as throttle or flow resistance and is connected between the interior of the housing 14 and an exhaust outlet 17 of the electropneumatic converter 12. The orifice 16 is for example adjusted so that a leakage of one liter per minute leads to a pressure increase of 0.8 bar in the housing 14. The pressure switch 15 therefore only responds when the air flow through the throttle 16 exceeds one liter per minute or if the exhaust port 17 of the converter 12 is clogged due to, for example, icing or soiling.

Zur Durchführung der Regelung wird in der Reglerelektronik 4 die aktuelle Stellung der Ventile 9 und 10 berücksichtigt. Um ein Ansprechen des Druckwächters 15 und ein dadurch verursachtes Anfahren der Sicherheitsstellung durch die Ventilgruppe mit den Ventilen 9 und 10 zu erkennen, wird in der Reglerelektronik 4 zusätzlich überprüft, ob die Stellung des Zuluftventils 9 und des Abluftventils 10 mit der durch die Reglerelektronik 4 über den elektropneumatischen Wandler 12 vorgegebenen Stellung übereinstimmt. Eine fehlende Übereinstimmung bei gleichzeitiger Einnahme der Sicherheitsstellung durch die Ventilgruppe bewertet die Reglerelektronik 4 als Fehlerzustand und erzeugt eine entsprechende Alarmmeldung, die beispielsweise über einen Feldbus 18, mit welchem der elektropneumatische Stellungsregler in ein Automatisierungsnetzwerk einer automatisierungstechnischen Anlage eingebunden ist, beispielsweise an eine übergeordnete Leitstation ausgegeben wird, so dass in Reaktion auf den aufgetretenen Fehler geeignete Maßnahmen zu dessen Behebung eingeleitet werden können.To carry out the control, the current position of the valves 9 and 10 is taken into account in the controller electronics 4. In order to detect a response of the pressure switch 15 and thereby caused starting the safety position by the valve group with the valves 9 and 10, is additionally checked in the controller electronics 4, whether the position of the supply air valve 9 and the exhaust valve 10 with the by the control electronics 4 via the electro-pneumatic transducer 12 corresponds to the predetermined position. A mismatch while simultaneously taking the safety position by the valve group evaluates the controller electronics 4 as a fault condition and generates a corresponding alarm message, for example, via a fieldbus 18, with which the electropneumatic positioner is integrated into an automation network of an automation system, for example, to a higher-level control station so that appropriate action can be taken to remedy it in response to the error that has occurred.

Claims (4)

  1. Electropneumatic position regulator
    having a feed air port (5) for the connection of a compressed-air supply line (6),
    having at least one exit air port (8) for the connection of a pneumatic drive (1) of a servo unit (2), and
    having a controllable valve group (9, 10, 13) which is arranged in the position regulator and which has at least one valve (9, 10), by means of which valve group, during normal operation and depending on the actuation of the valve group, either compressed air supplied via the compressed-air supply line can be conducted to the exit air port (8) or air supplied via the exit air port (8) can be discharged to the outside, characterized
    in that the controllable valve group (9, 10, 13) is arranged in a gas-tight housing (14) within the position regulator,
    in that means (15) are provided for monitoring the pressure prevailing in the housing and for actuating the valve group (9, 10, 13) such that the valve group (9, 10, 13) is placed into a predefined safe position if the pressure in the housing exceeds a predetermined threshold value, and
    in that an aperture (16) is provided for ventilating the housing (14) with a predetermined maximum throughflow.
  2. Electropneumatic position regulator according to Claim 1, characterized in that the means (15) for monitoring and actuation are realized in pneumatic form and are designed to pneumatically actuate the valve group (9, 10, 13).
  3. Electropneumatic position regulator according to Claim 2, characterized in that an electropneumatic transducer (12) is connected upstream of the valve group (9, 10, 13), and in that the exit air side of the aperture (16) is connected to the exit air outlet (17) of the transducer (12).
  4. Electropneumatic position regulator according to one of the preceding claims, characterized in that the position of the valve group (9, 10, 13) can be detected by regulator electronics (4), and in that the regulator electronics (4) are designed to output a signal (18) for displaying a fault state if the valve group (9, 10, 13) is in the safe position and this does not correspond to the actuation of the valve group (9, 10, 13) by the regulator electronics (4).
EP12715905.1A 2011-04-18 2012-04-11 Electropneumatic position controller Not-in-force EP2699806B1 (en)

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DE102011007629A DE102011007629B3 (en) 2011-04-18 2011-04-18 Electropneumatic positioner
PCT/EP2012/056498 WO2012143265A1 (en) 2011-04-18 2012-04-11 Electropneumatic position controller

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EP2699806A1 EP2699806A1 (en) 2014-02-26
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US9534617B2 (en) 2017-01-03
EP2699806A1 (en) 2014-02-26
CN103477093B (en) 2015-11-25
DE102011007629B3 (en) 2012-09-27
CN103477093A (en) 2013-12-25
US20140060029A1 (en) 2014-03-06
WO2012143265A1 (en) 2012-10-26

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