EP3062042A1 - Fluid collector - Google Patents

Abstract

Fluid collector (1) for a fluid (2), in particular for a refrigerant of an air conditioning system, with a collecting container (3) with an inlet opening (5) and an outlet opening (4), which permits the inflow and outflow of the fluid into the collecting container (3 ) or from the collecting container (3), as well as with a drying container (6) filled dryer container (7) and with a filter (8), wherein the collecting container (3) has a free total volume (9) and with desiccant (6) filled dryer container (7) and the filter (8) have a dryer / filter volume (10), wherein a free volume (11) for the fluid (2) substantially the total free volume (9) minus the dryer / Filter volume (10), characterized in that the free volume (11) for the fluid (2) is 50% or less than 50% of the total free volume (9).

Description

Technical area

The invention relates to a fluid collector according to the preamble of claim 1, in particular for use for a refrigerant of an air conditioner, with a collecting container and a drying container filled with a drying agent and with a filter. Furthermore, the invention relates to a capacitor.

State of the art

Collecting containers which receive a drying container filled with a desiccant and a filter are used, for example, for refrigerant condensers in motor vehicle air conditioners. The common arrangement of a sump and a refrigerant condenser is also referred to as a so-called condenser module and usually has a tube-fin block, the tubes each with its two ends arranged with one of two parallel to each other and separated by the tube-fin block Manifolds are fluidly connected.

In this case, the collecting container is arranged next to one of the two manifolds, which is connected via at least two openings, an inlet opening and an outlet opening, with the collecting pipe located next to it. Via the inlet opening, the fluid or the refrigerant can flow out of the collecting tube into the adjacent collecting container. The fluid or the refrigerant can flow out of the collecting container into the adjacent collecting pipe via the outlet opening.

The drying agent is suitable for extracting water from the fluid or the refrigerant, which possibly collects in the fluid. The filter, which is also located in the collecting container, serves to filter the fluid or the refrigerant and cleans the fluid of particles which have got into the fluid, for example by abrasion.

Usually so-called capacitor modules are arranged in motor vehicle air conditioning systems so that the collecting container and the two manifolds are aligned substantially vertically to the longitudinal axis of the motor vehicle. But it is also known the design with a horizontal arrangement. The inlet opening located on the collecting container and the outlet opening located on the collecting container are generally positioned in the lower region of the collecting container in the vertical arrangement. The collection container is often closed at one end with a non-openable stopper. Out EP 0 936 423 A2 a collecting container of a condenser with collecting container is known as a fluid collector, whose upper end has a detachable threaded cover.

The DE 10 2011 002 976 A1 shows a refrigerant condenser assembly for an automotive air conditioning system with a sump. Out DE 10 2010 040 025 A1 Likewise, a collection container belonging to a condenser assembly has become known.

In addition, the collecting container and the collecting pipe located next to it usually have the same length for installation reasons. For example US 5,546,761 However, a condenser with collecting container is known as a fluid collector, in which the collecting container is shorter than the collecting tube arranged next to it.

As a refrigerant in refrigerant condensers for motor vehicle air conditioning systems so far mainly known under the name R134a refrigerant is used. Refrigerants that are currently eligible for replacement have a lower global warming potential (GWP) but have a much higher price per unit volume. Therefore, it is desirable for reasons of cost, but in principle also for reasons of improved environmental protection, to reduce the amount of fluid used in the so-called condenser module or the amount of refrigerant in the condenser module used in the refrigeration cycle.

Presentation of the invention, Aufagbe, solution, advantages

It is therefore an object of the invention to provide a fluid collector and a condenser with such a fluid collector available, which allow a cost-effective and environmentally friendly operation.

The object of the invention fluid collector is achieved with the features of claim 1.

An embodiment of the invention relates to a fluid collector for a fluid, in particular for a refrigerant of an air conditioner, comprising a collecting container having an inlet opening and an outlet opening, which ensure the inflow and outflow of a fluid into the collecting container or from the collecting container, as well as with a a drying agent filled dryer container and with a filter, wherein the collecting container has a total free volume and the desiccant-filled dryer container and the filter have a dryer / filter volume, wherein a free volume for the fluid is substantially the total free volume minus the dryer / filter volume, wherein the free volume for the fluid is 50% or less than 50% of the total free volume.

