EP1044836A1 - Accumulator for an air conditioner of the orifice type, particularly for vehicle air conditioners - Google Patents

Abstract

The refrigerant inlet (5) is on the top plate of the dryer which has the drying medium (13) in a chamber near the bottom fac which is the outlet (3). Water is absorbed through holes (12) and gas passes into a space between tubes (8,21) to drain oil thro holes (10).

Description

a) einem Gehäuse, das eine untere Stirnfläche, eine obere Stirnfläche, einen Einlaß und einen Auslaß für das Kältemittel aufweist;

b) einem im unteren Bereich des Innenraumes des Gehäuses untergebrachten Trockenmittel;

c) einer Leitung für Kältemittel im Innenraum des Gehäuses, welche an einem Ende mit dem Innenraum des Gehäuses kommuniziert, in einem ersten Bereich von oben her kommend nach unten bis nahe an den Boden des Gehäuses führt, dort eine kleine mit dem Innenraum des Gehäuses kommunizierende Bohrung aufweist und von dort in einem zweiten Bereich wiederum nach oben ansteigt und an ihrem anderen Ende mit dem Auslaß kommuniziert. Bei nach dem "Orifice"-Prinzip arbeitenden Klimaanlagen ist der Trockner/Akkumulator dem Verdampfer nachgeordnet. Das aus dem Verdampfer kommende Kältemittel besteht hauptsächlich aus einer Gasphase, enthält jedoch auch noch in geringerer Menge Flüssigphase. Insbesondere letztere führt Feuchtigkeit und Öl mit sich. Aufgabe des Trockners/Akkumulators ist es unter anderem, dem Kältemittel die Feuchtigkeit (Wasser) zu entziehen, das Öl jedoch wieder in den Kältemittelkreislauf zurückzuführen und außerdem die flüssige von der gasförmigen Phase zu trennen.Ein Akkumulator der eingangs genannten Art ist in der DE 195 05 108 A1 beschrieben. Der Einlaß für das Kältemittel befindet sich hier im oberen Bereich des Gehäuses an dessen Mantelfläche, so daß dort das Kältemittel in radialer Richtung zuströmt. Der Auslaß für das Kältemittel ist koaxial zur Achse des Gehäuses in dessen oberer Stirnseite vorgesehen. Die Leitung für das Kältemittel, die im oben genannten Merkmal c) angesprochen ist, hier von zwei koaxialen Rohren gebildet, wobei der Zwischenraum zwischen den beiden Rohren an seinem oberen Ende mit dem oberen Bereich des Innenraumes des Gehäuses kommuniziert und das innere Rohr direkt mit dem Auslaß verbunden ist. Nachteilig bei dieser Anordnung ist, daß die beiden Anschlüsse des Akkumulators in einem Winkel zueinander stehen, so daß die Verrohrung des Kältemittelrohres der Klimaanlage, an welche der Akkumulator angeschlossen werden soll, entsprechende Winkel aufweisen muß. Dies ist unter ungünstigen Platzverhältnissen, wie sie z.B. im Motorraum von Kraftfahrzeugen vorliegen, manchmal störend.Bei anderen aus der Praxis bekannten Akkumulatoren befinden sich sowohl der Einlaß als auch der Auslaß in der oberen Stirnseite des Gehäuses. Hier ergeben sich die geschilderten Probleme mit der Führung des Kältemittelrohres, in welches der Akkumulator einzufügen ist, verschärft.Aufgabe der vorliegenden Erfindung ist es, einen Akkumulator der eingangs genannten Art so auszugestalten, daß er in ein im wesentlichen geradlinig gestrecktes Kältemittelrohr eingefügt werden kann, so daß das Kältemittelrohr keine unnötigen Knicke und Biegungen aufzuweisen braucht. Diese Aufgabe wird erfindungsgemäß dadurch gelöst, daß

d) der Einlaß in der oberen Stirnseite und der Auslaß in der unteren Stirnseite des Gehäuses im wesentlichen achsparallel angeordnet sind;

e) die im Merkmal c) erwähnte Leitung für das Kältemittel einen dritten Bereich aufweist, der sich an den zweiten Bereich dieser Leitung anschließt und von diesem zum Auslaß führt.

