FR2839765A1 - Connection system of air conditioning circuit comprises male and female connectors, male delimiting axial chamber connected to fluid access and communicating with external annular chamber communicating with other fluid access - Google Patents

Connection system of air conditioning circuit comprises male and female connectors, male delimiting axial chamber connected to fluid access and communicating with external annular chamber communicating with other fluid access Download PDF

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Publication number
FR2839765A1
FR2839765A1 FR0205993A FR0205993A FR2839765A1 FR 2839765 A1 FR2839765 A1 FR 2839765A1 FR 0205993 A FR0205993 A FR 0205993A FR 0205993 A FR0205993 A FR 0205993A FR 2839765 A1 FR2839765 A1 FR 2839765A1
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France
Prior art keywords
fluid
male connector
wall
chamber
connector
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Granted
Application number
FR0205993A
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French (fr)
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FR2839765B1 (en
Inventor
Patrick Balthazard
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Valeo Thermique Moteur SA
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Valeo Thermique Moteur SA
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Priority to FR0205993A priority Critical patent/FR2839765B1/en
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Classifications

    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F16ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
    • F16LPIPES; JOINTS OR FITTINGS FOR PIPES; SUPPORTS FOR PIPES, CABLES OR PROTECTIVE TUBING; MEANS FOR THERMAL INSULATION IN GENERAL
    • F16L27/00Adjustable joints, Joints allowing movement
    • F16L27/08Adjustable joints, Joints allowing movement allowing adjustment or movement only about the axis of one pipe
    • F16L27/087Joints with radial fluid passages
    • F16L27/093Joints with radial fluid passages of the "banjo" type, i.e. pivoting right-angle couplings
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F16ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
    • F16LPIPES; JOINTS OR FITTINGS FOR PIPES; SUPPORTS FOR PIPES, CABLES OR PROTECTIVE TUBING; MEANS FOR THERMAL INSULATION IN GENERAL
    • F16L39/00Joints or fittings for double-walled or multi-channel pipes or pipe assemblies
    • F16L39/04Joints or fittings for double-walled or multi-channel pipes or pipe assemblies allowing adjustment or movement
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F16ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
    • F16LPIPES; JOINTS OR FITTINGS FOR PIPES; SUPPORTS FOR PIPES, CABLES OR PROTECTIVE TUBING; MEANS FOR THERMAL INSULATION IN GENERAL
    • F16L41/00Branching pipes; Joining pipes to walls
    • F16L41/005Branching pipes; Joining pipes to walls adjustable and comprising a hollow threaded part in an opening
    • 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
    • F25B2339/00Details of evaporators; Details of condensers
    • F25B2339/04Details of condensers
    • F25B2339/044Condensers with an integrated receiver
    • F25B2339/0446Condensers with an integrated receiver characterised by the refrigerant tubes connecting the header of the condenser to the receiver; Inlet or outlet connections to receiver
    • 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

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  • Engineering & Computer Science (AREA)
  • General Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Physics & Mathematics (AREA)
  • Thermal Sciences (AREA)
  • Quick-Acting Or Multi-Walled Pipe Joints (AREA)

Abstract

The connection system comprises a male connector (10) which is sealed into a female connector (12). The male connector delimits an internal axial chamber (24) which is connected to a fluid access (18) and which communicates through a wall (14) of the male connector with an external annular chamber (50) delimited by the male connector wall and by a female connector wall. The external chamber communicates with another fluid access (48) so that the fluid can pass from one to the other access. An Independent claim is included for an air conditioning circuit utilizing the connection system.

Description

rapport de boite actuellement enclenche reste conserve.gearbox report currently engaged remains retained.

Dispositif de connexion pour circuit de fluide, en particulier de climatisation. et circuit comportant un tel dispositif L' invention concerne les connexions de circuits de fluide, en particulier de fluide sous pression, tels que, par exemple, les  Connection device for a fluid circuit, in particular for air conditioning. The invention relates to connections for fluid circuits, in particular for pressurized fluid, such as, for example,

circuits de climatisation.air conditioning circuits.

Il est necessaire de prevoir des dispositifs de connexion entre differents elements du circuit. Idealement, de tels dispositifs doivent assurer une connexion etanche et demontable entre les elements du circuit, et resister a des pressions qui peuvent  It is necessary to provide connection devices between different elements of the circuit. Ideally, such devices must ensure a sealed and dismountable connection between the elements of the circuit, and withstand pressures which can

atteindre des valeurs elevees.achieve high values.

Ainsi, par exemple, un circuit de climatisation, notamment pour vehicule automobile, est parcouru par un fluide refrigerant qui peut atteindre des pressions nominales elevees. En sortie du compresseur, le fluide refrigerant, a l'etat gazeux, atteint frequemment des pressions de l'ordre de 30 bars. I1 est ensuite envoye vers un condenseur ou il est progressivement transforme a l'etat liquide avant d'etre detendu et envoye vers un evaporateur. Les differents elements du circuit, et en particulier les connexions, doivent pouvoir resister a des valeurs nominales  Thus, for example, an air conditioning circuit, in particular for a motor vehicle, is traversed by a refrigerant which can reach high nominal pressures. At the outlet of the compressor, the refrigerant, in the gaseous state, frequently reaches pressures of the order of 30 bars. It is then sent to a condenser where it is gradually transformed into the liquid state before being expanded and sent to an evaporator. The different elements of the circuit, and in particular the connections, must be able to withstand nominal values

qui vent typiquement de ltordre de 100 bars.  which typically winds around 100 bars.

On connalt deja des dispositifs de connexion qui comprennent un raccord male agence pour etre recu a etancheite dans un raccord femelle pour procurer ce que l'on appelle un "raccord rapide"  There are already known connection devices which include a male connector arranged to be received sealed in a female connector to provide what is called a "quick connector"

qui permet de raccorder differents elements du circuit.  which allows you to connect different elements of the circuit.

De tels raccords rapides vent utilises, par exemple, pour relier un conduit tel qu'un tuyau souple a une tubulure d'un  Such quick couplings are used, for example, to connect a conduit such as a flexible hose to a tubing of a

echangeur de chaleur.heat exchanger.

Comme ces connexions doivent resister a des pressions elevees, il est souvent necessaire de prevoir des moyens mecaniques destines a prevenir tout risque de debranchement du raccord male et du raccord femelle. D'autre part, dans un circuit de climatisation, comme defini precedemment, le condenseur est habituellement muni d'un  As these connections must withstand high pressures, it is often necessary to provide mechanical means intended to prevent any risk of disconnection of the male connector and the female connector. On the other hand, in an air conditioning circuit, as defined above, the condenser is usually provided with a

reservoir de fluide, que l'on appelle aussi "bouteille".  fluid reservoir, also known as a "bottle".

Generalement, ce reservoir formant tampon est relic en sortie dune premiere partie du condenseur, dans laquelle le fluide est condense, et une seconde partie du condenseur, dans  Generally, this reservoir forming a buffer is relic at the outlet of a first part of the condenser, in which the fluid is condensed, and a second part of the condenser, in

laquelle le fluide condense est ensuite sous-refroidi.  which the condensed fluid is then sub-cooled.

Ainsi, le fluide refrigerant, a letat gazeux, est dabord condense dans la premiere partie du condenseur, passe ensuite dans le reservoir, avant de gagner la seconde partie du condenseur ou le fluide condense a l'etat liquide est sous refroidi. Ce reservoir, appele aussi bouteille, loge  Thus, the refrigerant fluid, in gaseous state, is first condensed in the first part of the condenser, then passes into the reservoir, before gaining the second part of the condenser where the fluid condensed in the liquid state is sub-cooled. This reservoir, also called bottle, houses

habituellement un dessechant et un filtre.  usually a desiccant and a filter.