Advantageously, by increasing the dryer / filter volume, the free volume for the fluid and the amount of fluid in the reservoir, in particular the amount of the refrigerant in the reservoir can be reduced, without thereby reducing the reservoir must be reduced. The resulting savings in the amount of refrigerant leads at the same pressure ratios to a cost reduction in the filling and operation of the capacitor, without causing the outer design and / or the outer dimensions of the condenser is changed with fluid collector.

In a particularly advantageous embodiment, at least one displacement body is arranged in the collecting container, which reduces the volume available for the fluid. In the case of a substantially vertical arrangement of the collecting container, the displacement body can be arranged above and / or below the drying container. It is advantageous if the displacement body is arranged above the dryer, so that the savings effect of the displacement body only occurs from a certain minimum filling.

The displacement body may for example be made of a plastic and in particular be made by injection molding. The displacement body may be solid or formed as a hollow body. Through the hollow training thereby weight and material is saved again. Thereby, a cost-effective displacement body is provided, which is suitable, the volume for the fluid through Reduce displacement and to effect a reduction in the volume of fluid or refrigerant with corresponding cost savings.

In a further advantageous embodiment, the displacement body is connected to the dryer container and extends the dryer container axially. By combining the displacement body with the dryer container, the reduction of the volume for the fluid as well as the quantity savings in the fluid or refrigerant can advantageously be achieved with a one-piece element. The onset of the displacement body as an additional component in the collecting container and the corresponding step in the production omitted in this case advantageous.

In a further advantageous embodiment, the displacement body has holding means, by means of which the displacement body can be positioned in the collecting container. This ensures that the displacement body, in particular in case of vibration or tilting of the collecting container, does not abut against an inner wall of the collecting container and / or against the drying container or the filter and causes damage and / or acoustic interference.

It is also expedient to design the holding means preferably in the form of radially extending surface structures, which are supported on the inner wall of the collecting container. As a result, a particularly secure positioning and centering of the displacement body in the collecting container are ensured.

In a further embodiment, the surface structures extending radially on the displacement body are designed as ribs which extend along the displacement body. In this case, the ribs preferably extend in the longitudinal direction and / or in the Circumferential direction of the displacement body. The secure positioning of the displacement body in the collecting container is thereby improved.

In a further expedient embodiment variant of the invention, a dividing wall is used in the collecting container, which bears sealingly on the inner wall of the collecting container, so that a part of the total volume of the collecting container is separated and therefore substantially no longer accessible to the fluid. The free volume for the fluid is reduced by the separation of a portion of the total free volume through the partition wall, whereby a quantity saving in the fluid or in the refrigerant and a corresponding cost savings are achieved.

In another advantageous embodiment, the displacement body carries the partition and / or is connected to the partition wall. The introduction of the partition by a separate manufacturing step is thus saved. In another advantageous embodiment, the dryer container is a flexible bag. As a result, the dryer container, for example, made of nonwoven material can be inexpensively and easily inserted into the sump. In particular, the flexible bag also acts as a suitable means to reduce the volume for the fluid.

In a further embodiment variant, the dryer container is a tubular body which has at least one cage-like wall region. Advantageously, a particular columnar spacer is arranged in a supplementary embodiment in the collecting container in a vertical arrangement above the tubular shaped dryer container.

The object of the capacitor is achieved with the features of claim 12.

Further advantageous embodiments are described by the following description of the figures and by the subclaims.

