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EP2378225B1 - Condenser for an air conditioner, in particular for a motor vehicle - Google Patents

Condenser for an air conditioner, in particular for a motor vehicle Download PDF

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Publication number
EP2378225B1
EP2378225B1 EP11165641.9A EP11165641A EP2378225B1 EP 2378225 B1 EP2378225 B1 EP 2378225B1 EP 11165641 A EP11165641 A EP 11165641A EP 2378225 B1 EP2378225 B1 EP 2378225B1
Authority
EP
European Patent Office
Prior art keywords
collector
flow pipe
dryer
condenser according
filter
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Not-in-force
Application number
EP11165641.9A
Other languages
German (de)
French (fr)
Other versions
EP2378225A2 (en
EP2378225A3 (en
Inventor
Georg Feldhaus
Uwe FÖRSTER
Martin Kaspar
Kurt Molt
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Mahle Behr GmbH and Co KG
Original Assignee
Mahle Behr GmbH and Co KG
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Mahle Behr GmbH and Co KG filed Critical Mahle Behr GmbH and Co KG
Publication of EP2378225A2 publication Critical patent/EP2378225A2/en
Publication of EP2378225A3 publication Critical patent/EP2378225A3/en
Application granted granted Critical
Publication of EP2378225B1 publication Critical patent/EP2378225B1/en
Not-in-force legal-status Critical Current
Anticipated expiration legal-status Critical

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Classifications

    • 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
    • F28D1/00Heat-exchange apparatus having stationary conduit assemblies for one heat-exchange medium only, the media being in contact with different sides of the conduit wall, in which the other heat-exchange medium is a large body of fluid, e.g. domestic or motor car radiators
    • F28D1/02Heat-exchange apparatus having stationary conduit assemblies for one heat-exchange medium only, the media being in contact with different sides of the conduit wall, in which the other heat-exchange medium is a large body of fluid, e.g. domestic or motor car radiators with heat-exchange conduits immersed in the body of fluid
    • F28D1/04Heat-exchange apparatus having stationary conduit assemblies for one heat-exchange medium only, the media being in contact with different sides of the conduit wall, in which the other heat-exchange medium is a large body of fluid, e.g. domestic or motor car radiators with heat-exchange conduits immersed in the body of fluid with tubular conduits
    • F28D1/053Heat-exchange apparatus having stationary conduit assemblies for one heat-exchange medium only, the media being in contact with different sides of the conduit wall, in which the other heat-exchange medium is a large body of fluid, e.g. domestic or motor car radiators with heat-exchange conduits immersed in the body of fluid with tubular conduits the conduits being straight
    • F28D1/0535Heat-exchange apparatus having stationary conduit assemblies for one heat-exchange medium only, the media being in contact with different sides of the conduit wall, in which the other heat-exchange medium is a large body of fluid, e.g. domestic or motor car radiators with heat-exchange conduits immersed in the body of fluid with tubular conduits the conduits being straight the conduits having a non-circular cross-section
    • F28D1/05366Assemblies of conduits connected to common headers, e.g. core type radiators
    • F28D1/05375Assemblies of conduits connected to common headers, e.g. core type radiators with particular pattern of flow, e.g. change of flow direction
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F25REFRIGERATION OR COOLING; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS; MANUFACTURE OR STORAGE OF ICE; LIQUEFACTION SOLIDIFICATION OF GASES
    • F25BREFRIGERATION MACHINES, PLANTS OR SYSTEMS; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS
    • F25B39/00Evaporators; Condensers
    • F25B39/04Condensers
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F25REFRIGERATION OR COOLING; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS; MANUFACTURE OR STORAGE OF ICE; LIQUEFACTION SOLIDIFICATION OF GASES
    • F25BREFRIGERATION MACHINES, PLANTS OR SYSTEMS; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS
    • F25B2339/00Details of evaporators; Details of condensers
    • F25B2339/04Details of condensers
    • F25B2339/044Condensers with an integrated receiver
    • F25B2339/0441Condensers with an integrated receiver containing a drier or a filter
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F25REFRIGERATION OR COOLING; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS; MANUFACTURE OR STORAGE OF ICE; LIQUEFACTION SOLIDIFICATION OF GASES
    • F25BREFRIGERATION MACHINES, PLANTS OR SYSTEMS; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS
    • F25B40/00Subcoolers, desuperheaters or superheaters
    • F25B40/02Subcoolers
    • 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
    • F28D2021/0068Other heat exchangers for particular applications; Heat exchange systems not otherwise provided for for refrigerant cycles
    • F28D2021/007Condensers
    • 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
    • F28D2021/008Other heat exchangers for particular applications; Heat exchange systems not otherwise provided for for vehicles
    • F28D2021/0084Condensers