I1 est done necessaire de prevoir une liaison etanche et demontable entre le condenseur et le reservoir, ne serait ce que pour permettre le rempIacement du dessechant et du filtre  It is therefore necessary to provide a sealed and dismountable connection between the condenser and the reservoir, if only to allow the replacement of the desiccant and the filter.

en cas de besoin.if needed.

Habituellement, ce reservoir est relic a une embase qui est rapportee sur une bolte collectrice du condenseur. L'assemblage du reservoir sur l'embase necessite des moyens mecaniques  Usually, this tank is connected to a base which is attached to a collecting tank of the condenser. The assembly of the tank on the base requires mechanical means

complexes, couteux et difficiles a mettre en oeuvre.  complex, expensive and difficult to implement.

I1 est connu notamment de visser le reservoir sur l'embase, ou encore de fixer le reservoir sur l'embase par des vis, goujons, ou autre systeme mecanique de maintien. En variante, le reservoir peut etre brase sur l'embase et comporter un bouchon  I1 is known in particular to screw the reservoir on the base, or to fix the reservoir on the base by screws, studs, or other mechanical holding system. Alternatively, the tank can be brazed on the base and include a plug

demontable.demountable.

Dans tous les cas, les dispositifs d'assemblage utilises doivent permettre de resister a une pression interne elevee du fluide contenu dans la boucle de climatisation. Par ailleurs, lorsque le reservoir doit etre demonte du condenseur, par exemple pour remplacer le dessechant et/ou le filtre, il faut au prealable faire chuter la pression interne du fluide refrigerant dans le circuit pour assurer la securite  In all cases, the assembly devices used must make it possible to withstand a high internal pressure of the fluid contained in the air conditioning loop. Furthermore, when the reservoir must be removed from the condenser, for example to replace the desiccant and / or the filter, it is necessary beforehand to drop the internal pressure of the refrigerant in the circuit to ensure safety.

de l'operateur.of the operator.

L' invention a notamment pour but de surmonter les inconvenients precites. Wile vise en particulier a procurer un dispositif de connexion pour un circuit de fluide, notamment un circuit de fluide sous pression, qui permet une connexion simple, etanche et  The object of the invention is in particular to overcome the aforementioned drawbacks. Wile aims in particular to provide a connection device for a fluid circuit, in particular a pressurized fluid circuit, which allows a simple, tight connection and

demontable entre deux elements du circuit de fluide.  removable between two elements of the fluid circuit.

L' invention vise aussi a procurer un dispositif de connexion qui permet un assemblage rapide, sans necessiter l'utilisation dielements de liaison mecaniques entre les deux elements du  The invention also aims to provide a connection device which allows rapid assembly, without requiring the use of mechanical connecting elements between the two elements of the

circuit a raccorder.circuit to be connected.

Wile vise encore a procurer un dispositif de connexion de ce type qui presente une securite elevee vis-a-vis des utilisateurs. En effet, en cas doubli de depressurisation du  Wile also aims to provide a connection device of this type which provides high security vis-à-vis users. Indeed, in case of double depressurization of the

circuit, le demontage est sans risque.  circuit, disassembly is without risk.

De plus, l' invention vise a procurer un dispositif de connexion du type precise qui permet d'assembler differents types  In addition, the invention aims to provide a connection device of the precise type which makes it possible to assemble different types.

d'elements de circuit.of circuit elements.

C'est encore un but de l' invention de procurer un tel dispositif de connexion qui convient tout specialement aux circuits de climatisation, notamment pour les vehicules automobiles. L' invention propose a cet effet un dispositif de connexion du type defini en introduction, dans lequel le raccord male delimite une chambre axiale interne fermee qui est reliee a un acces de fluide et qui communique au travers diune paroi du raccord male avec au moins une chambre annulaire externe delimitee conjointement par la paroi du raccord male et une paroi du raccord femelle qui entoure la paroi du raccord male, ladite chambre externe communiquant avec un autre acces de fluide, en sorte que le fluide peut passer de l'un a l'autre  It is also an object of the invention to provide such a connection device which is particularly suitable for air conditioning circuits, in particular for motor vehicles. To this end, the invention provides a connection device of the type defined in the introduction, in which the male connection delimits a closed internal axial chamber which is connected to a fluid access and which communicates through a wall of the male connection with at least one external annular chamber jointly delimited by the wall of the male connector and a wall of the female connector which surrounds the wall of the male connector, said external chamber communicating with another access of fluid, so that the fluid can pass from one to the other

des acces de fluide.fluid access.

Ainsi, le fluide peut circuler depuis l'acces de fluide du raccord male (formant entree) vers l'acces de fluide du raccord femelle (formant sortie) ou, inversement, depuis l'acces de fluide du raccord femelle (formant entree) jusqu'a l'acces de fluide du raccord male (formant sortie). Dans le premier cas, le fluide penetre dans la chambre axiale interne du raccord male, traverse la paroi de ce dernier pour acceder a la chambre  Thus, the fluid can circulate from the fluid access of the male fitting (forming inlet) towards the fluid access of the female fitting (forming outlet) or, conversely, from the fluid access of the female fitting (forming inlet) up to '' to the access of fluid of the male connection (forming exit). In the first case, the fluid enters the internal axial chamber of the male connector, crosses the wall of the latter to access the chamber

annulaire externe et, de la, gagner l'acces du raccord femelle.  external annular and, from there, gain access to the female fitting.

Bien entendu, le parcours en sens inverse est possible, comme  Of course, the reverse route is possible, as

deja indique.already indicates.

I1 a ete constate, de maniere surprenante, qu'une telle disposition permet de resister a des niveaux de pression eleves, en raison du fait que cette pression est uniformement  It has been found, surprisingly, that such an arrangement makes it possible to withstand high pressure levels, due to the fact that this pressure is uniformly

repartie au sein meme du dispositif de connexion.  distributed within the connection device.

On realise en effet un equilibre de pression a l'interieur du dispositif de connexion lui-meme, puisque c'est la meme pression qui regne, d'une part, dans la chambre axiale interne du raccord male, et, d'autre part, dans la chambre annulaire  In fact, a pressure balance is achieved inside the connection device itself, since it is the same pressure which prevails, on the one hand, in the internal axial chamber of the male connector, and, on the other hand , in the annular chamber

externe delimitee entre le raccord male et le raccord femelle.  external delimited between the male fitting and the female fitting.

De ce fait il n'existe aucun risque de deconnexion des deux raccords, mfile et femelle, sous l'effet de la pression elevee  Therefore there is no risk of disconnection of the two connections, mfile and female, under the effect of the high pressure

du fluide.fluid.

Dans une forme de realisation preferee de ['invention, la paroi du raccord male est de forme generale cylindrique, notamment de revolution, et comporte une extremite fermee agencee pour etre recue dans le raccord femelle et une extremite ouverte agencee  In a preferred embodiment of the invention, the wall of the male connector is of generally cylindrical shape, in particular of revolution, and has a closed end arranged to be received in the female connector and an open end arranged

pour former l'acces du fluide.to form the access of the fluid.

Selon une autre caracteristique de l' invention, la paroi du raccord male est traversee par au moins une ouverture radiale agencee pour faire communiquer la chambre axiale interne et la chambre annulaire externe. Il est avantageux que la paroi du raccord male delimite exterieurement une borne annulaire qui  According to another characteristic of the invention, the wall of the male connector is crossed by at least one radial opening arranged to make the internal axial chamber communicate with the external annular chamber. It is advantageous that the wall of the male connector externally delimits an annular terminal which

contribue a delimiter la chambre annulaire externe.  contributes to delimiting the external annular chamber.

