EP1810303B1 - Heat exchanger for a transformer - Google Patents

Heat exchanger for a transformer Download PDF

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Publication number
EP1810303B1
EP1810303B1 EP05813600.3A EP05813600A EP1810303B1 EP 1810303 B1 EP1810303 B1 EP 1810303B1 EP 05813600 A EP05813600 A EP 05813600A EP 1810303 B1 EP1810303 B1 EP 1810303B1
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EP
European Patent Office
Prior art keywords
heat exchanger
opening
heat
transformer
medium
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Application number
EP05813600.3A
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German (de)
French (fr)
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EP1810303A2 (en
Inventor
Emil Bercea
Bo ASTRÖM
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ABB Schweiz AG
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ABB Schweiz AG
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Classifications

    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F28HEAT EXCHANGE IN GENERAL
    • F28FDETAILS OF HEAT-EXCHANGE AND HEAT-TRANSFER APPARATUS, OF GENERAL APPLICATION
    • F28F27/00Control arrangements or safety devices specially adapted for heat-exchange or heat-transfer apparatus
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F28HEAT EXCHANGE IN GENERAL
    • F28DHEAT-EXCHANGE APPARATUS, NOT PROVIDED FOR IN ANOTHER SUBCLASS, IN WHICH THE HEAT-EXCHANGE MEDIA DO NOT COME INTO DIRECT CONTACT
    • F28D21/00Heat-exchange apparatus not covered by any of the groups F28D1/00 - F28D20/00
    • F28D2021/0019Other heat exchangers for particular applications; Heat exchange systems not otherwise provided for
    • F28D2021/0028Other heat exchangers for particular applications; Heat exchange systems not otherwise provided for for cooling heat generating elements, e.g. for cooling electronic components or electric devices
    • F28D2021/0031Radiators for recooling a coolant of cooling systems
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F28HEAT EXCHANGE IN GENERAL
    • F28FDETAILS OF HEAT-EXCHANGE AND HEAT-TRANSFER APPARATUS, OF GENERAL APPLICATION
    • F28F2265/00Safety or protection arrangements; Arrangements for preventing malfunction
    • F28F2265/18Safety or protection arrangements; Arrangements for preventing malfunction for removing contaminants, e.g. for degassing
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01FMAGNETS; INDUCTANCES; TRANSFORMERS; SELECTION OF MATERIALS FOR THEIR MAGNETIC PROPERTIES
    • H01F27/00Details of transformers or inductances, in general
    • H01F27/08Cooling; Ventilating
    • H01F27/10Liquid cooling