Definitions

  • the invention relates to a condenser for an air conditioner according to the preamble of claim 1 - known by the FR 2 764 680 ,
  • Condensers for air conditioning systems of motor vehicles are usually flowed through in several floods from top to bottom, wherein in the lower part of the condenser is a subcooling section, in which the refrigerant is cooled below the condensation temperature.
  • Such cross-flow capacitors which also have a built-in collector with dryer, have been characterized by the DE 103 06 192 A1 .
  • DE 103 38 526 A1 and the DE 198 48 744 A1 the applicant known.
  • this type is less advantageous with underlying subcooling, namely, when the condenser in the lower end face area another heat exchanger, eg. B. an intercooler is connected upstream.
  • the subcooling portion of the condenser is not sufficiently cooled. It has therefore already been proposed capacitors with overhead subcooling, as by the DE 198 30 329 A1 and the DE 199 12 381 A1 the applicant known.
  • the known cross-flow condenser to a lower condensation section, which is flowed through from top to bottom, and an overhead supercooling section, which communicates with the lower region of the collector via a arranged in the collector and the manifold refrigerant pipe.
  • the known capacitor (the Applicant) a bottom condensing section, which is flowed through from bottom to top, ie the refrigerant leaves the Kondensierabrough in the upper region and then enters a collector, which receives a dryer-filter insert, which is penetrated by a riser.
  • the dryer-filter insert is arranged in the lower area of the collector, while in the central area of the collector is a space for receiving liquid and gaseous refrigerant.
  • a deflection space is arranged, from which liquid refrigerant passes through the riser and an upper chamber in the collector in the overhead subcooling.
  • a drop tube is provided in the collector, which - indirectly - is connected via a plug to the transfer opening of the condensing section and conducts the refrigerant to the filter dryer.
  • the downpipe is passed through the filter dryer through into a chamber into which the refrigerant enters while reducing its flow velocity with simultaneous degassing.
  • the filter dryer, d. H. the molecular sieve is not flowed through, but due to density differences of the refrigerant.
  • the plug, the riser and / or the downpipe can be integrally formed and advantageously also connected to the dryer-filter insert to form a unit, which can be used as a prefabricated part in the collector and also exchanged for maintenance purposes ,
  • For the collector is provided with a detachable closure.
  • Fig. 1 shows a multi-flow permeable cross-flow condenser 1, which has a tube fin block 2, laterally arranged manifolds 3, 4 and an integrated collector 5.
  • the pointing in alternating directions arrows P1, P2, P3, P4, P5 and P6 represent the flow directions of the refrigerant in individual pipe groups of the pipe fin block 2, not shown, wherein the refrigerant enters via a lower nozzle 3a and an overhead nozzle 3b exit.
  • the tube fin block 2 consists of a condensing section, which corresponds to the arrows P1 to P5, and a above the Kondensierabiteses arranged subcooling section, which is indicated by the arrow P6.
  • the subcooling section flows substantially liquid refrigerant, which is cooled by the ambient air, which acts on the condenser 1, below the condensation temperature of the refrigerant. Subsequently, the refrigerant leaves the condenser 1 via the connection 3b.
  • Fig. 2 shows the collector 5 with manifold 4 of the capacitor 1 in section in a 3-D representation. From the manifold 4, only the two upper chambers 4a, 4b are shown, which with the last passage P5 of the Kondensierabiteses of the capacitor or with the sub-cooling path P6 are connected.
  • the collector 5 is - as known from the prior art mentioned - from a cylindrical container, which is composed of a tube 5a and an extruded profile piece 5 b.
  • the collector 5 is undetachably closed at the bottom by a soldered-in bottom 6 and closed at the top by a detachable sealing plug 7.
  • the chamber 4a is connected via a first Obertrittsö réelle 8 and the chamber 4b via a second transfer opening 9 with the interior of the collector 5 on the refrigerant side.
  • a filter drier 10 also called dryer-filter insert
  • a drier material a so-called molecular sieve and on its top and bottom, d, h.
  • Refrigerant inlet and refrigerant outlet side a sieve, z. B. in the form of a nonwoven (not shown) for filtering the refrigerant.
  • a plug 11 is arranged, which is peripherally sealed via an O-ring 12 in the region between the two transfer openings 8, 9 with respect to the interior of the profile piece 5b.
  • an inflow chamber 13 is formed in the region of the transfer opening 8.
  • a storage chamber 14 which serves to store liquid and / or gaseous refrigerant.
  • a riser 15 is arranged, which is passed through the filter-dryer 10, immersed down into the storage space 14 and extends to the bottom 6 and extends up into the plug 11 which connects the riser 15 via an opening 11a with the chamber 4b and thus with the subcooling section P6. In the plug 11 thus takes place, not shown deflection of the refrigerant from the riser 15 into the chamber 4 b instead.
  • the riser 15 has in the region of the bottom 6 an opening 15 a, via which refrigerant can enter the riser 15.
  • the function of the previously described collector 5 with filter-drier 10 is as follows:
  • the refrigerant emerging from the last passage P5 of the condensing section of the condenser 1 passes via the transfer opening 8 into the inflow chamber 13, where the refrigerant evenly distributed over the cross section of the collector 5 and thus reduced in its flow velocity.
  • the refrigerant flows (forcibly) through the filter dryer 10, through which it is filtered and dried.
  • the filter-drier 10 After exiting the filter-drier 10, the refrigerant passes into the storage space 14, where its flow rate is further reduced, thereby gaseous components of the refrigerant can be deposited, which rise upwards and collect in the upper region of the storage space 14.
  • the refrigerant enters the riser 15 via the inlet opening 15a and flows through it from bottom to top, ie it passes through the filter drier 10 in the riser 15 and enters the plug 11 where it is deflected into the chamber 4b and enters from there into the subcooling section P6.
  • the collector 5 has a releasable sealing plug 7, the filter-dryer 10, the riser 15 and the plug 11 can be exchanged for maintenance purposes. This is particularly easy to handle when filter dryer 10, riser 15 and plug 11 are formed as a prefabricated contiguous unit.
  • FIG. 3 and FIG. 4 show as an embodiment of the invention, the collector 5 with manifold 4, wherein the same reference numerals are used for the same parts as before.
  • the chambers 4a and 4b of the manifold 4 are connected via the transfer openings 8, 9 with the collector 5.
  • the filter-drier 10 is arranged in Fig. 3 only partially, that is shown with an upper end flange 10a and a lower end flange 10 b
  • the filter-dryer 10 is penetrated by the riser 16.
  • a plug 16 is arranged in the collector 5, which has two with the Matterbaumsörfnitch 8, 9 aligned channel openings 17, 18, between which an O-ring 16a is arranged for sealing the channel opening 17 is via an inflow passage 17a connected to a drop tube 19, the upper tube end opens into the inflow passage 17 a and is received by the plug 16.
  • the drop tube 19 extends down to near the end flange 10a of the filter dryer 10 and has at the bottom Pipe end diametrically opposite outflow openings 19a.
  • a deflection chamber 20 for the refrigerant is provided below the filter drier 10, ie between the lower end flange 10b and the bottom 6, into which the lowermost end 15a of the riser tube projects with an inlet opening (not shown).
  • the upper end 15b of the riser 15 is received in the plug 16 and connected to a deflection channel 18a, which leads to the channel outlet opening 18 and thus into the chamber 4b of the subcooling path P6.
  • the collector 5 with downpipe 19 operates as follows: The refrigerant passes from the last flow path P5 of the condensing section via the chamber 4a and the inflow channel 17 directly into the downpipe 19, in which it flows downwards through the outflow openings 19a, the refrigerant exits on both sides of the Downpipe 19 and thus distributed to the inner cross section of the collector 5, which is accompanied by a delay in the flow rate. The refrigerant then enters the filter-dryer 10, which it flows (forced) from top to bottom. This is done at the entrance and exit by non-illustrated webs filtering the refrigerant.
  • the thus dried refrigerant passes after exiting the filter-drier 10 in the lower deflection chamber 20, then enters the lower tube end 15a of the riser 15 and flows through this from bottom to top to stopper 16, in which it deflected and into the chamber 4b is passed to the subcooling path P6. Due to the delay of the refrigerant flow at the exit from the downpipe 19 gaseous components can be separated from the liquid refrigerant, which rise to the top. Further degassing may take place on the way through the filter dryer 10. Through the downpipe 19 and its direct connection to the chamber 4a is prevented that separated gas constituents mix with the liquid supplied from the Kondensierabites refrigerant. Below the plug can thus form a gas space for separated gas bubbles, which is separated and sealed against the Kondensierabites and the inflowing refrigerant.
  • Fig. 5 and Fig. 6 show as a further embodiment of the invention, the collector 5 with manifold 4 (again, the same reference numerals used for the same parts) with a continuous, ie the filter dryer 10 passing down tube 21.
  • the arrangement and design of the plug 16 corresponds to that in the previous embodiment according to the FIGS. 3 and 4 , Likewise, the upper pipe ends of downpipe 21 and riser 15 are received in the plug 16 and connected via deflection in the plug 16 with the chambers 4a, 4b of the manifold 4. Below the filter dryer 10 and the lower end flange 10b, a chamber 22 is arranged, in which the lower tube end 21a of the downpipe 21 opens.
  • the chamber 22 is bounded below by a front flange 22 a, but downwardly open, where the deflection space 20 is located with the lower tube end 15 a of the riser 15.
  • the filter-dryer has on both sides in the region of the end flanges 10a, 10b formed as nonwovens filter or sieves (not shown).
  • the execution of the collector 5 with a continuous downpipe 21 works as follows:
  • the refrigerant enters - analogous to the previous embodiment - directly into the downcomer 21 and flows through this from top to bottom and occurs only in the chamber 22 at the lower end of the pipe 21a from the downpipe 21st out.
  • the refrigerant is distributed to the cross section of the collector, which results in a delay of the flow velocity and thus the possibility for the deposition of gaseous components.
  • a portion of the refrigerant thus rises upward through the filter-dryer 10 and comes in this way in contact with the dryer substance, whereby a drying takes place.
  • the filter dryer 10, d. H. his dryer substance is thus not forced through this.
  • the other part of the refrigerant flows - according to the arrow U - in the deflection chamber 20 and then enters the lower tube end 15 a of the riser 15 a. Subsequently, as in the previous exemplary embodiment, the refrigerant flows via the riser pipe 15 and the plug 16 into the subcooling section P6.
  • the invention is not limited to filter dryers filled with granules of hygroscopic material. Possible within the scope of the invention are also compact dryers, which consist of a solid plastic mass with intercalated molecular sieve - as in DE 102 34 889 A1 the applicant described.