L' invention prevoit aussi que des joints d'etancheite vent interposes entre la paroi du raccord male et la paroi du raccord femelle, de part et d'autre de la chambre annulaire externe. Ces joints d'etancheite vent avantageusement des joints toriques recus chacun dans une gorge annulaire formee a  The invention also provides that wind seals interposed between the wall of the male connector and the wall of the female connector, on either side of the outer annular chamber. These seals advantageously wind O-rings each received in an annular groove formed at

l'exterieur de la paroi du raccord male.  outside the wall of the male connector.

Selon encore une autre caracteristique de l' invention, la paroi du raccord femelle comprend une face interieure de forme generale cylindrique, notamment de revolution, agencee pour recevoir la paroi du raccord male et traversee par au moins un passage radial agence pour deboucher dans la chambre annulaire  According to yet another characteristic of the invention, the wall of the female connector comprises an interior face of generally cylindrical shape, in particular of revolution, arranged to receive the wall of the male connector and crossed by at least one radial passage arranged to lead into the chamber. annular

externe et former l'acces du fluide du raccord femelle.  external and form the access of the fluid of the female fitting.

Le dispositif de connexion de l' invention peut comprendre une seule chambre annulaire externe. Il peut comprendre-aussi deux chambres annulaires externes qui communiquent respectivement  The inventive connection device can comprise a single external annular chamber. It can also include two external annular chambers which communicate respectively

avec deux acces de fluide du raccord femelle.  with two fluid connections from the female connector.

6 28397656 2839765

Sous un autre aspect, l' invention concerne un circuit de fluide, qui comprend un dispositif de connexion tel que defini precedemment. Dans une forme de realisation de l' invention, le circuit de fluide comprend un echangeur de chaleur et un conduit, le raccord male et le raccord femelle etant rattaches l'un a  In another aspect, the invention relates to a fluid circuit, which comprises a connection device as defined above. In one embodiment of the invention, the fluid circuit includes a heat exchanger and a conduit, the male connector and the female connector being attached to each other.

l'echangeur de chaleur et l'autre au conduit.  the heat exchanger and the other to the duct.

Dans une autre forme de realisation de l' invention, le circuit de fluide comprend un echangeur de chaleur et un reservoir de fluide, le raccord male et le raccord femelle etant rattaches respectivement au reservoir de fluide et a lechangeur de chaleur. En ce cas, le dispositif de connexion comprend avantageusement  In another embodiment of the invention, the fluid circuit includes a heat exchanger and a fluid reservoir, the male connector and the female connector being attached respectively to the fluid reservoir and to the heat exchanger. In this case, the connection device advantageously comprises

deux chambres annulaires externes, comme defini precedemment.  two external annular chambers, as defined above.

Une premiere -chambre annulaire externe communique, via un premier acces du raccord femelle, avec une premiere partie de l'echangeur de chaleur, tandis qu'une deuxibme chambre annulaire externe communique, via un deuxieme acces du raccord femelle, avec une deuxieme partie de lechangeur de chaleur, en sorte qu'un fluide peut circuler de la premiere partie a la deuxieme partie de l'echangeur de chaleur, en passant par le  A first external annular chamber communicates, via a first access of the female connector, with a first part of the heat exchanger, while a second external annular chamber communicates, via a second access of the female connector, with a second part of the heat exchanger, so that a fluid can circulate from the first part to the second part of the heat exchanger, passing through the

reservoir.tank.

I1 est avantageux que le raccord male comprenne au moins une premiere ouverture faisant communiquer la premiere chambre annulaire externe avec une premibre partie de la chambre interne du raccord male et au moins une deuxieme ouverture faisant communiquer la deuxieme chambre annulaire externe avec une deuxieme partie de la chambre interne du raccord male, lesdites premiere partie et deuxieme partie de la chambre  It is advantageous for the male connector to comprise at least a first opening making the first external annular chamber communicate with a first part of the internal chamber of the male connector and at least one second opening making the second external annular chamber communicate with a second part of the internal chamber of the male connector, said first part and second part of the chamber

interne communiquant entre elles.internal communicating with each other.

Dans ce cas, on prevoit de preference que la premiere partie de  In this case, provision is preferably made for the first part of

7 28397657 2839765

la chambre interne du raccord male debouche dans le reservoir, tandis que la deuxieme partie de la chambre interne du raccord  the internal chamber of the male connector opens into the tank, while the second part of the internal chamber of the connector

male est fermee par la paroi du raccord male.  male is closed by the wall of the male connector.

Avantageusement, une cartouche dun dessechant est logee dans la premiere partie de la chambre interne du raccord male et dans le reservoir, tandis qu'un filtre est loge dans la deuxieme partie de la chambre interne du raccord male. Ainsi, le fluide qui traverse le reservoir est successivement desseche puis filtre. Il est alors generalement constate une legere perte de charge entre lt entree et la sortie de la bouteille qui  Advantageously, a cartridge of a desiccant is housed in the first part of the internal chamber of the male connector and in the reservoir, while a filter is housed in the second part of the internal chamber of the male connector. Thus, the fluid which passes through the reservoir is successively dried and then filtered. It is then generally noted a slight pressure drop between the inlet and the outlet of the bottle which

tend avantageusement a plaquer la bouteille sur l'embase.  advantageously tends to press the bottle on the base.

L'echangeur de chaleur est avantageusement un condenseur parcouru par un fluide refrigerant, tandis que le reservoir est  The heat exchanger is advantageously a condenser through which a refrigerant flows, while the tank is

rattache au condenseur pour former une bouteille.  attaches to the condenser to form a bottle.

Dans cette forme de realisation, le reservoir comprend avantageusement une enveloppe et le raccord male est alors realise monobloc avec une partie au moins de l'enveloppe du reservoir. Quant au raccord femelle, il est avantageusement realise sous la forme d'une embase qui est rapportee sur une boite  In this embodiment, the reservoir advantageously comprises a casing and the male connector is then made in one piece with at least part of the casing of the reservoir. As for the female connector, it is advantageously made in the form of a base which is attached to a box.

collectrice de l'echangeur de chaleur.  heat exchanger collector.

Dans la description qui suit, faite seulement a titre  In the following description, made only as