The invention relates to an accumulator for an air conditioning system operating according to the "orifice" principle, in particular a vehicle air conditioning system

a) a housing which has a lower end face, an upper end face, an inlet and an outlet for the refrigerant;

b) a desiccant housed in the lower region of the interior of the housing;

c) a line for refrigerant in the interior of the housing, which communicates at one end with the interior of the housing, in a first area coming from above down to close to the bottom of the housing, there communicates a small with the interior of the housing Has bore and from there rises again in a second area and communicates at its other end with the outlet. In the case of air conditioning systems operating according to the "orifice" principle, the dryer / accumulator is arranged downstream of the evaporator. The refrigerant coming from the evaporator mainly consists of a gas phase, but also contains a smaller amount of liquid phase. The latter in particular carries moisture and oil with it. One of the tasks of the dryer / accumulator is to remove the moisture (water) from the refrigerant, but to return the oil to the refrigerant circuit and also to separate the liquid from the gaseous phase. DE 195 describes an accumulator of the type mentioned 05 108 A1. The inlet for the refrigerant is located in the upper area of the housing on its outer surface, so that the refrigerant flows in there in the radial direction. The outlet for the refrigerant is provided coaxially with the axis of the housing in the upper end face. The line for the refrigerant, which is addressed in the above-mentioned feature c), here formed by two coaxial tubes, the space between the two tubes communicating at its upper end with the upper region of the interior of the housing and the inner tube directly with the Outlet is connected. A disadvantage of this arrangement is that the two connections of the accumulator are at an angle to one another, so that the piping of the refrigerant pipe of the air conditioning system to which the accumulator is to be connected must have corresponding angles. This is sometimes troublesome under unfavorable space conditions, such as those found in the engine compartment of motor vehicles. In other batteries known from practice, both the inlet and the outlet are located in the upper end face of the housing. Here the problems described with the guidance of the refrigerant tube into which the accumulator is to be inserted are exacerbated. so that the refrigerant pipe need not have unnecessary kinks and bends. This object is achieved in that

d) the inlet in the upper end face and the outlet in the lower end face of the housing are arranged substantially axially parallel;

e) the line for the refrigerant mentioned in feature c) has a third area which adjoins the second area of this line and leads from this to the outlet.

According to the invention, this is the state of the art thought that can be found throughout, leave the refrigerant from the upper area of the interior of the housing dissipate. This thought seemed before the present one Invention to be mandatory because yes in the lower Area of the interior of the housing liquid refrigerant stands, which must evaporate upwards. Also the necessity that which collects in the area of the housing near the floor Carry oil with an upward flow and thus had to lead out of the accumulator contrary to the inventive idea. With the present Invention is recognized that a first up rising, coming from the bottom of the housing Refrigerant flow is definitely not an option opposes this refrigerant flow ultimately to be carried out on the lower end of the housing. For this, as stated in claim 1, must still once again another reversal of the flow of the refrigerant be provided so that the refrigerant on the last Path in front of the outlet facing downwards Current experiences.

In general, it is harmless if inlet and outlet a slight parallel displacement of their axes exhibit; even then is the assembly of the accumulator into an essentially straight refrigerant pipe still possible without any problems. Is particularly cheap but it goes without saying if inlet and outlet are to each other are coaxial.

In terms of production technology, that configuration is the Invention particularly advantageous in which the third Area of conduction from a first pipe, which itself subsequent second area of the line from the gap between the first tube and a second, the first Pipe coaxial surrounding pipe and the first area of the Line from the space between the second pipe and a third tube coaxially surrounding the second tube is formed. These three tubes can thus be interlocked be made that two in the direction of flow successive "siphon-like" flow reversals surrender. Real pipe bends that are relatively expensive are not necessary in this case.

Not only in terms of manufacturing but also in terms of assembly technology it is favorable if the first pipe, the third pipe and connecting these two pipes at the bottom, bottom containing the hole as a one-piece insert are trained. This can be inexpensively used as a molded plastic part be produced, so needs from the individual components not to be assembled together.

This principle can be continued by the fact that to the outer tube of the insert a container for the Desiccant is molded.

In a corresponding manner, it can be recommended that the second tube and one molded onto one end of this tube Guide device on which at least one reversal the direction of flow of the refrigerant takes place, are combined in one piece into a second insert.

An embodiment of the invention is as follows explained in more detail with reference to the drawing; the only figure shows an axial section through an accumulator for an air conditioning system operating on the "orifice" principle.

The accumulator shown in the drawing includes a cup-shaped housing 1, which at its lower Front end is completed by a bottom 2. The Floor 2 can be detachable and sealed or permanent on the Housing 1 attached, for example welded.

In the bottom 2 is coaxial to the substantially cylindrical Housing 1 is formed an outlet 3 for the refrigerant. Diametrically opposite is in the top one End face 4 of the housing 1, an inlet 5 for refrigerant.

A first insert 6 is in the interior of the housing 1 arranged. This includes an inner tube 7, which with communicates its lower end with the outlet 3, and an outer tube coaxially surrounding the inner tube 7 8, the annular space between the two Pipes 7, 8 closed at the bottom by a curved bottom 9 is. The annular space between the inner tube 7 and the outer tube 8 communicate with the interior of the bottom of the floor 9 Housing 1 through one or more holes 10 in the bottom 9.

On the outer surface of the outer tube 8 is an annular, molded-on container 11 open at the bottom, a plurality in its upper annular end face of perforations 12 is introduced. The container 11 is filled with desiccant 13 and down through an annular disk 14 provided with perforations 15 is closed. Between the desiccant bed 13 and the upper annular face of the container 11 and the lower washer 14 is a layer of felt 16 or 17 inserted.