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  • Engineering & Computer Science (AREA)
  • Physics & Mathematics (AREA)
  • Thermal Sciences (AREA)
  • Mechanical Engineering (AREA)
  • General Engineering & Computer Science (AREA)
  • Air-Conditioning For Vehicles (AREA)
  • Vaporization, Distillation, Condensation, Sublimation, And Cold Traps (AREA)
  • Heat-Exchange Devices With Radiators And Conduit Assemblies (AREA)
  • Details Of Heat-Exchange And Heat-Transfer (AREA)

Description

Die Erfindung betrifft einen Kondensator für eine Klimaanlage nach dem Oberbegriff des Patentanspruches 1 - bekannt durch die FR 2 764 680 .The invention relates to a condenser for an air conditioner according to the preamble of claim 1 - known by the FR 2 764 680 ,

Kondensatoren für Klimaanlagen von Kraftfahrzeugen werden in der Regel mehrflutig von oben nach unten durchströmt, wobei sich im unteren Bereich des Kondensators ein Unterkühlabschnitt befindet, in welchem das Kältemittel unter die Kondensationstemperatur abgekühlt wird. Derartige Querstromkondensatoren, die auch einen integrierten Sammler mit Trockner aufweisen, wurden durch die DE 103 06 192 A1 , DE 103 38 526 A1 und die DE 198 48 744 A1 der Anmelderin bekannt. Bei bestimmten Einbausituationen im Fahrzeug ist diese Bauart mit unten liegender Unterkühlstrecke weniger vorteilhaft, nämlich dann, wenn dem Kondensator im unteren Stirnflächenbereich ein weiterer Wärmeübertrager, z. B. ein Ladeluftkühler vorgeschaltet ist. In diesem Falle wird der Unterkühlabschnitt des Kondensators nicht hinreichend gekühlt. Man hat daher bereits Kondensatoren mit oben liegender Unterkühlstrecke vorgeschlagen, wie durch die DE 198 30 329 A1 und die DE 199 12 381 A1 der Anmelderin bekannt. Im ersten Falle weist der bekannte Querstromkondensator einen unten liegenden Kondensationsabschnitt auf, der von oben nach unten durchströmt wird, sowie einen oben liegenden Unterkühlungsabschnitt, welcher über eine im Sammler bzw. im Sammelrohr angeordnete Kältemittelleitung mit dem unteren Bereich des Sammlers in Verbindung steht. Im zweiten Falle weist der bekannte Kondensator (der Anmelderin) einen unten liegenden Kondensierabschnitt auf, welcher von unten nach oben durchströmt wird, d. h. das Kältemittel verlässt den Kondensierabschnitt im oberen Bereich und tritt dann in einen Sammler über, welcher einen Trockner-Filter-Einsatz, der von einem Steigrohr durchsetzt wird, aufnimmt. Der Trockner-Filter-Einsatz ist im unteren Bereich des Sammlers angeordnet, während sich im mittleren Bereich des Sammlers ein Raum zur Aufnahme von flüssigem und gasförmigem Kältemittel befindet. Unterhalb des Trockners ist ein Umlenkraum angeordnet, von dem aus flüssiges Kältemittel über das Steigrohr und eine obere Kammer im Sammler in die oben liegende Unterkühlstrecke gelangt.Condensers for air conditioning systems of motor vehicles are usually flowed through in several floods from top to bottom, wherein in the lower part of the condenser is a subcooling section, in which the refrigerant is cooled below the condensation temperature. Such cross-flow capacitors, which also have a built-in collector with dryer, have been characterized by the DE 103 06 192 A1 . DE 103 38 526 A1 and the DE 198 48 744 A1 the applicant known. In certain installation situations in the vehicle, this type is less advantageous with underlying subcooling, namely, when the condenser in the lower end face area another heat exchanger, eg. B. an intercooler is connected upstream. In this case, the subcooling portion of the condenser is not sufficiently cooled. It has therefore already been proposed capacitors with overhead subcooling, as by the DE 198 30 329 A1 and the DE 199 12 381 A1 the applicant known. In the first case, the known cross-flow condenser to a lower condensation section, which is flowed through from top to bottom, and an overhead supercooling section, which communicates with the lower region of the collector via a arranged in the collector and the manifold refrigerant pipe. In the second case, the known capacitor (the Applicant) a bottom condensing section, which is flowed through from bottom to top, ie the refrigerant leaves the Kondensierabschnitt in the upper region and then enters a collector, which receives a dryer-filter insert, which is penetrated by a riser. The dryer-filter insert is arranged in the lower area of the collector, while in the central area of the collector is a space for receiving liquid and gaseous refrigerant. Below the dryer, a deflection space is arranged, from which liquid refrigerant passes through the riser and an upper chamber in the collector in the overhead subcooling.