d'exemple, on se refere aux dessins annexes, sur lesquels: - la Figure 1 est une vue en coupe axiale dun dispositif de connexion selon une premiere forme de realisation de l' invention, comportant un raccord male et un raccord femelle representes a letat deconnecte; - la Figure 2 est une vue en coupe analogue a la Figure 1 montrant le raccord male et le raccord femelle a l'etat assemble; - la Figure 3 est une vue partielle en perspective d'un echangeur de chaleur comportant un reservoir relic a l'echangeur de chaleur par un dispositif de connexion selon une deuxieme forme de realisation de l' invention, le reservoir etant represente a l'etat deconnecte; - la Figure 4 represente une cartouche de dessechant et un filtre propres a etre loges a l'interieur du reservoir de la Figure 3; - la Figure 5 est une vue analogue a la Figure 3 montrant le reservoir a letat assemble sur l'echangeur de chaleur; - la Figure 6 est une vue partielle en coupe de l'echangeur de chaleur et du reservoir de la Figure 5, a l'etat deconnecte, sans cartouche de dessechant ni filtre; - la Figure 7 est une vue analogue a la Figure 6, l'echangeur de chaleur et le reservoir etant a lietat assemble. Le dispositif de connexion pour fluide represente a la Figure 1 comprend un raccord mfile 10 agence pour 8tre recu a etancheite dans un raccord femelle 12 en formant un "raccord rapide',. Le raccord mfile 10 comprend une paroi 14 de forme generale cylindrique qui presente une extremite fermee 16 destinee a etre recue dans le raccord femelle 12 et une extremite ouverte 18 formant un acces de fluide. L'extremite 18 est recue dans une ouverture 20 d'un element du circuit de fluide, dans l'exemple un echangeur de chaleur 22, represente partiellement. La paroi 14 delimite interieurement une chambre axiale interne fermee 24. La paroi 14 est traversee par une ouverture radiale 26 qui fait communiquer la chambre 24 avec une gorge annulaire 28 destinee a former, conjointement avec le raccord 12, comme  example, we refer to the accompanying drawings, in which: - Figure 1 is an axial sectional view of a connection device according to a first embodiment of the invention, comprising a male connector and a female connector shown in the state disconnected; - Figure 2 is a sectional view similar to Figure 1 showing the male connector and the female connector in the assembled state; - Figure 3 is a partial perspective view of a heat exchanger comprising a reservoir connected to the heat exchanger by a connection device according to a second embodiment of the invention, the reservoir being represented in the state disconnected; - Figure 4 shows a desiccant cartridge and a filter suitable for being housed inside the reservoir of Figure 3; - Figure 5 is a view similar to Figure 3 showing the state tank assembled on the heat exchanger; - Figure 6 is a partial sectional view of the heat exchanger and the reservoir of Figure 5, in the disconnected state, without desiccant cartridge or filter; - Figure 7 is a view similar to Figure 6, the heat exchanger and the tank being in assembled state. The fluid connection device represented in FIG. 1 comprises a mfile connector 10 arranged to be received is sealed in a female connector 12 by forming a "quick connector". The mfile connector 10 comprises a wall 14 of generally cylindrical shape which presents a closed end 16 intended to be received in the female connector 12 and an open end 18 forming a fluid access. The end 18 is received in an opening 20 of an element of the fluid circuit, in the example a heat exchanger heat 22, partially represented The wall 14 internally delimits a closed internal axial chamber 24. The wall 14 is traversed by a radial opening 26 which communicates the chamber 24 with an annular groove 28 intended to form, jointly with the connector 12, as

9 28397659 2839765

on le verra plus loin, une chambre annulaire externe. De part et d'autre de la gorge 28, vent amenagees deux gorges annulaires 30 et 32 destinees a recevoir respectivement deux joints toriques d'etancheite 34 et 36. Ces joints d'etancheite vent formes dans un materiau deformable resistant a la pression, par exemple du type elastomere. La paroi 14 est entouree d'une collerette 38 formant butee pour limiter l' introduction de l'extremite 18 dans l'echangeur de chaleur 22. Le raccord male 10, qui forme embout, est avantageusement realise par usinage et/ou formage d'un materiau metallique  as will be seen later, an external annular chamber. On each side of the groove 28, two wind grooves 30 and 32 are provided for receiving respectively two O-rings of sealing 34 and 36. These seals are formed in a deformable material resistant to pressure, by example of the elastomer type. The wall 14 is surrounded by a flange 38 forming a stop to limit the introduction of the end 18 into the heat exchanger 22. The male connector 10, which forms a nozzle, is advantageously produced by machining and / or forming a metallic material

et/ou plastique.and / or plastic.

Le raccord femelle 12 comprend une paroi annulaire 40, formant manchon, ayant une face interieure 42 de forme generale cylindrique agencee pour recevoir la paroi 14 du raccord male, ainsi que les joints d'etancheite 34 et 36. La paroi 40 est traversee par un passage radial 44 dont la direction est perpendiculaire a l' axe XX de la face interieure cylindrique 42. Ce passage 44 debouche, dune part, a l'interieur de ltembout 12 et, dautre part, sur un conduit 46, par exemple un tuyau souple. Le passage 44 debouche a l'exterieur du raccord 12 sur une partie epaulee 48 formant acces de fluide. Le raccord femelle 12 est avantageusement, lui aussi, realise par  The female connector 12 comprises an annular wall 40, forming a sleeve, having an internal face 42 of generally cylindrical shape arranged to receive the wall 14 of the male connector, as well as the seals 34 and 36. The wall 40 is crossed by a radial passage 44 whose direction is perpendicular to the axis XX of the cylindrical inner face 42. This passage 44 opens, on the one hand, inside the end piece 12 and, on the other hand, on a conduit 46, for example a flexible pipe. The passage 44 leads to the outside of the fitting 12 on a shoulder part 48 forming access to the fluid. The female connector 12 is also advantageously produced by

usinage et/ou formage d'un materiau metallique et/ou plastique.  machining and / or forming of a metallic and / or plastic material.

Le raccord male 10 est prevu pour etre recu a etancheite dans le raccord femelle 12, comme montre sur la Figure 2. Dans cette configuration, les joints d'etancheite 34 et 36 vent a l'etat comprime, et le passage 44 du raccord 12 debouche en regard de la gorge annulaire 28 du raccord male. Cette gorge 28 contribue a delimiter, conjointement avec la face interieure 42 du raccord femelle et avec les deux joints d'etancheite 34 et 36,  The male connector 10 is designed to be received in a sealed manner in the female connector 12, as shown in FIG. 2. In this configuration, the seals 34 and 36 are in a compressed state, and the passage 44 of the connector 12 opens opposite the annular groove 28 of the male connector. This groove 28 contributes to delimiting, jointly with the internal face 42 of the female connector and with the two sealing joints 34 and 36,

une chambre annulaire externe 50.an external annular chamber 50.

Dans l'exemple de realisation de la Figure 2, un fluide F. par exemple un fluide refrigerant, circule dans le conduit 46, comme montre par la fleche, pour parvenir jusquia l'acces 48 de liembout femelle 12. De la, il gagne la chambre annulaire externe 50 en passant par le passage 44. Ensuite, il traverse la paroi 14 du raccord male par l'ouverture radiale 26 et penetre dans la chambre axiale interne 24 pour parvenir jusquta l'acces 18. Bien entendu, la circulation du fluide F en sens inverse est possible. Le fluide peut, en partant de l'acces 18 du raccord male, parvenir dans la chambre interne 24, traverser la paroi 14 pour parvenir dans la chambre annulaire 50, puis gagner l'acces 48 par le passage 44 et circuler ensuite dans le  In the embodiment of Figure 2, a fluid F. for example a refrigerant, flows through the conduit 46, as shown by the arrow, to reach the access 48 of the female end piece 12. From there, it gains the external annular chamber 50 passing through the passage 44. Then it crosses the wall 14 of the male connector through the radial opening 26 and enters the internal axial chamber 24 to reach the access 18. Of course, the circulation of the fluid F in reverse is possible. The fluid can, starting from the access 18 of the male connector, reach the internal chamber 24, pass through the wall 14 to reach the annular chamber 50, then gain access 48 through the passage 44 and then circulate in the

conduit 46.conduit 46.

Le dispositif de connexion represente a la Figure 2 offre l'avantage de permettre une repartition uniforme de la pression du fluide F puisqu'un equilibre de pression est realise a l'interieur de la chambre. En particulier, on retrouve la meme pression de fluide aussi bien dans la chambre interne 24 que dans la chambre externe 50. I1 en resulte que les deux raccords et 12 restent parfaitement assembles entre eux, meme si la pression du fluide atteint des valeurs elevees, et en particulier des valeurs rencontrees habituellement dans les  The connection device shown in Figure 2 offers the advantage of allowing a uniform distribution of the pressure of the fluid F since a pressure balance is achieved inside the chamber. In particular, the same fluid pressure is found both in the internal chamber 24 and in the external chamber 50. It follows that the two connections and 12 remain perfectly assembled together, even if the fluid pressure reaches high values, and in particular the values usually encountered in

circuits de climatisation.air conditioning circuits.