Brief description of the drawings

Fig. 1

einen Schnitt durch einen Fluidsammler eines Kondensators,

Fig. 2

eine perspektivische Ansicht eines Ausführungsbeispiels eines Verdrängungskörpers,

Fig. 3

einen Horizontalschnitt durch den Verdrängungskörper gemäß Figur 2,

Fig. 4

eine perspektivische Ansicht eines Ausführungsbeispiels eines Abstandshalters,

Fig. 5

einen Schnitt durch einen Fluidsammler mit Sammelbehälter mit einem Trocknerbehältnis, einem Abstandshalter und einer Trennwand,

Fig. 6

eine perspektivische Ansicht eines Teilschnitts eines Sammelbehälters mit einer darin angeordneten Trennwand,

Fig. 7

eine perspektivische Ansicht der Trennwand nach Figur 6,

Fig. 8

eine weitere perspektivische Ansicht eines Schnitts des oberen Teils eines Sammelbehälters mit einem Abstandshalter und einer Trennwand, und

Fig. 9

eine schematische Ansicht eines Kondensators mit Fluidsammler für einen Kältemittelkreislauf.

The invention will be explained in more detail on the basis of at least one embodiment with reference to the figures of the drawing. Show it:

Fig. 1

a section through a fluid collector of a capacitor,

Fig. 2

a perspective view of an embodiment of a displacement body,

Fig. 3

a horizontal section through the displacement body according to FIG. 2 .

Fig. 4

a perspective view of an embodiment of a spacer,

Fig. 5

a section through a fluid collector with collecting container with a dryer container, a spacer and a partition,

Fig. 6

a perspective view of a partial section of a collecting container with a partition wall disposed therein,

Fig. 7

a perspective view of the partition after FIG. 6 .

Fig. 8

a further perspective view of a section of the upper part of a collecting container with a spacer and a partition, and

Fig. 9

a schematic view of a condenser with fluid collector for a refrigerant circuit.

Preferred embodiment of the invention

The FIG. 1 shows a perspective view of a section through a fluid collector 1 with a collecting container 3, wherein the fluid collector 1 is formed by way of example with a condenser 17 shown only partially illustrated.

The collecting container 3 is tubular and has a lower closure 22 and an upper closure 22. The lower closure 22 is formed as a removable plug, while the upper closure is formed as a soldered lid. The closures 22 can also be formed alternatively.

In the collecting container 3, a filter 8 is arranged at the level of the two openings 4, 5, which serve as an inflow 5 and 4 as an outflow. In this case, a seal is usually arranged between the two openings 4, 5, so that the filter 8 can not be flowed around.

Furthermore, a drying container 7, for example in the form of a flexible bag 23, is provided in the collecting container 3. This dryer container 7 is designed as a kind of bag made of nonwoven material and has, for example, a rather elongated contour.

According to the invention, a displacement body 13 positioned above the drying container 7 in a vertical arrangement is provided in the collecting container 3. This reduces the space provided for the fluid 2 free volume.

In operation, a fluid 2 is filled or flows into and into the collection container 3. A certain volume of the fluid 2 is temporarily stored in the collecting container 3. In this case, the fluid 2 is preferably also filtered and dried.

The condenser 17 has a collecting tube 21 arranged adjacent to the collecting container 3 and a tube-fin block 18 with tubes 19 and ribs 20 only partially shown.

The collecting container 3 and the collecting tube 21 are arranged in this embodiment substantially parallel to each other and the collecting container 3 has a hollow cylindrical tubular shape with an inner wall 15. In this case, on or in the interior of the collecting container 3, a closure 22, a filter 8, an exemplary dryer container 7 in the form of a flexible bag 23 and a displacement body 13 are arranged vertically one above the other. However, an alternative sequence may also be provided. The dryer container 7 contains in particular a drying agent 6.

The inner wall 15 of the collecting container 3 encloses a free total volume 9 of the collecting container 3.

The dryer container 7 filled in particular with a drying agent 6 and the filter 8 have a dryer / filter volume 10. The dryer / filter volume reduces the free volume available to the fluid as a proportion of the total volume.

The fluid 2 contained in the collecting container 3 fills a free volume 11 for the fluid 2 located in the collecting container 3.

The free volume 11 for the fluid 2 is reduced by the dryer / filter volume 10 and essentially corresponds to the total free volume 9 of the collection container 3 minus the dryer / filter volume 10.