Es ist Aufgabe der vorliegenden Erfindung, einen Kondensator der eingangs genannten Art insbesondere hinsichtlich seines Sammlers, der Kältemittelführung und der Entgasung des Kältemittels zu verbessern.It is an object of the present invention to improve a capacitor of the type mentioned in particular with regard to its collector, the refrigerant guide and the degassing of the refrigerant.

Die Aufgabe der Erfindung wird durch die Merkmale des Patentanspruches 1 gelöst. Erfindungsgemäß ist ein Fallrohr im Sammler vorgesehen, welches - mittelbar - über einen Stopfen mit der Übertrittsöffnung des Kondensierabschnittes verbunden ist und das Kältemittel bis zum Filter-Trockner leitet. Damit wird der Vorteil erreicht, dass eine Vermischung von gasförmiger und flüssiger Phase des Kältemittels eingeschränkt wird.The object of the invention is solved by the features of claim 1. According to the invention, a drop tube is provided in the collector, which - indirectly - is connected via a plug to the transfer opening of the condensing section and conducts the refrigerant to the filter dryer. Thus, the advantage is achieved that a mixing of gaseous and liquid phase of the refrigerant is limited.

In vorteilhafter Ausgestaltung der Erfindung ist das Fallrohr durch den Filter-Trockner hindurch bis in eine Kammer geführt, in welche das Kältemittel unter Verringerung seiner Strömungsgeschwindigkeit bei gleichzeitiger Entgasung eintritt. Der Filter-Trockner, d. h. das Molekularsieb wird hierbei nicht zwangsdurchströmt, sondern aufgrund von Dichteunterschieden des Kältemittels. Vorteilhaft hierbei ist, dass durch die Verlängerung des Fallrohres die Möglichkeit der Vermischung von gasförmigem und flüssigem Kältemittel weiter eingeschränkt bzw. unterbunden und damit eine bessere Entgasung des der Unterkühlstrecke zugeführten Kältemittels erzielt wird.In an advantageous embodiment of the invention, the downpipe is passed through the filter dryer through into a chamber into which the refrigerant enters while reducing its flow velocity with simultaneous degassing. The filter dryer, d. H. the molecular sieve is not flowed through, but due to density differences of the refrigerant. The advantage here is that the possibility of mixing gaseous and liquid refrigerant further limited or prevented by the extension of the downpipe and thus better degassing of the subcooling section supplied refrigerant is achieved.

In weiterer vorteilhafter Ausgestaltung der Erfindung können der Stopfen, das Steigrohr und/oder das Fallrohr einstückig ausgebildet sowie vorteilhafterweise auch mit dem Trockner-Filter-Einsatz zu einer Baueinheit verbunden sein, welche als vorgefertigtes Teil in den Sammler eingesetzt und zu Wartungszwecken auch getauscht werden kann. Dafür ist der Sammler mit einem lösbaren Verschluss versehen.In a further advantageous embodiment of the invention, the plug, the riser and / or the downpipe can be integrally formed and advantageously also connected to the dryer-filter insert to form a unit, which can be used as a prefabricated part in the collector and also exchanged for maintenance purposes , For the collector is provided with a detachable closure.

Ausführungsbeispiele der Erfindung sind in der Zeichnung dargestellt und werden im Folgenden näher beschrieben. Es zeigen

  • Fig. 1 einen Querstromkondensator mit oben liegender Unterkühlstrecke und seitlich angeordnetem integrierten Sammler,
  • Fig. 2 den Sammler mit einem benachbarten Sammelrohr als Schnittdarstellung,
  • Fig. 3 den Sammler mit einem Fallrohr (erstes Ausführungsbeispiel der Erfindung),
  • Fig. 4 den Sammler gemäß Fig. 3 mit Ansichten von Stopfen und Filter-Trockner,
  • Fig. 5 den Sammler mit den Filter-Trockner durchsetzendem Fallrohr (zweites Ausführungsbeispiel der Erfindung) und
  • Fig. 6 den Sammler gemäß Fig. 5 mit Ansichten von Stopfen und Filter-Trockner.
Embodiments of the invention are illustrated in the drawings and will be described in more detail below. Show it
  • Fig. 1 a cross-flow capacitor with overhead subcooling and laterally arranged integrated collector,
  • Fig. 2 the collector with a neighboring manifold as a sectional view,
  • Fig. 3 the collector with a downpipe (first embodiment of the invention),
  • Fig. 4 according to the collector Fig. 3 with views of plugs and filter dryers,
  • Fig. 5 the collector with the filter-drier durchsetzendem downpipe (second embodiment of the invention) and
  • Fig. 6 according to the collector Fig. 5 with views of plugs and filter dryers.