Ainsi, le fluide F peut etre un fluide refrigerant d'un circuit de climatisation, notamment de vehicule automobile, circulant a des pressions elevees, typiquement de liordre de 30 bars,  Thus, the fluid F can be a refrigerant fluid of an air conditioning circuit, in particular of a motor vehicle, circulating at high pressures, typically of the order of 30 bars,

voire davantage.or more.

De cette maniere, il n'est pas necessaire, en principe, de prevoir des moyens pour emp8cher une desolidarisation mutuelle des raccords 10 et 12. Toutefois, a titre de precaution, il peut etre prevu une securite pour empecher tout risque de  In this way, it is not necessary, in principle, to provide means for preventing a mutual separation of the connections 10 and 12. However, as a precaution, it can be provided a security to prevent any risk of

deconnexion, par exemple sous l'effet de vibrations.  disconnection, for example under the effect of vibrations.

On remarquera que les deux raccords 10 et 12 vent particulierement simples a realiser et qu'ils peuvent etre assembles mutuellement de maniere rapide tout en resistant a des pressions elevees. La deconnexion des deux raccords 10 etl2  It will be noted that the two connections 10 and 12 are particularly simple to make and that they can be assembled together quickly so as to withstand high pressures. The disconnection of the two fittings 10 etl2

se fait rapidement, et sans risque vis-a-vis de l'utilisateur.  is done quickly, and without risk to the user.

On se refere maintenant a la Figure 3 qui montre un autre dispositif de connexion selon l 'invention, qui fait partie d'un  We now refer to Figure 3 which shows another connection device according to the invention, which is part of a

echangeur de chaleur.heat exchanger.

I1 comprend un raccord male 62 rattache a un reservoir 64 de forme generale cylindrique et un raccord femelle 66 rattache a une bolte collectrice 68 dun echangeur de chaleur 70. Ledit raccord femelle pourra egalement etre loge en dautres points  It comprises a male connector 62 connected to a reservoir 64 of generally cylindrical shape and a female connector 66 connected to a collecting bowl 68 of a heat exchanger 70. Said female connector can also be housed at other points.

de l'echangeur, notamment au niveau de sa tubulure de sortie.  of the exchanger, in particular at its outlet pipe.

Dans l'exemple de realisation, l'echangeur de chaleur 70 est un condenseur d'un circuit de climatisation, tandis que le reservoir 64 forme bouteille et loge interieurement une cartouche de dessechant 72 et un filtre 74 (representes a la Figure 4). Comme on le verra en detail plus loin, en reference aux Figures 6 et 7, le reservoir 64 est intercale sur le  In the exemplary embodiment, the heat exchanger 70 is a condenser of an air conditioning circuit, while the reservoir 64 forms a bottle and internally houses a desiccant cartridge 72 and a filter 74 (shown in FIG. 4). As will be seen in detail below, with reference to Figures 6 and 7, the reservoir 64 is interposed on the

circuit du fluide refrigerant dans le condenseur.  refrigerant circuit in the condenser.

Sur la Figure 3, le raccord male 62 est espace du raccord femelle 66 tandis que, sur la Figure 5, les deux raccords vent  In Figure 3, the male connector 62 is the space of the female connector 66 while, in Figure 5, the two connectors are

assembles mutuellement.assemble each other.

Comme on peut le voir sur la Figure 5, une bague 76 assuettie a la bolte collectrice 68 contribue au maintien du reservoir si necessaire. Celui-ci comprend une enveloppe cylindrique 78 dont une extremite 80 est prolongee par le raccord male 62 et dont une autre extremite 82 est par exemple amenagee en forme de calotte sensiblement hemispherique. Cette autre extremite pourra etre demontable afin d'autoriser le remplacement du  As can be seen in Figure 5, a ring 76 subdued to the manifold 68 contributes to the maintenance of the reservoir if necessary. This comprises a cylindrical envelope 78, one end 80 of which is extended by the male connector 62 and the other end of which 82 is for example arranged in the form of a substantially hemispherical cap. This other end may be removable in order to authorize the replacement of the

dessechant et/ou du filtre.drying and / or filter.

On se refere maintenant aux Figures 6 et 7 pour montrer  We now refer to Figures 6 and 7 to show

12 283976512 2839765

l' interaction entre les raccords 62 et 66.  the interaction between fittings 62 and 66.

La bote collectrice 68 de ltechangeur de chaleur (Figure 7) est formee par ['assemblage de deux demi-coquilles 84 et 86, la demi-coquille 84 recevant les extremites des tubes 88 diun faisceau d'echange de chaleur. Ces tubes vent des tubes plats, et des intercalaires ondules 90 vent disposes a cheque fois  The header box 68 of the heat exchanger (Figure 7) is formed by the assembly of two half-shells 84 and 86, the half-shell 84 receiving the ends of the tubes 88 of a heat exchange bundle. These tubes wind flat tubes, and 90 wave corrugated spacers are placed every time

entre deux tubes adjacents.between two adjacent tubes.

La bolte collectrice est divisee interieurement par une cloison 92 pour delimiter un premier compartiment 94 dans lequel debouche une premiere partie des tubes et un second compartiment 96 dans lequel debouche une seconde partie des  The collecting bowl is internally divided by a partition 92 to delimit a first compartment 94 into which opens a first part of the tubes and a second compartment 96 into which opens a second part of the

tubes du faisceau.beam tubes.

Dans la premiere partie du faisceau, le fluide circule de gauche a droite (sur la figure), comme montre par les fleches, tandis que dans la seconde partie du faisceau, le fluide circule en sens inverse, c'est-a-dire de droite a gauche, comme montre par les flaches. L'echangeur de chaleur comporte habituellement une autre bote collectrice (non representee) par laquelle penetre le fluide refrigerant. Celui-ci penetre dans l'echangeur de chaleur a l'etat gazeux en provenance diun compresseur (non represente) . Le fluide refrigerant est d'abord condense dans la premiere partie du faisceau par echange thermique avec un flux d'air qui balaye le faisceau. Ensuite, il traverse le reservoir pour 8tre successivement desseche et filtre, puis il traverse la deuxieme partie des tubes du  In the first part of the beam, the fluid circulates from left to right (in the figure), as shown by the arrows, while in the second part of the beam, the fluid circulates in the opposite direction, i.e. right to left, as shown by the arrows. The heat exchanger usually has another collecting box (not shown) through which the refrigerant enters. This enters the heat exchanger in the gaseous state coming from a compressor (not shown). The refrigerant is first condensed in the first part of the bundle by heat exchange with an air flow which scans the bundle. Then, it crosses the tank to be successively dried and filtered, then it crosses the second part of the tubes of the

faisceau pour etre sous-refroidi.beam to be sub-cooled.

Pour permettre la circulation du fluide du compartiment 94 dans la cartouche, puis de la cartouche dans le compartiment 96, les  To allow the circulation of the fluid from compartment 94 in the cartridge, then from the cartridge in compartment 96, the

raccords 62 et 66 vent amenages de facon particuliere.  fittings 62 and 66 are specially fitted.

Comme on peut le voir sur les Figures 6 et 7, le raccord 62 comprend une paroi 98 de forme generale cylindrique ayant une extremite fermee 100 et une extremite ouverte 102 qui debouche a l'interieur de l'enveloppe 78 du reservoir 64. Dans l'exemple de realisation, le raccord male 62 est realise monobloc avec au moins une partie de l'enveloppe 78. Pour cela, on peut utiliser une matiere synthetique, par exemple une matiere plastique, ou encore une matiere metallique. Ce raccord pourra egalement etre en plusieurs parties. Un bouchon amovible (non represente) peut 8tre prevu pour l' introduction de la cartouche de dessechant et  As can be seen in Figures 6 and 7, the connector 62 comprises a wall 98 of generally cylindrical shape having a closed end 100 and an open end 102 which opens inside the envelope 78 of the reservoir 64. In the 'embodiment, the male connector 62 is made in one piece with at least part of the casing 78. For this, one can use a synthetic material, for example a plastic material, or a metallic material. This connection can also be in several parts. A removable cap (not shown) can be provided for the introduction of the desiccant cartridge and

du filtre dans le reservoir.of the filter in the tank.