The inner wall 15 of the collecting container 3 has an inlet opening 5 and an outlet opening 4. The inlet opening 5 serves to allow the fluid 2 to flow from the collecting tube 21 into the collecting container 3. The outlet opening 4 serves in accordance with the fact that the fluid 2 can flow from the collecting container 3 into the collecting pipe 21.

The dryer container 7 has a, for the fluid 2, permeable surface and is in particular filled with a drying agent 6, which consists for example of a powder or granules. The drying agent 6 is suitable for extracting moisture or water from the fluid 2. The filter 8 is particularly suitable for extracting from the fluid 2 particles which have been introduced there by abrasion, for example.

Conveniently, an unillustrated release agent is arranged in the collecting container 3 between the inlet opening 5 and the outlet opening 4, for example a sealing lip which is suitable for preventing a direct flow of the fluid 2 from the inlet opening 5 into the outlet opening 4 in the interior of the collecting container 3. This ensures that the fluid 2 is guided in a substantially meandering manner through the dryer container 7 or past it and through the filter 8 and dried or filtered prior to re-entry into the collecting tube 21.

The tube-fin block 18 has a plurality of parallel tubes 19, which are designed for example as flat tubes, extending straight and are each received in the collecting tube 21 with one of their ends. For this purpose, the tube-rib block 18 facing, for example, designed as slots openings in the manifold 21 are provided which receive these pipe ends. If necessary, the pipe ends can protrude slightly into the collecting pipe 21. The second, in FIG. 1 not shown ends of the tubes 19 of the tube fin block 18 are received accordingly by a second manifold 32, so that via the tubes 19 each have a flow connection between the manifold 21 and, also belonging to the tube-fin block 18, second manifold 32 is given.

The closure 22 can be releasably connected to the collecting container 3, for example by means of a screw connection, or not non-destructively detachable, for example by a solder connection.

In the in FIG. 1 illustrated embodiment, at least one displacement body 13 is received in the collecting container 3. The displacement body 13 is located in a vertical arrangement above the dryer container. 7

The displacement body 13 fills a portion of the total free volume 9 of the collecting container 3, in particular reducing the free volume 11 for the fluid 2. As a result, the collecting container 3, with a same total free volume 9 and a same dryer / filter volume 10 receive less fluid 2. Alternatively or additionally, a displacement body 13 may also be arranged below the dryer container 7. The displacement body is preferably hollow or solid.

In a further embodiment, the displacement body 13 is in a vertical arrangement in the free total volume 9 of the collecting container 3 below the dryer container. 7

An additional embodiment provides that at least two displacement bodies 13 are located in the free total volume 9 of the collecting container 3, of which at least one displacement body 13 is located above the drying container 7 in a vertical arrangement and at least one displacement body 13 is located below the drying container 7

The in the Figures 1 and 2 shown displacement body 13 has a cylindrical shape. Surface structures in the form of longitudinal ribs 24 extend from this cylindrical shape in the radial direction and in the longitudinal direction. Alternatively, otherwise formed surface structures may also be provided.

The surface structures 24 serve as holding means 14, which are supported on the inner wall 15 of the collecting container 3 and position the displacement body 13 in the collecting container 3 and center.

In other embodiments, the displacement body 13 may also have a substantially cuboid, conical, prismatic or spherical shape.

In additional embodiments, the at least one displacement body 13 may also have wing, pin, cone, mushroom or knob-shaped surface structures and circumferential beads, which are particularly suitable as a holding means 14 and for centering in the collecting container 3 and serve. The surface structures are advantageously made of the same material as the displacement body, in particular of plastic.

In a particularly advantageous embodiment, the surface structures 24 and the holding means 14 are formed of an elastic or non-elastic material.

The displacement body 13 may have, in addition to or instead of the radially arranged surface structures 24 and / or holding means 14 on its upper side and / or on its underside holding means. These holding means provided on its top and / or bottom may be elongated and thereby fulfill the function of a holding means and / or the function of a vertical spacer connected to the displacer 13.