Definitions

  • the invention relates to a heat exchanger, in particular for a transformer, with a heat exchange medium, which is hineinleitbar via a feed element in a heat exchange element and via a drain element from the heat exchange element, with a first temperature measurement of an inlet flow of the heat exchange medium and a second temperature measurement of a flow stream of the heat exchange medium ,
  • transformers can be used for a variety of applications.
  • power transformers with a power to be transmitted of at least 5 MVA give it in operation from a considerable amount of heat, which is usually discharged through heat exchangers to the environment.
  • a cooling circuit is provided as a rule, so that the heat exchanger used can optionally be arranged remotely from the transformer.
  • a typical embodiment of such a heat exchange circuit provides that one or more, often identically designed heat exchanger are each supplied via an inlet connection with heat exchange medium.
  • a specially designed surface of the heat exchanger then ensures the best possible heat transfer to a second heat transfer medium, which is also involved as a recooling medium in the heat exchange process. This can be, for example, the surrounding air or a liquid, depending on how the heat exchanger is constructed.
  • the inlet temperature of the heat exchange medium and the outlet temperature from the heat exchanger of the heat exchange medium is measured.
  • special pipe sections are flanged directly to the inlet connection or the outlet connection of the heat exchanger, wherein in these pieces of pipe a dip tube is welded or screwed, which receives a thermometer.
  • the measured temperature in the flow or in the course of the heat exchanger is measured only with a certain time delay, since a change in temperature is first passed to the material of the thermowell and then to the thermometer.
  • the temperature measuring pipe pieces must be considered in the planning of the design of the transformer.
  • the dimensions of the transformer with the heat exchanger will be correspondingly large.
  • the patent document US 4 512 387 A discloses a heat exchanger according to the preamble of claim 1, in particular a system for recovering power loss of power transformers.
  • the cooling is carried out by heat exchanger comprehensive cooling circuits.
  • heat probes are provided in the cooling circuit.
  • the patent document US 2004/158428 A1 discloses a portable cooling system for power transformers, which has a controller, with the various operating modes of the cooling system can be realized. For this purpose, a plurality of sensors are provided, including temperature probes in the cooling circuit.
  • the heat exchanger according to the invention is characterized in that a first opening is arranged in the inlet element, which can be positioned in the inlet flow during operation of the heat exchanger, a first temperature probe to a predetermined location, and that a second opening is arranged in the discharge element, in the operation of the Heat exchanger, a second temperature probe is positioned at a predetermined location in the flow stream.
  • the temperature measurement is now carried out on the heat exchanger itself.
  • the construction is simplified and the possibilities in the arrangement of a heat exchanger with a transformer rise.
  • the position of the temperature measurement is now directly at the inlet or at the outlet of the heat exchange medium at the heat exchanger, so that on closed system prevented.
  • the sole FIGURE shows a radiator 10 which serves as a recooler for a cooling circuit of a power transformer, wherein neither the power transformer, nor other details of the cooling circuit are shown in this figure.
  • the regenerated with the radiator 10 power transformer has a power to be transmitted of about 15 MVA, in the example shown, the only radiator 10 is sufficiently dimensioned for the re-cooling of the heat generated by the power transformer.
  • radiator 10 in case of need, a plurality of such radiator 10 are connected in parallel in the cooling circuit or a cooling requirements corresponding heat exchanger surface is mounted on the radiator 10, so that the cooling capacity of this unit is increased appropriately.
  • the example shown shows the radiator 10 as a stationary heat exchanger, so that in the figure below with the geodetic "bottom” is meant.
  • an inlet connection 12 is shown in the figure at the top of the radiator 10, the flow direction of the inflowing coolant being indicated by a first arrow 14.
  • the inlet nozzle 12 is formed as a pipe piece, which is on the one hand connected to a radiator element 16 and on the other hand, a first flange 18, in particular for direct Connection to the power transformer or a connecting pipe of the coolant circuit is provided.
  • the incoming coolant in this example, a heat exchanger oil, which is often used in transformer cooling circuits, flows through the inlet port 12 to the radiator element 16, wherein the coolant flow is divided into a plurality of ribs 20, so that a plurality of coolant sub-streams are formed, the top down the cooling element 16 go through.
  • the coolant partial flows in turn collect to a common outflow stream. This common outflow flow passes through an outlet connection 22 back to the power transformer or into the coolant circuit.
  • the ribs 20 may be blown by the forced air flow, for example, by a forced flow of convention.
  • the generated air flow is so strong that sets a desired temperature of the coolant in the drain stream.
  • a first opening 24 in the inlet nozzle 12 is arranged.
  • the first sealing element 26 is still shown, which is arranged in the first opening 24.
  • a combined device of venting element and thermocouple medium-tight in the first opening 24 can be inserted. This combined device is not shown in the single FIGURE, but known in the art.
  • the venting device is necessary in particular when filling the coolant circuit or the radiator 10 in order to vent the air collecting at the highest points of the relevant circuit or the radiator 10, which air is gradually displaced by the cooling medium filled in the coolant circuit.
  • the assumption of a further technical function that can be realized according to the invention at the same location of the first opening 24 is the temperature measurement with a first thermocouple.
  • the first thermocouple can now be moved to a position in the pipe section of the inlet nozzle 12, which according to experience best corresponds to the actual inlet temperature of the cooler 10.
  • the first sealing element 26 seals the first thermocouple in the region of the first opening 24 against a possible coolant outlet from the cooling system.
  • the otherwise necessary immersion sleeve for sealing an opening in a pipeline is avoided.
  • the measured value is measured directly by the thermocouple in the coolant and not indirectly via the material of the immersion sleeve and thus damped and delayed. In this way, the measurement has become more accurate and faster.
  • a second opening 30 is disposed at a lower location of the pipe section of the downcomer 22 and provided with a second sealing element 32.
  • the second sealing element 32 is designed with a resilient plastic compound and completely closes the second opening 30, so that no coolant can escape in the inner region of the cooling element 16 or the drain neck 22 even if no thermocouple is inserted.
  • the plastic mass is designed so yielding and provided with a further opening through which the rod-like part of a second thermocouple through the plastic material and the second opening 30 can be inserted and fixed in a desired position.
  • thermocouple 34 is shown only symbolically.
  • a third aperture 36 is also located at a lower location of the radiator element 16, but spaced from the second aperture 30 so far that the devices inserted into the apertures 30, 36 do not interfere with each other.
  • a connecting element 38 Connected to the third opening 36 is a connecting element 38 which is suitable for receiving a discharge device, in this case a shut-off valve 40.
  • the shut-off valve 40 is shown only as a symbol and is designed for example as a shut-off ball valve or gate valve.