La paroi 98 du raccord male delimite interieurement une chambre axiale interne fermee 104 qui a une configuration cylindrique etagee. La paroi 98 du raccord male est re,cue a l'interieur dune paroi 106 du raccord femelle qui delimite une face  The wall 98 of the male connector internally delimits a closed internal axial chamber 104 which has a cylindrical stage configuration. The wall 98 of the male connector is received inside a wall 106 of the female connector which delimits a face

interne cylindrique 108.internal cylindrical 108.

A l'exterieur de la paroi 98 du raccord male, vent amenagees une premiere gorge annulaire 110 et une deuxieme gorge annulaire 112 qui contribuent a delimiter une premiere chambre annulaire externe 114 et une deuxieme chambre annulaire externe  Outside the wall 98 of the male connector, a first annular groove 110 and a second annular groove 112 are provided which contribute to delimiting a first external annular chamber 114 and a second external annular chamber

116 (Figure 7) lorsque les deux raccords vent assembles.  116 (Figure 7) when the two connections are assembled.

Les chambres 114 et 116 communiquent avec la chambre axiale 104 par l'intermediaire d'une premiere ouverture 118 et d'une deuxieme ouverture 120. L'ouverture 118 fait communiquer la chambre annulaire 114 avec une premiere partie 122 de la chambre axiale interne 104, tandis que l'ouverture 120 fait communiquer la chambre annulaire 116 avec une deuxieme partie  The chambers 114 and 116 communicate with the axial chamber 104 via a first opening 118 and a second opening 120. The opening 118 communicates the annular chamber 114 with a first part 122 of the internal axial chamber 104 , while the opening 120 communicates the annular chamber 116 with a second part

124 de la chambre axiale interne 104.  124 of the internal axial chamber 104.

La partie 122 debouche dans l'enveloppe 78 et contribue au logement de la cartouche dessechante 72, tandis que la partie 124 rec,oit le filtre 74. Ce filtre est positionne de maniere a etre obligatoirement traverse par le fluide circulant entre les  The part 122 opens into the envelope 78 and contributes to the housing of the desiccated cartridge 72, while the part 124 rec receives the filter 74. This filter is positioned so as to be necessarily crossed by the fluid circulating between the

deux parties 122 et 124.two parts 122 and 124.

Au travers de la paroi 106 du raccord femelle, vent amenages deux passages: un premier passage 132 qui communique avec la chambre annulaire 114 et un deuxieme passage 134 qui communique avec la chambre annulaire 116. Les passages 132 et 134 constituent deux acces de fluide. Le passage 132 est entoure d'un embout 136 re,cu dans une ouverture 138 (Figure 7) de la bote collectrice et debouchant dans le compartiment 94. Le passage 134 est entoure d'un embout 140 re,cu dans une ouverture 142 (Figure 7) de la bolte collectrice et debouchant dans le  Through the wall 106 of the female connector, wind feeds two passages: a first passage 132 which communicates with the annular chamber 114 and a second passage 134 which communicates with the annular chamber 116. The passages 132 and 134 constitute two accesses of fluid. The passage 132 is surrounded by an end piece 136 re, cu in an opening 138 (FIG. 7) of the manifold box and opening into the compartment 94. The passage 134 is surrounded by an end piece 140 re, cu in an opening 142 ( Figure 7) of the collecting bowl and opening into the

compartiment 96.compartment 96.

Le raccord femelle 66 comprend une partie 150 formant embase (a gauche sur la Figure 6) agencee pour etre rapportee sur la bote collectrice 68 (Figure 7) par tout moyen mecanique  The female connector 66 comprises a part 150 forming a base (on the left in FIG. 6) arranged to be attached to the collecting box 68 (FIG. 7) by any mechanical means

approprie, ou encore par brasage ou par collage.  suitable, or by brazing or gluing.

L'etancheite entre les raccords male et femelle a l'etat assemble est assuree par au moins trots joints toriques 144, 146 et 148. Les joints 144 et 146 vent disposes de part et d'autre de la gorge annulaire 110 (done de la chambre annulaire 114), tandis que les joints 146 et 148 vent disposes de part et d'autre de la gorge annulaire 112 (done de la chambre annulaire 116). Comme dans la forme de realisation precedente, ces trots  The seal between the male and female connections in the assembled state is ensured by at least three O-rings 144, 146 and 148. The seals 144 and 146 are arranged on either side of the annular groove 110 (done from the annular chamber 114), while the seals 146 and 148 are arranged on either side of the annular groove 112 (done of the annular chamber 116). As in the previous embodiment, these trots

joints vent re,cus dans des gorges annulaires respectives.  seals re re, cus in respective annular grooves.

Lorsque le raccord male est rec,u dans le raccord femelle (Figure 7), le fluide refrigerant condense provenant du compartiment 94 penetre dans l'acces 132, gagne la chambre annulaire 114, puis traverse ltouverture 118 pour gagner la premiere partie 122 de la chambre axiale 104, qui loge en  When the male connector is received, in the female connector (Figure 7), the condensing coolant coming from compartment 94 enters the access 132, reaches the annular chamber 114, then crosses the opening 118 to reach the first part 122 of the axial chamber 104, which houses in

partie la cartouche de dessechant 72.  part the desiccant cartridge 72.

Le fluide refrigerant a l'etat liquide est desseche (perd son eau) et gagne ensuite la partie 124 de la chambre axiale 104 ou il est filtre par le filtre 74. Ensuite, le fluide refrigerant filtre passe par l'ouverture 120 pour gagner la chambre annulaire 116. De la, il passe par l'acces 134 pour penetrer dans le compartiment 96 et traverser les tubes de la deuxieme  The refrigerant in the liquid state is dried (loses its water) and then gains the part 124 of the axial chamber 104 where it is filtered by the filter 74. Then, the filtered refrigerant passes through the opening 120 to gain the annular chamber 116. From there, it passes through access 134 to enter compartment 96 and pass through the tubes of the second

partie du faisceau pour etre sous-refroidi.  part of the bundle to be sub-cooled.

Comme dans la forme de realisation precedente, un equilibre de pression est realise a l'interieur de la connexion, d'une part, entre la premiere partie 122 de la chambre axiale 104 et la chambre annulaire 114 et, d'autre part, entre la deuxibme partie 124 de la chambre axiale 104 et la chambre annulaire 116. Correlativement, une force identique et opposee est exercee, dune part, sur les joints 144 et 146 et, d'autre part sur les joints 146 et 148, ceci a des pressions d' entree et de sortie eventuellement legerement differentes en raison de la  As in the previous embodiment, a pressure equilibrium is achieved inside the connection, on the one hand, between the first part 122 of the axial chamber 104 and the annular chamber 114 and, on the other hand, between the second part 124 of the axial chamber 104 and the annular chamber 116. Correspondingly, an identical and opposite force is exerted, on the one hand, on the seals 144 and 146 and, on the other hand on the seals 146 and 148, this has possibly slightly different inlet and outlet pressures due to the

perte de charge due au filtre.pressure drop due to the filter.