To save material, the surface structures acting as vertical spacers may be narrower at their end connected to the displacement body 13 than at their free end.

The FIG. 2 shows a detailed perspective view of an exemplary displacement body 13 having a cylindrical shape and radially extending longitudinally rib-shaped surface structures 24. The ribs connected to the displacement body extending in the longitudinal direction and in the radial direction.

The displacement body 13 can for example be made of a cheap plastic, polystyrene foam or a foil-coated foam and solid or formed to save material and hollow.

The FIG. 3 shows the cross section through an exemplary displacement body 13 with a cylindrical configuration and as a holding means 14 serving surface structures.

The displacement body 13 may be hollow in its interior or may be filled with a material which is substantially the same or different from the material from which the shell of the displacement body 13 is made, for example a foam. FIG. 5 shows an embodiment in which the dryer container 7 is designed in the form of a cage-like sleeve as a dryer cartridge 26 made of metal or plastic. The diameter of the dryer cartridge 26 is smaller than the diameter of the collecting container 3, so that an annular gap is left between the two.

In the dryer cartridge 26, the drying agent 6, for example a zeolite or the like, contained in loose or pressed bed. The dryer cartridge 26 is permeable to the fluid. For this purpose, holes or fabric are provided.

In a supplementary embodiment, the dryer cartridge 26 has formed on its surface formed radial spacers 27. The radial spacers 27 are preferably made of a rigid or flexible material and widen the outer diameter of the dryer cartridge 26. As a result, the radial spacers 27 center the dryer cartridge 26 inside the collecting container 3 and act in particular as holding means.

In a further embodiment, in a vertical arrangement in the collecting container 3 above and / or below the dryer cartridge 26 is a vertical spacer 25 which is formed as a narrow column. The vertical spacer 25 may be integrally formed with or connected to the dryer cartridge 26.

In a further embodiment, the vertical spacer 25 and the dryer cartridge 26 are each formed in one piece and not connected to each other.

In additional embodiments, the vertical spacer 25 and the dryer cartridge 26 are each formed in one piece and are in one subsequent step, for example, connected by means of a plug or screw connection.

FIG. 4 shows an embodiment of a vertical spacer 25 in the form of a column with radially arranged wing-shaped holding means 29 and radially on the vertical spacer 25 extending recesses 30 which are formed approximately groove-like. The wing-shaped holding means 29 are supported on the inner wall 15 of the collecting container 3 and center the vertical spacer 25 in the collecting container. 3

In further embodiments, the vertical spacer 25 may also have pin-shaped, conical, mushroom-shaped or knob-shaped surface structures as well as circumferential beads, which are suitable in particular as holding means and for its centering.

In a particularly advantageous embodiment, the surface structures formed on the vertical spacer 25 are formed of a rigid or an elastic material.

In a supplementary embodiment, the vertical spacer 25 is formed as a plane elongated strip or has the shape of a longitudinal body with a cross-shaped or star-shaped cross-section.

In a particularly advantageous embodiment, the collecting container 3 contains a dryer cartridge 26 and at least one displacement body 13 and / or at least one vertical spacer 25.

In a further embodiment, the collecting container 3 contains a dryer container 7 in the form of a flexible pocket 23 and at least one displacement body 13 and / or at least one vertical spacer 25.

In a supplementary embodiment, the collecting container 3 contains a dryer container 7 in the form of a flexible bag 23 and at least one vertical spacer 25.

In the Figures 5 . 6, 7 and 8 a vertical spacer 25 is shown in the form of a longitudinal body with a cross-shaped cross-section, wherein the vertical spacer 25 at its lower end a connecting piece 28 for connection to a dryer container 7, in particular a dryer cartridge 26, and at its upper end a partition wall 16 has.

In a particular embodiment, the dividing wall 16 has a diameter which forms a sealing interference fit with the inner wall 15 of the collecting container 3. As a result, this spacer structure can be used to separate a volume part 31 from the free total volume 9 of the collecting container 3 and a volume part 31 from the free volume 11 for the fluid 2 above the dryer container 7. In this case, the separated volume part 31 for the fluid 2 is substantially inaccessible.