Fig. 1 zeigt einen mehrflutig durchströmbaren Querstromkondensator 1, welcher einen Rohrrippenblock 2, seitlich angeordnete Sammelrohre 3, 4 sowie einen integrierten Sammler 5 aufweist. Die in abwechselnde Richtungen weisenden Pfeile P1, P2, P3, P4, P5 und P6 stellen die Strömungsrichtungen des Kältemittels in einzelnen nicht näher dargestellten Rohrgruppen des Rohrrippenblockes 2 dar, wobei das Kältemittel über einen unten liegenden Stutzen 3a eintritt und über einen oben liegenden Stutzen 3b austritt. Der Rohrrippenblock 2 besteht aus einem Kondensierabschnitt, welcher den Pfeilen P1 bis P5 entspricht, und einem oberhalb des Kondensierabschnittes angeordneten Unterkühlabschnitt, welcher durch den Pfeil P6 gekennzeichnet ist. Im Unterkühlabschnitt strömt im Wesentlichen flüssiges Kältemittel, welches durch die Umgebungsluft, welche den Kondensator 1 beaufschlagt, unter die Kondensationstemperatur des Kältemittels abgekühlt wird. Anschließend verlässt das Kältemittel über den Stutzen 3b den Kondensator 1. Fig. 1 shows a multi-flow permeable cross-flow condenser 1, which has a tube fin block 2, laterally arranged manifolds 3, 4 and an integrated collector 5. The pointing in alternating directions arrows P1, P2, P3, P4, P5 and P6 represent the flow directions of the refrigerant in individual pipe groups of the pipe fin block 2, not shown, wherein the refrigerant enters via a lower nozzle 3a and an overhead nozzle 3b exit. The tube fin block 2 consists of a condensing section, which corresponds to the arrows P1 to P5, and a above the Kondensierabschnittes arranged subcooling section, which is indicated by the arrow P6. In the subcooling section flows substantially liquid refrigerant, which is cooled by the ambient air, which acts on the condenser 1, below the condensation temperature of the refrigerant. Subsequently, the refrigerant leaves the condenser 1 via the connection 3b.

Fig. 2 zeigt den Sammler 5 mit Sammelrohr 4 des Kondensators 1 im Schnitt in einer 3-D-Darstellung. Vom Sammelrohr 4 sind nur die beiden oberen Kammern 4a, 4b dargestellt, welche mit dem letzten Durchgang P5 des Kondensierabschnittes des Kondensators bzw. mit der Unterkühlstrecke P6 verbunden sind. Der Sammler 5 besteht - wie aus dem eingangs genannten Stand der Technik bekannt - aus einem zylindrischen Behälter, welcher aus einem Rohr 5a und einem extrudierten Profilstück 5 b zusammengesetzt ist. Der Sammler 5 ist unten durch einen eingelöteten Boden 6 unlösbar verschlossen und oben durch einen lösbaren Verschlussstopfen 7 abgeschlossen. Die Kammer 4a ist über eine erste Obertrittsöffnung 8 und die Kammer 4b über eine zweite Übertrittsöffnung 9 mit dem Inneren des Sammlers 5 kältemittelseitig verbunden. Im Inneren des Sammlers 5 ist ein Filter-Trockner 10 (auch Trockner-Filter-Einsatz genannt) angeordnet, welcher - wie aus dem Stand der Technik bekannt - mit einem Trocknermaterial, einem so genannten Molekularsieb gefüllt ist und auf seiner Ober- sowie Unterseite, d, h. Kältemitteleintritts- und Kältemittelaustrittsseite ein Sieb, z. B. in Form eines Vlieses (nicht dargestellt) zum Filtern des Kältemittels aufweist. Oberhalb des Trockners 10 ist ein Stopfen 11 angeordnet, welcher umfangseitig über einen O-Ring 12 im Bereich zwischen den beiden Übertrittsöffnungen 8, 9 gegenüber dem Inneren des Profilstückes 5b abgedichtet ist. Zwischen dem Stopfen 11 und dem Trockner 10 ist im Bereich der Übertrittsöffnung 8 eine Einströmkammer 13 gebildet Unterhalb des Trockners 10 befindet sich eine Bevorratungskammer 14, welche der Speicherung von flüssigem und/oder gasförmigem Kältemittel dient. Innerhalb des Sammlers 5 ist ferner außermittig und in Wandnähe ein Steigrohr 15 angeordnet, welches durch den Filter-Trockner 10 hindurch geführt ist, nach unten in den Bevorratungsraum 14 eintaucht bzw. bis zum Boden 6 reicht und sich nach oben bis in den Stopfen 11 erstreckt, welcher das Steigrohr 15 über eine Öffnung 11a mit der Kammer 4b und damit mit dem Unterkühlabschnitt P6 verbindet. Im Stopfen 11 findet somit eine nicht dargestellte Umlenkung des Kältemittels vom Steigrohr 15 in die Kammer 4b statt. Das Steigrohr 15 weist im Bereich des Bodens 6 eine Öffnung 15a auf, über welche Kältemittel in das Steigrohr 15 eintreten kann. Fig. 2 shows the collector 5 with manifold 4 of the capacitor 1 in section in a 3-D representation. From the manifold 4, only the two upper chambers 4a, 4b are shown, which with the last passage P5 of the Kondensierabschnittes of the capacitor or with the sub-cooling path P6 are connected. The collector 5 is - as known from the prior art mentioned - from a cylindrical container, which is composed of a tube 5a and an extruded profile piece 5 b. The collector 5 is undetachably closed at the bottom by a soldered-in bottom 6 and closed at the top by a detachable sealing plug 7. The chamber 4a is connected via a first Obertrittsöffnung 8 and the chamber 4b via a second transfer opening 9 with the interior of the collector 5 on the refrigerant side. Inside the collector 5, a filter drier 10 (also called dryer-filter insert) is arranged, which - as known from the prior art - is filled with a drier material, a so-called molecular sieve and on its top and bottom, d, h. Refrigerant inlet and refrigerant outlet side a sieve, z. B. in the form of a nonwoven (not shown) for filtering the refrigerant. Above the dryer 10, a plug 11 is arranged, which is peripherally sealed via an O-ring 12 in the region between the two transfer openings 8, 9 with respect to the interior of the profile piece 5b. Between the plug 11 and the dryer 10, an inflow chamber 13 is formed in the region of the transfer opening 8. Below the dryer 10 there is a storage chamber 14, which serves to store liquid and / or gaseous refrigerant. Within the collector 5 is also eccentrically and near the wall, a riser 15 is arranged, which is passed through the filter-dryer 10, immersed down into the storage space 14 and extends to the bottom 6 and extends up into the plug 11 which connects the riser 15 via an opening 11a with the chamber 4b and thus with the subcooling section P6. In the plug 11 thus takes place, not shown deflection of the refrigerant from the riser 15 into the chamber 4 b instead. The riser 15 has in the region of the bottom 6 an opening 15 a, via which refrigerant can enter the riser 15.