Cette connexion est susceptible de resister a de s pres s ions elevees telles que celles rencontrees dans un condenseur de climatisation. Comme indique plus haut, pour des raisons de securite, on prevoit eventuellement une bague 76 (Figures 3 et 5) pour le maintien du reservoir. Ce maintien est destine a des fins de securite pour eviter une separation du reservoir, par exemple sous lieffet de vibrations, comme c'est le cas dans un vehicule automobile. Par ailleurs un bouchon de protection 152 (Figures 3, 5, 6 et 7) peut etre prevu en partie inferieure du  This connection is likely to withstand high pressures such as those encountered in an air conditioning condenser. As indicated above, for safety reasons, a ring 76 (Figures 3 and 5) may be provided for holding the reservoir. This support is intended for security purposes to avoid separation of the tank, for example under the effect of vibrations, as is the case in a motor vehicle. In addition, a protective cap 152 (Figures 3, 5, 6 and 7) can be provided in the lower part of the

raccord femelle.female connector.

Bien entendu, l' invention n'est pas limitee aux deux formes de realisation decrites precedemment a titre d'exemple et setend  Of course, the invention is not limited to the two embodiments described above by way of example and setend

a d'autres variantes.has other variations.

De maniere generale, elle permet de realiser des dispositifs de connexion comprenant un raccord mfile et un raccord femelle propres a etre rattaches respectivement a des elements d'un circuit de fluide. Ce circuit- de fluide, qui est avantageusement destine a un fluide sous pression, n'est pas  In general, it makes it possible to produce connection devices comprising a threaded connection and a female connection suitable for being attached respectively to elements of a fluid circuit. This fluid circuit, which is advantageously intended for a pressurized fluid, is not

limite a un circuit de climatisation.  limited to an air conditioning circuit.

Claims (19)

Revendicationsclaims 1. Dispositif de connexion pour un circuit de fluide, en particulier pour un circuit de climatisation parcouru par un fluide refrigerant, du type comprenant un raccord male agence pour etre recu a etancheite dans un raccord femelle, caracterise en ce que le raccord mfile (10; 62) delimite une chambre axiale interne fermee (24; 104) qui est reliee a un acces de fluide (18; 102) et qui communique au travers dune paroi (14; 98) du raccord male avec au moins une chambre annulaire externe (50; 114, 116) delimitee conjointement par la paroi (14; 98) du raccord male et par une paroi (40; 106) du raccord femelle (12; 66) qui entoure la paroi du raccord male, ladite chambre externe communiquant avec un autre acces de fluide (48; 132, 134), en sorte que le fluide peut passer  1. Connection device for a fluid circuit, in particular for an air conditioning circuit traversed by a refrigerant, of the type comprising a male connector arranged to be received sealed in a female connector, characterized in that the mfile connector (10 ; 62) delimits a closed internal axial chamber (24; 104) which is connected to a fluid access (18; 102) and which communicates through a wall (14; 98) of the male connection with at least one external annular chamber ( 50; 114, 116) delimited jointly by the wall (14; 98) of the male connector and by a wall (40; 106) of the female connector (12; 66) which surrounds the wall of the male connector, said external chamber communicating with a other fluid access (48; 132, 134), so that the fluid can pass de l'un a l'autre des deux acces de fluide.  from one to the other of the two accesses of fluid. 2. Dispositif de connexion selon la revendication 1, caracterise en ce que la paroi (14; 98) du raccord male (10; 62) est de forme generale cylindrique et comporte une extremite fermee (16; 100) agencee pour etre recue dans le raccord femelle (12; 66) et une extremite ouverte (18; 102) agencee  2. Connection device according to claim 1, characterized in that the wall (14; 98) of the male connector (10; 62) is of generally cylindrical shape and has a closed end (16; 100) arranged to be received in the female connector (12; 66) and an open end (18; 102) arranged pour former l'acces de fluide.to form the fluid access. 3. Dispositif de connexion selon l'une des revendications 1  3. Connection device according to one of claims 1 et 2, caracterise en ce que la paroi (14; 98) du raccord male (10; 62) est traversee par au moins une ouverture radiale (26; 118, 120) agencee pour faire communiquer la chambre axiale interne (24; 104) et la chambre annulaire externe (50;  and 2, characterized in that the wall (14; 98) of the male connector (10; 62) is crossed by at least one radial opening (26; 118, 120) arranged to communicate the internal axial chamber (24; 104) and the outer annular chamber (50; 114, 116).114, 116). 4. Dispositif de connexion selon l'une des revendications 1  4. Connection device according to one of claims 1 a 3, caracterise en ce que la paroi (14; 98) du raccord male (10; 62) delimite exterieurement une gorge annulaire (28; , 112) contribuant a delimiter la chambre annulaire externe  a 3, characterized in that the wall (14; 98) of the male connector (10; 62) externally delimits an annular groove (28;, 112) contributing to delimiting the external annular chamber 17 283976517 2839765 (50; 114, 116).(50; 114, 116). 5. Dispositif de connexion selon l'une des revendications 1  5. Connection device according to one of claims 1 a 4, caracterise en ce que des joints d'etancheite (34, 36; 144, 146, 148) vent interposes entre la paroi (14; 98) du raccord male et la paroi (40; 106) du raccord femelle, de part  a 4, characterized in that seals (34, 36; 144, 146, 148) wind interposed between the wall (14; 98) of the male connector and the wall (40; 106) of the female connector, et d'autre de la chambre annulaire externe (50; 114, 116).  and on the other side of the external annular chamber (50; 114, 116). 6. Dispositif de connexion selon la revendication 5, caracterise en ce que les joints d'etancheite (34, 36; 144, 146, 148) vent des joints toriques recus dans une gorge annulaire (30, 32) formee a l'exterieur de la paroi (14; 98)  6. Connection device according to claim 5, characterized in that the seals (34, 36; 144, 146, 148) wind O-rings received in an annular groove (30, 32) formed outside the wall (14; 98) du raccord male.of the male connector. 7. Dispositif de connexion selon lune des revendications 1  7. Connection device according to one of claims 1 a 6, caracterise en ce que la paroi (40; 106) du raccord femelle comprend une face interieure (42; 108) de forme generale cylindrique agencee pour recevoir la paroi (14; 98) du raccord male et traversee par au moins un passage radial (44; 132, 134) agence pour deboucher dans la chambre annulaire externe (50; 114, 116) et former l'acces de fluide du raccord femelle.  a 6, characterized in that the wall (40; 106) of the female connector comprises an inner face (42; 108) of generally cylindrical shape arranged to receive the wall (14; 98) of the male connector and crossed by at least one passage radial (44; 132, 134) agency for opening into the external annular chamber (50; 114, 116) and forming the access of fluid to the female connector. 8. Dispositif de connexion selon l'une des revendications 1  8. Connection device according to one of claims 1 a 7, caracterise en ce qu'il comprend une seule chambre annulaire externe (50) qui communique avec un acces de fluide  a 7, characterized in that it comprises a single external annular chamber (50) which communicates with a fluid access (44) du raccord femelle (12).(44) of the female connector (12). 9. Dispositif de connexion selon l'une des revendications 1  9. Connection device according to one of claims 1 a 7, caracterise en ce qu'il comprend deux chambres annulaires externes (114, 116) qui communiquent respectivement avec deux  a 7, characterized in that it comprises two external annular chambers (114, 116) which communicate respectively with two acces de fluide (132, 134) du raccord femelle (66).  fluid access (132, 134) of the female connector (66). 10. Circuit de fluide, caracterise en ce quil comprend un  10. Fluid circuit, characterized in that it includes a dispositif de connexion selon l'une des revendications 1 a 9.  connection device according to one of claims 1 to 9. 18 283976518 2839765 11. Circuit de fluide selon la revendication 10, comprenant un echangeur de chaleur (22) et un conduit (46), caracterise en ce que le raccord mfile (10) et le raccord femelle (12) vent rattaches l'un a ltechangeur de chaleur (22) et l'autre au conduit (46).  11. Fluid circuit according to claim 10, comprising a heat exchanger (22) and a duct (46), characterized in that the threaded connection (10) and the female connection (12) are attached to the heat exchanger. heat (22) and the other to the duct (46). 12. Circuit de fluide selon la revendication 10, comprenant un echangeur de chaleur (70) et un reservoir de fluide (64), caracterise en ce que le raccord mfile (62) et le raccord femelle (66) vent rattaches respectivement au reservoir de12. Fluid circuit according to claim 10, comprising a heat exchanger (70) and a fluid reservoir (64), characterized in that the mfile connection (62) and the female connection (66) are respectively attached to the reservoir. fluide (64) et a l'echangeur de chaleur (70).  fluid (64) and the heat exchanger (70). 13. Circuit de fluide selon la revendication 12, caracterise en ce que le dispositif de connexion est tel que defini a la revendication 9 et comprend une premiere chambre annulaire externe (114) communiquant via un premier accbs de fluide (132) du raccord femelle (66) avec une premiere partie (94) de l'echangeur de chaleur, ainsi qu'une deuxieme chambre annulaire externe (116) communiquant via un deuxieme acces de fluide (134) du raccord femelle avec une deuxieme partie (96) de l'echangeur de chaleur, en sorte qu'un fluide peut circuler de la premiere partie a la deuxieme partie de liechangeur de  13. Fluid circuit according to claim 12, characterized in that the connection device is as defined in claim 9 and comprises a first external annular chamber (114) communicating via a first fluid access (132) of the female connector ( 66) with a first part (94) of the heat exchanger, as well as a second external annular chamber (116) communicating via a second access of fluid (134) of the female connector with a second part (96) of the heat exchanger, so that a fluid can circulate from the first part to the second part of the heat exchanger chaleur, en passant par le reservoir.  heat, passing through the tank. 14. Circuit de fluide selon la revendication 13, caracterise en ce que le raccord mfile (62) comprend au moins une premiere ouverture ( 118) faisant communiquer la premiere chambre annulaire externe (114) avec une premiere partie (122) de la chambre axiale interne (104) du raccord male et au moins une deuxieme ouverture (120) faisant communiquer la deuxieme chambre annulaire externe (116) avec une deuxieme partie (124) de la chambre axiale interne (104) du raccord mfile, lesdites premiere partie et deuxieme partie de la chambre interne  14. Fluid circuit according to claim 13, characterized in that the mfile connection (62) comprises at least a first opening (118) communicating the first external annular chamber (114) with a first part (122) of the axial chamber internal (104) of the male connector and at least a second opening (120) communicating the second external annular chamber (116) with a second part (124) of the internal axial chamber (104) of the male connector, said first part and second part of the internal chamber communiquant entre elles.communicating with each other. 15. Circuit de fluide selon la revendication 14, caracterise  15. Fluid circuit according to claim 14, characterized 19 283976519 2839765 en ce que la premiere partie (122) de la chambre axiale interne (104) du raccord male debouche dans le reservoir (64), tandis que la deuxieme partie (124) de la chambre axiale interne du  in that the first part (122) of the internal axial chamber (104) of the male connector opens into the reservoir (64), while the second part (124) of the internal axial chamber of the raccord male est fermee par la paroi (98) du raccord male.  male connector is closed by the wall (98) of the male connector. 16. Circuit de fluide selon la revendication 15, caracterise en ce qu'une cartouche de dessechant (72J est logee dans la premiere partie (122) de la chambre axiale interne du raccord male et dans le reservoir (64), tandis qu'un filtre (74) est loge dans la deuxieme partie (124) de la chambre axiale interne  16. Fluid circuit according to claim 15, characterized in that a desiccant cartridge (72J is housed in the first part (122) of the internal axial chamber of the male connector and in the reservoir (64), while a filter (74) is housed in the second part (124) of the internal axial chamber du raccord male.of the male connector. 17. Circuit de fluide selon l'une des revendications 11 a 16,  17. Fluid circuit according to one of claims 11 to 16, caracterise en ce que l'echangeur de chaleur (70) est un condenseur parcouru par un fluide refrigerant, et le reservoir  characterized in that the heat exchanger (70) is a condenser through which a refrigerant flows, and the reservoir (64) est rattache-au condenseur pour former une bouteille.  (64) is attached to the condenser to form a bottle. 18. Circuit de fluide selon l'une des revendications 11 a 17,  18. Fluid circuit according to one of claims 11 to 17, caracterise en ce que le reservoir (64) comprend une enveloppe (78) et en ce que le raccord male (62) est realise monobloc  characterized in that the reservoir (64) comprises a casing (78) and in that the male connection (62) is made in one piece avec une partie au moins de l'enveloppe (78) du reservoir.  with at least part of the shell (78) of the reservoir. 19. Circuit de fluide selon l'une des revendications 11 a 18,  19. Fluid circuit according to one of claims 11 to 18, caracterise en ce que le raccord femelle (66) est realise sous la forme diune embase qui est rapportee sur une bote  characterized in that the female connector (66) is produced in the form of a base which is attached to a box
FR0205993A 2002-05-15 2002-05-15 CONNECTION DEVICE FOR A FLUID CIRCUIT, PARTICULARLY AIR-CONDITIONING, AND CIRCUIT COMPRISING SUCH A DEVICE Expired - Lifetime FR2839765B1 (en)