In a further embodiment, the partition wall 16 and the vertical spacer 25 are each integrally formed, wherein the partition wall 16 is located vertically above the dryer container 7 and the partition 16 a volume portion 31 of the total free volume 9 of the collecting container 3 and a volume portion 31 of the free Volume 11 for the fluid 2 sealingly separates and makes this volume part 31 is substantially inaccessible to the fluid 2.

In an advantageous embodiment, the partition wall 16 has a conical or pyramidal attachment 12, by the insertion of the Partition 16 and / or connected to the partition 16 vertical spacer 25 is facilitated.

Preferably, the partition wall 16 at its edge on a sealing ring or a circumferential sealing lip, by means of which the sealing effect of the formed by the partition wall 16 and the inner wall 15 of the collecting container 3 press fit is further improved.

In an additional embodiment, the partition wall 16 is formed integrally with the inner wall 15 of the collecting container 3.

In a further embodiment, the dividing wall 16 is supported by a vertical spacer 25, which is located above a flexible in the form of a flexible bag 23 designed dryer 7 in a vertical arrangement.

Claims (12)

Fluid collector (1) for a fluid (2), in particular for a refrigerant of an air conditioner, comprising a collecting container (3) with an inlet opening (5) and an outlet opening (4), which permits the inflow and outflow of the fluid into the collecting container (3 ) or from the collecting container (3), and with a drying container (6) filled with a dryer container (7) and with a filter (8), wherein the collecting container (3) has a free total volume (9) and with desiccant (6) filled dryer container (7) and the filter (8) have a dryer / filter volume (10), wherein a free volume (11) for the fluid (2) substantially the total free volume (9) minus the dryer / Filter volume (10), characterized in that the free volume (11) for the fluid (2) is 50% or less than 50% of the total free volume (9). Fluid collector (1) according to claim 1, characterized in that in the collecting container (3) at least one displacement body (13) is arranged, which reduces the free volume (11) for the fluid (2). Fluid collector (1) according to claim 1 or 2, characterized in that in the collecting container (3) inserted at least one displacement body (13) in a substantially vertical arrangement of the collecting container (3), above and / or below the dryer container (7 ) is located. Fluid collector (1) according to one of the preceding claims, characterized in that the at least one displacement body (13) inserted into the collecting container (3) is connected to the dryer container (7) and axially extends the dryer container (7). Fluid collector (1) according to one of the preceding claims 2 to 4, characterized in that the displacement body (13) holding means (14), by means of which the displacement body (13) in the collecting container (3) is positioned. Fluid collector (1) according to claim 5, characterized in that the holding means (14) are radially extending surface structures, which are supported on an inner wall (15) of the collecting container (3). Fluid collector (1) according to claim 6, characterized in that the radially extending surface structures are formed as ribs which extend along the displacement body. Fluid collector (1) according to one of the preceding claims, characterized in that in the collecting container (3) a partition wall (16) is inserted, which sealingly against the inner wall (15) of the collecting container (3) applies, so that a part of the free Total volume (9) is separated by the partition wall (16) and therefore substantially no longer accessible to the fluid (2). Fluid collector (1) according to one of the preceding claims, characterized in that the dividing wall (16) is carried by the displacement body (13) or connected thereto. Fluid collector (1) according to one of the preceding claims, characterized in that the dryer container (7) is a flexible bag. Fluid collector (1) according to one of the preceding claims, characterized in that the dryer container (7) is a tubular body having at least one cage-like wall portion. Condenser (17) for a refrigerant circuit, in particular for a motor vehicle, with a tube-fin block (18) with tubes (19) and ribs (20), and with at least one laterally of the tube-rib block arranged collecting tube (21), with the Tubing (19) of the tube-fin block (18) is fluidly connected, wherein a fluid collector (1) with the at least one collecting tube (21) is fluidly connected, wherein the fluid collector (1) is a fluid collector (1) according to at least one of the preceding claims ,

Images