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  • Engineering & Computer Science (AREA)
  • Physics & Mathematics (AREA)
  • Thermal Sciences (AREA)
  • Mechanical Engineering (AREA)
  • General Engineering & Computer Science (AREA)
  • Cooling Or The Like Of Electrical Apparatus (AREA)
  • Measuring Temperature Or Quantity Of Heat (AREA)
  • Transformer Cooling (AREA)
  • Heat-Exchange Devices With Radiators And Conduit Assemblies (AREA)
  • Coils Or Transformers For Communication (AREA)

Description

Die Erfindung betrifft einen Wärmetauscher, insbesondere für einen Transformator, mit einem Wärmetauschmedium, welches über ein Zulaufelement in ein Wärmetauschelement hineinleitbar und über ein Ablaufelement aus dem Wärmetauschelement herausleitbar ist, mit einer ersten Temperaturmessung eines Zulaufstroms des Wärmetauschermediums und mit einer zweiten Temperaturmessung eines Ablaufstroms des Wärmetauschmediums.The invention relates to a heat exchanger, in particular for a transformer, with a heat exchange medium, which is hineinleitbar via a feed element in a heat exchange element and via a drain element from the heat exchange element, with a first temperature measurement of an inlet flow of the heat exchange medium and a second temperature measurement of a flow stream of the heat exchange medium ,

Es ist allgemein bekannt, das Transformatoren für eine Vielzahl von Anwendungen einsetzbar sind. Insbesondere Leistungstransformätoren mit einer zu übertragenden Leistung von wenigstens 5 MVA geben dabei im Betrieb eine beachtliche Wärmemenge ab, die üblicherweise über Wärmetauscher an die Umgebung abgegeben wird. Dazu ist in der Regel ein Kühlkreislauf vorgesehen, so dass der verwendete Wärmetauscher gegebenenfalls auch entfernt vom Transformator anordenbar ist.It is well known that transformers can be used for a variety of applications. In particular power transformers with a power to be transmitted of at least 5 MVA give it in operation from a considerable amount of heat, which is usually discharged through heat exchangers to the environment. For this purpose, a cooling circuit is provided as a rule, so that the heat exchanger used can optionally be arranged remotely from the transformer.

Eine übliche Ausgestaltung eines derartigen Wärmetauschkreislaufes sieht vor, dass ein oder mehrere, häufig gleichartig gestalteter Wärmetauscher jeweils über einen Zulaufstutzen mit Wärmetauschmedium versorgt werden. Eine speziell gestaltete Oberfläche des Wärmetauschers sorgt dann für einen möglichst optimalen Wärmeübergang an ein zweites Wärmeträgermadium, das als Rückkühlmedium auch an dem Wärmetauschprozess beteiligt ist. Dies kann zum Beispiel die umgebenden Luft sein oder auch eine Flüssigkeit, je nachdem wie der Wärmetauscher aufgebaut ist.A typical embodiment of such a heat exchange circuit provides that one or more, often identically designed heat exchanger are each supplied via an inlet connection with heat exchange medium. A specially designed surface of the heat exchanger then ensures the best possible heat transfer to a second heat transfer medium, which is also involved as a recooling medium in the heat exchange process. This can be, for example, the surrounding air or a liquid, depending on how the heat exchanger is constructed.

Zur Überprüfung der Wärmebilanz solcher Wärmetauscher ist es nach allgemeinen Regeln der Technik und der Normung vorgeschrieben, dass die Zulauftemperatur des Wärmetauschmediums sowie die Ablauftemperatur aus dem Wärmetauscher des Wärmetauschmediums gemessen wird. Dazu werden spezielle Rohrstücke unmittelbar an den Zulaufstutzen beziehungsweise den Ablaufstutzen des Wärmetauschers angegeflanscht, wobei in diese Rohrstücke eine Tauchhülse eingeschweißt oder eingedreht ist, die einen Thermometer aufnimmt. Bei einer derartigen Anordnung wird die gemessene Temperatur im Vorlauf beziehungsweise im Ablauf des Wärmetauschers erst mit einer bestimmten zeitlichen Verzögerung gemessen, da eine Temperaturänderung erst an das Material der Tauchhülse und danach an den Thermometer weitergegeben wird.To check the heat balance of such heat exchangers, it is prescribed according to general rules of technology and standardization that the inlet temperature of the heat exchange medium and the outlet temperature from the heat exchanger of the heat exchange medium is measured. For this purpose, special pipe sections are flanged directly to the inlet connection or the outlet connection of the heat exchanger, wherein in these pieces of pipe a dip tube is welded or screwed, which receives a thermometer. In such an arrangement, the measured temperature in the flow or in the course of the heat exchanger is measured only with a certain time delay, since a change in temperature is first passed to the material of the thermowell and then to the thermometer.

Zudem müssen die Temperaturmessrohrstücke bei der Planung um Konzeption des Transformators berücksichtigt werden. Die Abmessungen des Transformators mit dem Wärmetauscher werden entsprechend groß ausfallen.In addition, the temperature measuring pipe pieces must be considered in the planning of the design of the transformer. The dimensions of the transformer with the heat exchanger will be correspondingly large.