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Cited By (6)

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Publication number Priority date Publication date Assignee Title
FR2887619A1 (en) * 2005-06-28 2006-12-29 Valeo Systemes Thermiques Heat exchanger for motor vehicle air-conditioning installation, has reservoir with inlet and outlet manifolds and fixation rod introduced in corresponding orifices of collector, where reservoir`s support side is glued against collector wall
JP2007078233A (en) * 2005-09-13 2007-03-29 Fuji Koki Corp Receiver dryer integrated condenser
EP1746367A3 (en) * 2005-07-20 2008-01-23 Fujikoki Corporation Receiver dryer and receiver dryer integrated condenser
EP2110623A1 (en) * 2008-04-17 2009-10-21 SHOWA ALUMINIUM CZECH, s.r.o. Heat exchanger
CN1915472B (en) * 2005-07-20 2011-03-16 株式会社不二工机 Receiver dryer and receiver dryer integrated condenser
WO2015113581A1 (en) * 2014-01-30 2015-08-06 Mtu Friedrichshafen Gmbh Connection device for a pipe joint, pipe joint, and internal combustion engine

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Cited By (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
FR2887619A1 (en) * 2005-06-28 2006-12-29 Valeo Systemes Thermiques Heat exchanger for motor vehicle air-conditioning installation, has reservoir with inlet and outlet manifolds and fixation rod introduced in corresponding orifices of collector, where reservoir`s support side is glued against collector wall
EP1746367A3 (en) * 2005-07-20 2008-01-23 Fujikoki Corporation Receiver dryer and receiver dryer integrated condenser
US7712330B2 (en) 2005-07-20 2010-05-11 Fujikoki Corporation Receiver dryer and receiver dryer integrated condenser
CN1915472B (en) * 2005-07-20 2011-03-16 株式会社不二工机 Receiver dryer and receiver dryer integrated condenser
JP2007078233A (en) * 2005-09-13 2007-03-29 Fuji Koki Corp Receiver dryer integrated condenser
JP4489669B2 (en) * 2005-09-13 2010-06-23 株式会社不二工機 Receiver dryer integrated capacitor
EP2110623A1 (en) * 2008-04-17 2009-10-21 SHOWA ALUMINIUM CZECH, s.r.o. Heat exchanger
WO2015113581A1 (en) * 2014-01-30 2015-08-06 Mtu Friedrichshafen Gmbh Connection device for a pipe joint, pipe joint, and internal combustion engine

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