Die Funktion des zuvor beschriebenen Sammlers 5 mit Filter-Trockner 10 ist folgende: Das aus dem letzten Durchgang P5 des Kondensierabschnittes des Kondensators 1 austretende Kältemittel gelangt über die Übertrittsöffnung 8 in die Einströmkammer 13, wo sich das Kältemittel gleichmäßig über den Querschnitt des Sammlers 5 verteilt und damit in seiner Strömungsgeschwindigkeit reduziert wird. Von der Einströmkammer 13 strömt das Kältemittel (zwangsweise) durch den Filter-Trockner 10, durch welchen es gefiltert und getrocknet wird. Nach Austritt aus dem Filter-Trockner 10 gelangt das Kältemittel in den Bevorratungsraum 14, wo sich seine Strömungsgeschwindigkeit weiter verringert, Dabei können gasförmige Bestandteile des Kältemittels abgeschieden werden, welche nach oben steigen und sich im oberen Bereich des Bevorratungsraumes 14 sammeln. Im untersten Bereich des Bevorratungsraumes 14, am Boden 6, tritt das Kältemittel über die Eintrittsöffnung 15a in das Steigrohr 15 ein und durchströmt dieses von unten nach oben, d. h. es durchquert den Filter-Trockner 10 im Steigrohr 15 und gelangt in den Stopfen 11, wo es in die Kammer 4b umgelenkt wird und von dort aus in den Unterkühlabschnitt P6 eintritt.The function of the previously described collector 5 with filter-drier 10 is as follows: The refrigerant emerging from the last passage P5 of the condensing section of the condenser 1 passes via the transfer opening 8 into the inflow chamber 13, where the refrigerant evenly distributed over the cross section of the collector 5 and thus reduced in its flow velocity. From the inflow chamber 13, the refrigerant flows (forcibly) through the filter dryer 10, through which it is filtered and dried. After exiting the filter-drier 10, the refrigerant passes into the storage space 14, where its flow rate is further reduced, thereby gaseous components of the refrigerant can be deposited, which rise upwards and collect in the upper region of the storage space 14. In the lowermost region of the storage space 14, at the bottom 6, the refrigerant enters the riser 15 via the inlet opening 15a and flows through it from bottom to top, ie it passes through the filter drier 10 in the riser 15 and enters the plug 11 where it is deflected into the chamber 4b and enters from there into the subcooling section P6.

Da der Sammler 5 einen lösbaren Verschlussstopfen 7 aufweist, können der Filter-Trockner 10 das Steigrohr 15 und der Stopfen 11 zu Wartungszwecken getauscht werden. Dies ist insbesondere dann einfach zu handhaben, wenn Filter-Trockner 10, Steigrohr 15 und Stopfen 11 als eine vorgefertigte zusammenhängende Baueinheit ausgebildet sind.Since the collector 5 has a releasable sealing plug 7, the filter-dryer 10, the riser 15 and the plug 11 can be exchanged for maintenance purposes. This is particularly easy to handle when filter dryer 10, riser 15 and plug 11 are formed as a prefabricated contiguous unit.

Fig. 3 und Fig. 4 zeigen als Ausführungsbeispiel der Erfindung den Sammler 5 mit Sammelrohr 4, wobei für gleiche Teile die gleichen Bezugszahlen wie bisher verwendet werden. Die Kammern 4a und 4b des Sammelrohres 4 sind über die Übertrittsöffnungen 8, 9 mit dem Sammler 5 verbunden. Im unteren Bereich des Sammlers 5 ist der Filter-Trockner 10 angeordnet, der in Fig. 3 nur teilweise, d. h. mit einem oberen Stirnflansch 10a und einem unteren Stirnflansch 10 b dargestellt ist Der Filter-Trockner 10 wird von dem Steigrohr 16 durchsetzt. Im Bereich der Übertrittsöffnungen 8, 9 ist im Sammler 5 ein Stopfen 16 angeordnet, welcher zwei mit den Übertrittsörfnungen 8, 9 fluchtende Kanalöffnungen 17, 18 aufweist, zwischen den ein O-Ring 16a zur Abdichtung angeordnet ist Die Kanalöffnung 17 ist über einen Einströmkanal 17a mit einem Fallrohr 19 verbunden, dessen oberes Rohrende in den Einströmkanal 17a mündet und von dem Stopfen 16 aufgenommen wird. Das Fallrohr 19 erstreckt sich nach unten bis in die Nähe des Stirnflansches 10a des Filter-Trockners 10 und weist am unteren Rohrende sich diametral gegenüber liegende Ausströmöffnungen 19a auf. Unterhalb des Filter-Trockners 10, d. h. zwischen dem unteren Stirnflansch 10b und dem Boden 6 ist eine Umlenkkammer 20 für das Kältemittel vorgesehen, in weiche das unterste Ende 15a des Steigrohres mit einer Eintrittsöffnuhg (nicht dargestellt) hineinragt. Das obere Ende 15b des Steigrohres 15 ist im Stopfen 16 aufgenommen und mit einem Umlenkkanal 18a verbunden, welcher zur Kanalaustrittsöffnung 18 und damit in die Kammer 4b der Unterkühlstrecke P6 führt. FIG. 3 and FIG. 4 show as an embodiment of the invention, the collector 5 with manifold 4, wherein the same reference numerals are used for the same parts as before. The chambers 4a and 4b of the manifold 4 are connected via the transfer openings 8, 9 with the collector 5. In the lower region of the collector 5, the filter-drier 10 is arranged in Fig. 3 only partially, that is shown with an upper end flange 10a and a lower end flange 10 b The filter-dryer 10 is penetrated by the riser 16. In the region of the transfer openings 8, 9, a plug 16 is arranged in the collector 5, which has two with the Übertrittsörfnungen 8, 9 aligned channel openings 17, 18, between which an O-ring 16a is arranged for sealing the channel opening 17 is via an inflow passage 17a connected to a drop tube 19, the upper tube end opens into the inflow passage 17 a and is received by the plug 16. The drop tube 19 extends down to near the end flange 10a of the filter dryer 10 and has at the bottom Pipe end diametrically opposite outflow openings 19a. Below the filter drier 10, ie between the lower end flange 10b and the bottom 6, a deflection chamber 20 for the refrigerant is provided, into which the lowermost end 15a of the riser tube projects with an inlet opening (not shown). The upper end 15b of the riser 15 is received in the plug 16 and connected to a deflection channel 18a, which leads to the channel outlet opening 18 and thus into the chamber 4b of the subcooling path P6.