Das Patentdokument US 4 512 387 A offenbart einen Wärmetauscher gemäß dem Oberbegriff des Anspruchs 1, insbesondere ein System zur Wiedergewinnung von Verlustleistung von Leistungstransformatoren. Im Betrieb eines solchen Transformators erfolgt die Kühlung durch Wärmetauscher umfassende Kühlkreisläufe. Unter anderem zur Überwachung der Funktionalität eines Kühlkreislaufes sind im Kühlkreislauf Wärmesonden vorgesehen.The patent document US 4 512 387 A discloses a heat exchanger according to the preamble of claim 1, in particular a system for recovering power loss of power transformers. In the operation of such a transformer, the cooling is carried out by heat exchanger comprehensive cooling circuits. Among other things, to monitor the functionality of a cooling circuit heat probes are provided in the cooling circuit.

Das Patentdokument US 2004/158428 A1 offenbart ein tragbares Kühlsystem für Leistungstransformatoren, welches über einen Controller verfügt, mit dem verschiedene Betriebsarten des Kühlsystems realisierbar sind. Hierzu sind eine Vielzahl von Sensoren vorgesehen, umfassend auch Temperatursonden im Kühlkreislauf.The patent document US 2004/158428 A1 discloses a portable cooling system for power transformers, which has a controller, with the various operating modes of the cooling system can be realized. For this purpose, a plurality of sensors are provided, including temperature probes in the cooling circuit.

Ausgehend vom vorgenannten Stand der Technik ist es Aufgabe der Erfindung, einen Wärmetauscher für einen Transformator anzugeben, bei dem die Messung verbessert ist.Based on the aforementioned prior art, it is an object of the invention to provide a heat exchanger for a transformer, in which the measurement is improved.

Diese Aufgabe wird gelöst durch den erfindungsgemäßen Wärmetauscher für einen Transformator mit den im Patentanspruch 1 genannten Merkmalen.This object is achieved by the heat exchanger according to the invention for a transformer having the features mentioned in claim 1.

Demgemäß kennzeichnet sich der erfindungsgemäße Wärmetauscher dadurch, dass eine erste Öffnung im Zulaufelement angeordnet ist, die der im Betrieb des Wärmetauschers eine erste Temperatursonde an eine vorbestimmte Stelle im Zulaufstrom positionierbar ist, und dass eine zweite Öffnung im Ablaufelement angeordnet ist, in der im Betrieb des Wärmetauschers eine zweite Temperatursonde an eine vorbestimmte Stelle im Ablaufstrom positioniert ist.Accordingly, the heat exchanger according to the invention is characterized in that a first opening is arranged in the inlet element, which can be positioned in the inlet flow during operation of the heat exchanger, a first temperature probe to a predetermined location, and that a second opening is arranged in the discharge element, in the operation of the Heat exchanger, a second temperature probe is positioned at a predetermined location in the flow stream.

Demnach ist es erfindungsgemäß vorgesehen, dass die Temperaturmessung nunmehr am Wärmetauscher selbst vorgenommen wird. Somit entfallen die seither bekannten Rohrstücke mit jeweils einem Temperaturmessinstrument, das gemäß dem seither bekannten Stand der Technik an den Wärmetauscher angeflanscht wurde. Auf diese Weise ist die Konstruktion vereinfacht und die Möglichkeiten bei der Anordnung von einem Wärmetauscher mit einem Transformator steigen.Accordingly, it is provided according to the invention that the temperature measurement is now carried out on the heat exchanger itself. Thus, the tube pieces known since then, each with a temperature measuring instrument, which was flanged to the heat exchanger according to the prior art known since then. In this way, the construction is simplified and the possibilities in the arrangement of a heat exchanger with a transformer rise.

Zudem ist die Position der Temperaturmessung nunmehr unmittelbar am Eintritt beziehungsweise am Austritt des Wärmetauschmediums am Wärmetauscher, so dass auf
schlossenen System verhindert. Zudem ist mit einer derartigen Anordnung erreicht, dass die Temperaturmessung direkt im Wärmetauschermedium erfolgt. Eine durch die Tauchhülse verursachte Totzeit in der Temperaturmessung ist vermieden.In addition, the position of the temperature measurement is now directly at the inlet or at the outlet of the heat exchange medium at the heat exchanger, so that on
closed system prevented. In addition, it is achieved with such an arrangement that the temperature measurement takes place directly in the heat exchanger medium. A dead time caused by the immersion sleeve in the temperature measurement is avoided.

Weitere vorteilhafte Ausgestaltungen des erfindungsgemäßen Wärmetauschers sind den weiteren abhängigen Ansprüchen zu entnehmen.Further advantageous embodiments of the heat exchanger according to the invention can be found in the further dependent claims.