The radially outer wall of the container 11 is located on the inner wall of the housing 1. Through this and through the engagement of the inner tube 7 in the bore of the inlet 3, the insert 6 is held radially. Between the washer 14 and the bottom 2 of the housing 1 a coil spring 18 tensioned which is the upper end face of the container 11 against a bead 19 in the lateral surface of the housing 1 presses.

A second insert 20 is with the one described above first insert 6 nested in the following way:

A tube 21, which is part of the insert 20, has one Diameter on that between the diameters of the inner Tube 7 and the outer tube 6 is located and coaxial this into the annular space between the inside Tube 7 and outer tube 8 is led from above. The lower end of the tube 21 is in a certain Distance above the bottom 9 of the first insert 6 and is here by at least one wing-like rib 22, which is molded onto the inner tube 7 of the first insert 6 is supported and guided radially. At least a similar wing-like rib 23 is on the top Added to the area of the tube 21 of the second insert 20, which on the inner wall of the outer tube 8 of the first insert 6 supports and in this way the second insert 20 in the upper area against the first Insert 6 centered.

At the upper end of the one belonging to the second insert 20 Tube 21 is formed on a guide device 24. This comprises a first, in cross section semicircular, gutter-like Annular surface 25, which the upper free edge of the overlaps the outer tube 8 of the insert 6. A second in cross-section semicircular, channel-like ring surface 26 of the guide device 24 overlaps the upper free one Edge of the inner tube 7 of the first insert 6.

The accumulator described above works as follows:

Refrigerant coming from the evaporator becomes the interior of the housing 1 supplied via the inlet 5. So far in this refrigerant still contain liquid components are collected in the lower area of the interior of the housing 1, occur via the perforations 12, 15 in the desiccant 13 and there from moisture (Water) freed. The gaseous phase of the refrigerant on the other hand comes from the upper area of the housing 1, guided through the annular surface 25 of the guide device 24, in the annular space between the outer surface of the tube 21 of the second insert 20 and the inner circumferential surface of the outer tube 8 of the first Insert 6 and flows down here. There it becomes the lower edge of the tube 21 of the second insert 20th deflected by 180 °, stroking the openings 10 in the bottom 9 of the first insert 6 and takes, such as this from DE 195 051 08 A1 mentioned at the beginning is known to have oil accumulating there. It arrives now in the annular space between the tube 21 of the second insert 20 and the outer surface of the inner tube 7 of the first insert 6 and flows there upwards until it reaches the gutter-like ring surface 26 of the guide device 24 of the second insert 20 again is deflected by about 180 °. Now the refrigerant flows straight through the inner tube 7 of the first Insert 6 down and through the outlet 3.

As can be seen very well in the only figure, can the accumulator described simply in a straight, from bottom to top Refrigerant pipe can be used without the latter additional angles or other deflections are available should be.

Claims (6)

Accumulator for an air conditioning system working according to the "orifice" principle, in particular a vehicle air conditioning system a) a housing which has a lower end face, an upper end face, an inlet and an outlet for the refrigerant; b) a desiccant housed in the lower region of the interior of the housing; c) a line for refrigerant in the interior of the housing, which communicates at one end with the interior of the housing, in a first area coming from above down to close to the bottom of the housing, there communicates a small with the interior of the housing Has a bore and rises again from there in a second area and communicates with the outlet at its other end,
characterized in that d) the inlet (5) in the upper end face (4) and the outlet (3) in the lower end face (2) of the housing (1) are arranged essentially axially parallel, e) the line (7, 8, 21) mentioned in feature c) for the refrigerant has a third area (7) which connects to the second area (7, 21) of this line (7, 8, 21) and from this leads down to the outlet (3). Accumulator according to claim 1, characterized in that inlet (5) and outlet (3) are coaxial. Accumulator according to claim 1 or 2, characterized in that that the third area of the line (7, 8, 21) from a first tube (7), the subsequent one second area of the line (7, 8, 21) from the gap between the first tube (7) and a second, the first tube (7) coaxially surrounding tube (21) and first area of the line (7, 8, 21) from the gap between the second tube (21) and a third, the second tube (21) coaxially surrounding tube (8) is formed. Accumulator according to claim 3, characterized in that the first tube (7), the third tube (8) and a connecting these two pipes (7, 8) at the lower end, the bottom (9) containing the bottom (9) as a single piece Insert (6) are trained. Accumulator according to claim 4, characterized in that to the outer tube (8) of the insert (6) Container (11) for the desiccant (13) is molded on. Accumulator according to claim 4 or 5, characterized in that the second tube (21) and one to one End of this tube (21) integrally formed guide device (24), at which at least one reversal of the flow direction of the refrigerant takes place in one piece to a second Insert (20) are summarized.

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