Der Sammler 5 mit Fallrohr 19 arbeitet wie folgt: Das Kältemittel gelangt aus dem letzten Strömungsweg P5 des Kondensierabschnittes über die Kammer 4a und den Einströmkanal 17 direkt in das Fallrohr 19, in welchem es nach unten strömt Durch die Ausströmöffnungen 19a tritt das Kältemittel beidseitig aus dem Fallrohr 19 aus und verteilt sich somit auf den Innenquerschnitt des Sammlers 5, womit eine Verzögerung der Strömungsgeschwindigkeit einhergeht. Das Kältemittel tritt dann in den Filter-Trockner 10 ein, welchen es (zwangsweise) von oben nach unten durchströmt. Dabei erfolgt am Eintritt und Austritt durch nicht dargestellte Vliese eine Filterung des Kältemittels. Das somit getrocknete Kältemittel gelangt nach Austritt aus dem Filter-Trockner 10 in die untere Umlenkkammer 20, tritt dann in das untere Rohrende 15a des Steigrohres 15 ein und durchströmt dieses von unten nach oben bis zum Stopfen 16, in welchem es umgelenkt und in die Kammer 4b zur Unterkühlstrecke P6 geleitet wird. Durch die Verzögerung der Kältemittelströmung beim Austritt aus dem Fallrohr 19 können gasförmige Bestandteile aus dem flüssigen Kältemittel abgeschieden werden, die nach oben steigen. Eine weitere Entgasung kann auf dem Weg durch den Filter-Trockner 10 stattfinden. Durch das Fallrohr 19 und seine direkte Anbindung an die Kammer 4a wird verhindert, dass sich abgeschiedene Gasbestandteiie mit dem flüssigen aus dem Kondensierabschnitt zugeführten Kältemittel mischen. Unterhalb des Stopfens kann sich somit ein Gasraum für abgeschiedene Gasblasen bilden, der gegenüber dem Kondensierabschnitt und dem einströmenden Kältemittel abgetrennt und abgedichtet ist.The collector 5 with downpipe 19 operates as follows: The refrigerant passes from the last flow path P5 of the condensing section via the chamber 4a and the inflow channel 17 directly into the downpipe 19, in which it flows downwards through the outflow openings 19a, the refrigerant exits on both sides of the Downpipe 19 and thus distributed to the inner cross section of the collector 5, which is accompanied by a delay in the flow rate. The refrigerant then enters the filter-dryer 10, which it flows (forced) from top to bottom. This is done at the entrance and exit by non-illustrated webs filtering the refrigerant. The thus dried refrigerant passes after exiting the filter-drier 10 in the lower deflection chamber 20, then enters the lower tube end 15a of the riser 15 and flows through this from bottom to top to stopper 16, in which it deflected and into the chamber 4b is passed to the subcooling path P6. Due to the delay of the refrigerant flow at the exit from the downpipe 19 gaseous components can be separated from the liquid refrigerant, which rise to the top. Further degassing may take place on the way through the filter dryer 10. Through the downpipe 19 and its direct connection to the chamber 4a is prevented that separated gas constituents mix with the liquid supplied from the Kondensierabschnitt refrigerant. Below the plug can thus form a gas space for separated gas bubbles, which is separated and sealed against the Kondensierabschnitt and the inflowing refrigerant.

Fig. 5 und Fig. 6 zeigen als weiteres Ausführungsbeispiel der Erfindung den Sammler 5 mit Sammelrohr 4 (es werden wiederum gleiche Bezugszahlen für gleiche Teile verwendet) mit einem durchgehenden, d. h. den Filter-Trockner 10 durchsetzenden Fallrohr 21. Die Anordnung und Ausbildung des Stopfens 16 entspricht der im vorherigen Ausführungsbeispiel gemäß der Figuren 3 und 4. Ebenso sind die oberen Rohrenden von Fallrohr 21 und Steigrohr 15 im Stopfen 16 aufgenommen und über Umlenkkanäle im Stopfen 16 mit den Kammern 4a, 4b des Sammelrohres 4 verbunden. Unterhalb des Filter-Trockners 10 und des unteren Stirnflansches 10b ist eine Kammer 22 angeordnet, in welche das untere Rohrende 21a des Fallrohres 21 mündet. Die Kammer 22 ist nach unten durch einen Stirnflansch 22a begrenzt, jedoch nach unten offen, wo sich der Umlenkraum 20 mit dem unteren Rohrende 15a des Steigrohres 15 befindet. Der Filter-Trockner weist auf beiden Seiten im Bereich der Stirnflansche 10a, 10b als Vliese ausgebildete Filter bzw. Siebe (nicht dargestellt) auf. Fig. 5 and Fig. 6 show as a further embodiment of the invention, the collector 5 with manifold 4 (again, the same reference numerals used for the same parts) with a continuous, ie the filter dryer 10 passing down tube 21. The arrangement and design of the plug 16 corresponds to that in the previous embodiment according to the FIGS. 3 and 4 , Likewise, the upper pipe ends of downpipe 21 and riser 15 are received in the plug 16 and connected via deflection in the plug 16 with the chambers 4a, 4b of the manifold 4. Below the filter dryer 10 and the lower end flange 10b, a chamber 22 is arranged, in which the lower tube end 21a of the downpipe 21 opens. The chamber 22 is bounded below by a front flange 22 a, but downwardly open, where the deflection space 20 is located with the lower tube end 15 a of the riser 15. The filter-dryer has on both sides in the region of the end flanges 10a, 10b formed as nonwovens filter or sieves (not shown).