Anhand des in der Zeichnung dargestellten Ausführungsbeispiels soll die Erfindung, deren vorteilhafte Ausgestaltung und Verbesserungen der Erfindung, sowie besondere Vorteile der Erfindung näher erläutert und beschrieben werden.Reference to the embodiment shown in the drawing, the invention, the advantageous embodiment and improvements of the invention, and particular advantages of the invention will be explained and described in detail.

Es zeigt:

einzige Fig.
einen Transformatorkühler.
It shows:
only Fig.
a transformer cooler.

Die einzige Fig. zeigt einen Kühler 10, der als Rückkühler für einen Kühlkreislauf eines Leistungstransformators dient, wobei weder der Leistungstransformator, noch andere Details des Kühlkreislaufs in dieser Figur dargestellt sind. Der mit dem Kühler 10 rückgekühlte Leistungstransformator hat eine zu übertragende Leistung von etwa 15 MVA, wobei im gezeigten Beispiel der einzige Kühler 10 für die Rückkühlung der anfallenden Wärme des Leistungstransformätors ausreichend dimensioniert ist.The sole FIGURE shows a radiator 10 which serves as a recooler for a cooling circuit of a power transformer, wherein neither the power transformer, nor other details of the cooling circuit are shown in this figure. The regenerated with the radiator 10 power transformer has a power to be transmitted of about 15 MVA, in the example shown, the only radiator 10 is sufficiently dimensioned for the re-cooling of the heat generated by the power transformer.

Es ist aber ohne weiteres denkbar, dass im Bedarfsfalle mehrere solcher Kühler 10 im Kühlkreislauf parallel geschaltet sind oder eine den Kühlungsanforderungen entsprechende Wärmetauscherfläche am Kühler 10 angebracht wird, so dass die Kühlleistung dieser Einheit zweckentsprechend erhöht ist.However, it is readily conceivable that in case of need, a plurality of such radiator 10 are connected in parallel in the cooling circuit or a cooling requirements corresponding heat exchanger surface is mounted on the radiator 10, so that the cooling capacity of this unit is increased appropriately.

Das gezeigte Beispiel zeigt den Kühler 10 als stehenden Wärmetauscher, so dass in der Figur mit unten das geodätisch "unten" gemeint ist. Entsprechend ist in der Figur oben am Kühler 10 ein Zulaufstutzen 12 gezeigt, wobei die Flussrichtung des einströmenden Kühlmittels durch einen ersten Pfeil 14 angedeutet ist. Der Zulaufstutzen 12 ist als Rohrstück ausgebildet, welches einerseits mit einem Kühlerelement 16 verbunden ist und andererseits einen ersten Flansch 18 aufweist, der insbesondere zum direkten Anschluss an den Leistungstransformator oder eine Verbindungsrohrleitung des Kühlmittelkreislaufs vorgesehen ist.The example shown shows the radiator 10 as a stationary heat exchanger, so that in the figure below with the geodetic "bottom" is meant. Correspondingly, an inlet connection 12 is shown in the figure at the top of the radiator 10, the flow direction of the inflowing coolant being indicated by a first arrow 14. The inlet nozzle 12 is formed as a pipe piece, which is on the one hand connected to a radiator element 16 and on the other hand, a first flange 18, in particular for direct Connection to the power transformer or a connecting pipe of the coolant circuit is provided.

Das zuströmende Kühlmittel, in diesem Beispiel ein Wärmetauscheröl, das häufig Anwendung bei Transformatorkühlkreisläufen findet, strömt durch den Zulaufstutzen 12 dem Kühlerelement 16 zu, wobei der Kühlmittelstrom auf mehrere Rippen 20 aufgeteilt wird, so dass mehrere Kühlmittelteilströme entstehen, die von oben nach unten das Kühlelement 16 durchlaufen. Im unteren Bereich des Kühlelements 16 sammeln sich die Kühlmittelteilströme wiederum zu einem gemeinsamen Ablaufstrom. Dieser gemeinsame Ablaufstrom gelangt durch einen Ablaufstutzen 22 zurück zum Leistungstransformator beziehungsweise in den Kühlmittelkreislauf.The incoming coolant, in this example, a heat exchanger oil, which is often used in transformer cooling circuits, flows through the inlet port 12 to the radiator element 16, wherein the coolant flow is divided into a plurality of ribs 20, so that a plurality of coolant sub-streams are formed, the top down the cooling element 16 go through. In the lower region of the cooling element 16, the coolant partial flows in turn collect to a common outflow stream. This common outflow flow passes through an outlet connection 22 back to the power transformer or into the coolant circuit.

Zur Verstärkung des Kühleffekts können die Rippen 20 beispielsweise durch eine Zwangskonventionsströmung von der sie umgebenden Luft beblasen werden. Üblicherweise werden hierfür in dieser Figur nicht dargestellte Ventilatoren verwendet, deren erzeugter Luftstrom so stark ist, dass sich im Ablaufstrom eine gewünschte Temperatur des Kühlmittels einstellt.To enhance the cooling effect, the ribs 20 may be blown by the forced air flow, for example, by a forced flow of convention. Usually not shown in this figure fans are used, the generated air flow is so strong that sets a desired temperature of the coolant in the drain stream.

An der höchsten Stelle des Rohres im Zulaufstutzen 12 und zwar in etwa an der Übergangsstelle zwischen dem Rohrstück und dem Kühlerelement 16 ist eine erste Öffnung 24 im Zulaufstutzen 12 angeordnet. In der gewählten Darstellung ist noch das erste Dichtungselement 26 gezeigt, welches in der ersten Öffnung 24 angeordnet ist. Mit diesem ersten Dichtungselement 26 ist eine kombinierte Vorrichtung aus Entlüftungselement und Thermoelement mediumsdicht in die erste Öffnung 24 einsteckbar. Diese kombinierte Vorrichtung ist in der einzigen Fig. nicht gezeigt, dem Fachmann jedoch bekannt.At the highest point of the tube in the inlet nozzle 12 and indeed approximately at the transition point between the pipe section and the radiator element 16, a first opening 24 in the inlet nozzle 12 is arranged. In the selected representation, the first sealing element 26 is still shown, which is arranged in the first opening 24. With this first sealing element 26, a combined device of venting element and thermocouple medium-tight in the first opening 24 can be inserted. This combined device is not shown in the single FIGURE, but known in the art.

Die Entlüftungsvorrichtung ist insbesondere beim Befüllen des Kühlmittelkreislaufs oder des Kühlers 10 notwendig, um die sich an den höchsten Stellen des betreffenden Kreislaufes oder des Kühlers 10 sammelnde Luft zu entlüften, die nach und nach durch das in den Kühlmittelkreislauf gefüllte Kühlmedium verdrängt wird. Die Übernahme einer weiteren technischen Funktion, die an derselben Stelle der ersten Öffnung 24 erfindungsgemäß realisierbar ist, ist die Temperaturmessung mit einem ersten Thermoelement. Erfindungsgemäß kann das erste Thermoelement nunmehr an eine Position im Rohrstück des Zulaufstutzens 12 verbracht werden, das der tatsächlichen Zulauftemperatur des Kühlers 10 erfahrungsgemäß am besten entspricht. Zudem dichtet das erste Dichtungselement 26 das erste Thermoelement im Bereich der ersten Öffnung 24 gegen einen möglichen Kühlmittelaustritt aus dem Kühlsystem ab. In diesem Beispiel ist die sonst notwendige Tauchhülse zur Abdichtung einer Öffnung in einer Rohrleitung vermieden. Auf diese Weise erfolgt die Messwertaufnahme unmittelbar durch das Thermoelement im Kühlmittel und nicht indirekt über das Material der Tauchhülse und somit gedämpft und verzögert. Derart ist die Messung genauer und schneller geworden.The venting device is necessary in particular when filling the coolant circuit or the radiator 10 in order to vent the air collecting at the highest points of the relevant circuit or the radiator 10, which air is gradually displaced by the cooling medium filled in the coolant circuit. The assumption of a further technical function that can be realized according to the invention at the same location of the first opening 24 is the temperature measurement with a first thermocouple. According to the invention, the first thermocouple can now be moved to a position in the pipe section of the inlet nozzle 12, which according to experience best corresponds to the actual inlet temperature of the cooler 10. In addition, the first sealing element 26 seals the first thermocouple in the region of the first opening 24 against a possible coolant outlet from the cooling system. In this example, the otherwise necessary immersion sleeve for sealing an opening in a pipeline is avoided. In this way, the measured value is measured directly by the thermocouple in the coolant and not indirectly via the material of the immersion sleeve and thus damped and delayed. In this way, the measurement has become more accurate and faster.

Im gezeigten Beispiel ist noch ein weiterer Vorteil erkennbar. Im oberen Bereich des Kühlelements 16 ist noch eine Öse 28 gezeigt, an die, beispielsweise beim Montagearbeiten, der komplette Kühler 10 an ein Hebezeug anhängbar ist. Aufgrund der platzsparenden Doppelfunktion von Temperaturmessung und Entlüftung in der ersten Öffnung 24 wird darüber hinaus im oberen Bereich des Kühlelements 16 aus konstruktiver Sicht kein weiterer Platz benötigt. Somit besteht auch ein größerer Konstruktionsgestaltungsfreiraum, nämlich bei einer Konstruktion des Kühlelements 16, zum Beispiel in dessen oberen Bereich mit einer Schräge, wie dargestellt. Diese Gestaltung berücksichtigt in dem gewählten Beispiel ein spezielles räumliches Montageerfordernis an der Aufstellungsstelle des Kühlers 10.In the example shown, another advantage can be seen. In the upper region of the cooling element 16, an eyelet 28 is still shown, to which, for example during assembly work, the complete radiator 10 can be attached to a hoist. Due to the space-saving dual function of temperature measurement and venting in the first opening 24, no further space is needed in the upper region of the cooling element 16 from a constructive point of view. Thus, there is also greater design freedom, namely in a construction of the cooling element 16, for example in its upper region with a slope, as shown. This design takes into account in the example chosen a special spatial mounting requirement at the site of the radiator 10th