Die Ausführung des Sammlers 5 mit durchgehendem Fallrohr 21 arbeitet wie folgt: Das Kältemittel tritt - analog zum vorherigen Ausführungsbeispiel - direkt in das Fallrohr 21 ein und durchströmt dieses von oben nach unten und tritt erst in der Kammer 22 am unteren Rohrende 21a aus dem Fallrohr 21 aus. In der Kammer 22 verteilt sich das Kältemittel auf den Querschnitt des Sammlers, wodurch sich eine Verzögerung der Strömungsgeschwindigkeit und damit die Möglichkeit zur Abscheidung von gasförmigen Bestandteilen ergibt. Ein Teil des Kältemittels steigt somit nach oben durch den Filter-Trockner 10 und kommt auf diesem Wege in Kontakt mit der Trocknersubstanz, wodurch eine Trocknung erfolgt. Der Filter-Trockner 10, d. h. seine Trocknersubstanz wird hierbei also nicht zwangsdurchströmt. Der andere Teil des Kältemittels strömt - entsprechend dem Pfeil U - in die Umlenkkammer 20 und tritt dann in das untere Rohrende 15a des Steigrohres 15 ein. Anschließend strömt das Kältemittel - wie im vorherigen Ausführungsbeispiel - über das Steigrohr 15 und den Stopfen 16 in den Unterkühlabschnitt P6.The execution of the collector 5 with a continuous downpipe 21 works as follows: The refrigerant enters - analogous to the previous embodiment - directly into the downcomer 21 and flows through this from top to bottom and occurs only in the chamber 22 at the lower end of the pipe 21a from the downpipe 21st out. In the chamber 22, the refrigerant is distributed to the cross section of the collector, which results in a delay of the flow velocity and thus the possibility for the deposition of gaseous components. A portion of the refrigerant thus rises upward through the filter-dryer 10 and comes in this way in contact with the dryer substance, whereby a drying takes place. The filter dryer 10, d. H. his dryer substance is thus not forced through this. The other part of the refrigerant flows - according to the arrow U - in the deflection chamber 20 and then enters the lower tube end 15 a of the riser 15 a. Subsequently, as in the previous exemplary embodiment, the refrigerant flows via the riser pipe 15 and the plug 16 into the subcooling section P6.

Die Erfindung ist nicht auf Filter-Trockner beschränkt, die mit einem Granulat aus hygroskopischem Material gefüllt sind. Möglich im Rahmen der Erfindung sind auch kompakte Trockner, die aus einer festen Kunststoffmasse mit eingelagertem Molekularsieb bestehen - wie in der DE 102 34 889 A1 der Anmelderin beschrieben.The invention is not limited to filter dryers filled with granules of hygroscopic material. Possible within the scope of the invention are also compact dryers, which consist of a solid plastic mass with intercalated molecular sieve - as in DE 102 34 889 A1 the applicant described.

Claims (12)

  1. A condenser (1) for an air-conditioning system, in particular of a vehicle, with a finned tube block (2) and laterally arranged header tubes (3, 4), wherein the finned tube block (2) has horizontally running tubes, a condensing section (P1 to P5) and a supercooling section (P6) arranged above the condensing section, as well as with a collector arranged parallel to one of the header tubes, wherein the collector accommodates a dryer-filter insert (10) and an ascending flow pipe (15), wherein the collector is in refrigerant connection to the condensing section (P5) via a first overflow opening (8) and to the supercooling section (P6) via a second overflow opening (9), characterised in that a downward flow pipe (19, 21) having a pipe end on the inlet side connected to the first overflow opening (8) is arranged inside the collector (5).
  2. The condenser according to claim 1, characterised in that the pipe end on the inlet side of the downward flow pipe (19, 21) is accommodated in a stopper (16) which extends from the first to the second overflow opening (8, 9).
  3. The condenser according to claim 1 or 2, characterised in that the downward flow pipe (19) has a pipe end on the outlet side which is arranged above the dryer-filter (10, 10a).
  4. The condenser according to claim 1 or 2, characterised in that the downward flow pipe (21) passes through the dryer-filter (10) and opens in a chamber (22) arranged below the dryer-filter (10).
  5. The condenser according to claim 3 or 4, characterised in that the pipe end (21a) on the outlet side of the downward flow pipe (19, 21) has diametrically opposite outlet openings (19a).
  6. The condenser according to one of claims 1 to 5, characterised in that the dryer-filter (10) is arranged in the lower region of the collector (5) and the ascending flow pipe (15) passes therethrough.
  7. The condenser according to one of claims 1 to 6, characterised in that the ascending flow pipe (15) has an upper pipe end (15b) accommodated in the stopper (16) and is connected on the refrigerant side to the second overflow opening (9).
  8. The condenser according to one of claims 1 to 7, characterised in that the stopper (11, 16) has a deflecting duct (11a, 18a) from the ascending flow pipe (15, 15b) to the second overflow opening (9).
  9. The condenser according to one of claims 1 to 8, characterised in that the stopper (11, 16) can be circumferentially sealed against the collector (5) in particular by an O-ring (12, 16a).
  10. The condenser according to one of claims 1 to 9, characterised in that the stopper (11, 16), the ascending flow pipe (15) and/or the downward flow pipe (19, 21) are integrally formed, in particular as a plastic injection-moulded part.
  11. The condenser according to one of the preceding claims, characterised in that the stopper (11, 16), the ascending flow pipe (15), the downward flow pipe (19, 21) and/or the dryer-filter insert (10) form an exchangeable constructional unit.
  12. The condenser according to one of the preceding claims, characterised in that the collector (5) can be closed by a releasable closure stopper (7).
EP11165641.9A 2005-02-03 2006-01-12 Condenser for an air conditioner, in particular for a motor vehicle Not-in-force EP2378225B1 (en)

Applications Claiming Priority (2)

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DE102005005187A DE102005005187A1 (en) 2005-02-03 2005-02-03 Condenser for an air conditioning system, in particular a motor vehicle
EP06000594.9A EP1703233B1 (en) 2005-02-03 2006-01-12 Condenser for an air conditioning system, particularly for a motor vehicule

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EP06000594.9A Division EP1703233B1 (en) 2005-02-03 2006-01-12 Condenser for an air conditioning system, particularly for a motor vehicule
EP06000594.9 Division 2006-01-12

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EP2378225A2 EP2378225A2 (en) 2011-10-19
EP2378225A3 EP2378225A3 (en) 2012-05-23
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Publication number Publication date
EP1703233B1 (en) 2015-08-05
JP2006214714A (en) 2006-08-17
EP1703233A3 (en) 2008-10-29
EP1703233A2 (en) 2006-09-20
DE102005005187A1 (en) 2006-08-10
JP5033330B2 (en) 2012-09-26
US20060185385A1 (en) 2006-08-24
EP2378225A2 (en) 2011-10-19
EP2378225A3 (en) 2012-05-23

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