Im unteren Bereich sind die beiden Funktionen der Temperaturmessung und des Kühlmittelablasses an verschiedenen Positionen realisiert. So ist eine zweite Öffnung 30 an einer unten gelegenen Stelle des Rohrstücks des Ablaufstutzens 22 angeordnet und mit einem zweiten Dichtungselement 32 versehen. Das zweite Dichtungselement 32 ist mit einer nachgiebigen Kunststoffmasse ausgestaltet und verschließt die zweite Öffnung 30 vollständig, so dass kein Kühlmittel im inneren Bereich des Kühlelements 16 oder des Ablaufstutzens 22 austreten kann auch wenn kein Thermoelement eingesteckt ist. Die Kunststoffmasse ist jedoch so nachgiebig gestaltet und mit einer weiteren Öffnung versehen, durch die der stabartige Teil eines zweiten Thermoelements durch die Kunststoffmasse und die zweite Öffnung 30 einsteckbar und in einer gewünschten Position fixierbar ist.In the lower area the two functions of the temperature measurement and the coolant drain are realized at different positions. Thus, a second opening 30 is disposed at a lower location of the pipe section of the downcomer 22 and provided with a second sealing element 32. The second sealing element 32 is designed with a resilient plastic compound and completely closes the second opening 30, so that no coolant can escape in the inner region of the cooling element 16 or the drain neck 22 even if no thermocouple is inserted. However, the plastic mass is designed so yielding and provided with a further opening through which the rod-like part of a second thermocouple through the plastic material and the second opening 30 can be inserted and fixed in a desired position.

Für die Fixierung bieten sich verschiedene Möglichkeiten an, zum Beispiel dass der stabartige Teil des Thermoelements mit einem entsprechenden Anschlag versehen ist oder mit einer entsprechenden Verschraubung. Dem Fachmann sind hierfür weitere Möglichkeiten bekannt. In der Figur ist das Thermoelement 34 nur symbolisch dargestellt. Eine dritte Öffnung 36 ist ebenfalls an einer unteren Stelle des Kühlerelements 16 geordnet, jedoch von der zweiten Öffnung 30 so weit beabstandet, dass die in die Öffnungen 30, 36 eingeführten Vorrichtungen sich nicht beeinflussen oder stören. Mit der dritten Öffnung 36 ist ein Anschlusselement 38 verbunden, das zur Aufnahme einer Ablassvorrichtung, hier ein Absperrventil 40, geeignet ist. Das Absperrventil 40 ist lediglich als Symbol dargestellt und ist beispielsweise als Absperrkugelhahn oder Absperrschieber ausgeführt.For fixing there are various possibilities, for example that the rod-like part of the thermocouple is provided with a corresponding stop or with a corresponding screw. The person skilled in the art knows more possibilities for this. In the figure, the thermocouple 34 is shown only symbolically. A third aperture 36 is also located at a lower location of the radiator element 16, but spaced from the second aperture 30 so far that the devices inserted into the apertures 30, 36 do not interfere with each other. Connected to the third opening 36 is a connecting element 38 which is suitable for receiving a discharge device, in this case a shut-off valve 40. The shut-off valve 40 is shown only as a symbol and is designed for example as a shut-off ball valve or gate valve.

Mit der vorstehend beschriebenen erfindungsgemäßen Anordnung ist es auf besonders einfache Weise möglich, sehr genaue Temperaturmessungen unmittelbar im Zulauf- und im Ablaufstrom des Kühlers 10 durchzuführen. Üblicherweise werden solche Messungen an Kühlern durch Normen vorgeschrieben, um die Funktionsweise eines Wärmetauschers zu kontrollieren. Eine Möglichkeit die Messdaten zu bearbeiten besteht darin, diese an eine Prozesssteuerung des Transformators, des Kühlungsmittelkreislaufs oder einer Gesamtanlage weiterzugeben, welche die Auswertung der Messung gegebenenfalls auch die Aufbereitung der Messdaten vornimmt. Zudem besteht die Möglichkeit die Messdaten weiterzuverarbeiten, beispielsweise durch Bildung von Temperaturdifferenzen oder statistischen Auswertungen. Diese Funktionen sind auch durch entsprechende Messgeräte vor Ort realisierbar. Diese sind in der Figur jedoch nicht dargestellt. Jedenfalls ist die Messwertaufnahme in der angegebenen Weise verbessert -gegenüber der seither bekannten.With the arrangement according to the invention described above, it is possible in a particularly simple manner to perform very accurate temperature measurements directly in the inlet and outlet flow of the radiator 10. Typically, such measurements on radiators are dictated by standards to control the operation of a heat exchanger. One way to process the measurement data is to pass it on to a process controller of the transformer, of the coolant circuit or of an overall system which carries out the evaluation of the measurement if necessary also the preparation of the measured data. In addition, it is possible to further process the measurement data, for example by forming temperature differences or statistical evaluations. These functions can also be implemented locally by means of appropriate measuring devices. These are not shown in the figure. In any case, the measured value recording in the specified manner is improved compared to the known since.

BezugszeichenlisteLIST OF REFERENCE NUMBERS

1010
Kühlercooler
1212
Zulaufstutzeninlet connection
1414
erster Pfeilfirst arrow
1616
Kühlelementcooling element
1818
Flanschflange
2020
Rippenribs
2222
Ablaufstutzendrain connection
2424
erste Öffnungfirst opening
2626
erstes Dichtungselementfirst sealing element
2828
Öseeyelet
3030
zweite Öffnungsecond opening
3232
zweites Dichtungselementsecond sealing element
3434
Thermoelementthermocouple
3636
dritte Öffnungthird opening
3838
Anschlusselementconnecting element
4040
Absperrventilshut-off valve

Claims (6)

  1. Heat exchanger for a transformer having a heat exchanger medium, comprising a feed nozzle, a heat exchanger element and a discharge nozzle, wherein the heat exchanger medium can be led via the feed nozzle (12) into the heat exchanging element (16) and can be led via the discharge nozzle (22) out of the heat exchanging element (16), characterized in that in the feed nozzle (12) there is disposed a first opening (24), in which, during operation of the heat exchanger, a first temperature probe is positioned at a predetermined location in the feed current, and in that in the discharge nozzle (22) there is disposed a second opening (30), in which, during operation of the heat exchanger, a second temperature probe (34) is positioned at a predetermined location in the discharge current, so that a first temperature measurement in the feed current of the heat exchanger medium a second temperature measurement in the discharge current of the heat exchanging medium is effected.
  2. Heat exchanger according to Claim 1, characterized in that in the first opening (24) there is additionally disposed a ventilation device.
  3. Heat exchanger according to Claim 1 or 2, characterized in that in the second opening (30) there is additionally disposed a ventilation device (40).
  4. Heat exchanger according to one of the aforementioned claims, characterized in that the first (24) and/or the second opening (30) has a sealing element (26, 32), through which the corresponding temperature probe (34) can be inserted in a heat-exchange-medium-tight manner.
  5. Heat exchanger according to one of the aforementioned claims, characterized in that the temperature probe (34) is a thermocouple.
  6. Heat exchanger according to one of the aforementioned claims, characterized in that the temperature probe (34) is protected by an immersion sleeve.
EP05813600.3A 2004-11-10 2005-11-07 Heat exchanger for a transformer Ceased EP1810303B1 (en)

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
DE102004054180A DE102004054180A1 (en) 2004-11-10 2004-11-10 Heat exchanger for a transformer
PCT/EP2005/011876 WO2006050886A2 (en) 2004-11-10 2005-11-07 Heat exchanger for a transformer

Publications (2)

Publication Number Publication Date
EP1810303A2 EP1810303A2 (en) 2007-07-25
EP1810303B1 true EP1810303B1 (en) 2017-07-12

Family

ID=36217269

Family Applications (1)

Application Number Title Priority Date Filing Date
EP05813600.3A Ceased EP1810303B1 (en) 2004-11-10 2005-11-07 Heat exchanger for a transformer

Country Status (6)

Country Link
US (1) US9909825B2 (en)
EP (1) EP1810303B1 (en)
CN (1) CN101084560B (en)
BR (1) BRPI0517304A (en)
DE (1) DE102004054180A1 (en)
WO (1) WO2006050886A2 (en)

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CN112912975A (en) * 2018-10-19 2021-06-04 Abb电网瑞士股份公司 Heat sink for a transformer with improved cooling
EP3855261B1 (en) * 2020-01-27 2024-05-15 ABB Schweiz AG Determining control parameters for an industrial automation device

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Also Published As

Publication number Publication date
CN101084560B (en) 2011-04-20
WO2006050886A2 (en) 2006-05-18
DE102004054180A1 (en) 2006-05-11
US9909825B2 (en) 2018-03-06
EP1810303A2 (en) 2007-07-25
US20090000763A1 (en) 2009-01-01
CN101084560A (en) 2007-12-05
BRPI0517304A (en) 2008-10-07
WO2006050886A3 (en) 2006-09-08

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