EP1813902A1 - Heat exchanger and fixing element. Process for making a heat exchanger and a fixing element - Google Patents

Abstract

The system comprises a heat exchanger with a collecting tube (51). The collecting tube has a cathedral (55) and a fastening part (50) for fastening the heat exchanger. The fastening part comprises a resting unit (56), where the cathedral is engaged in sections in the fastening part. A condenser of an air conditioner is provided. The fastening part has an opening (59) and another cathedral (58) of the collecting tube is inserted in sections. The former cathedral is engaged in a recess (57) of the resting unit. Independent claims are also included for the following: (1) a fastening part for heat exchanger system (2) a method for producing heat exchanger system (3) a method for producing a fastening part.

Description

The invention relates to a heat exchanger system with at least one heat exchanger and to a method for producing a heat exchanger system. Furthermore, the invention relates to a fastening element and to a method for producing a fastening element.

Heat exchangers, in particular capacitors, are generally mounted in the engine compartment of a motor vehicle. For this purpose, the capacitors on fastening elements, which may be integral with the heat exchanger, in particular the capacitor, or may be connected to the heat exchanger, in particular the capacitor, materially, in particular by soldering, welding, gluing, etc.

A heat exchanger, in particular a condenser, usually has a number of fastening elements. These fasteners are initially attached to headers of the heat exchanger, in particular the condenser, initially provisionally. During the subsequent connection, in particular cohesive bonding by soldering, welding, gluing, etc., the fasteners are fixed, in particular cohesively, connected to the at least one collecting tube.

From the DE 602 00 574 T2 For example, there is known a method of attaching components to a fluid circulation tube, the tube forming part of a heat exchanger, in particular a condenser of an air conditioner, the method including at least one step of preliminarily connecting at least one component to the tube from an anchoring process to obtain a final connection of the component to the pipe, characterized by forming passageways in the pipe and the component, inserting a rivet into the passageways, and performing a preliminary connection of the component to the pipe by riveting and providing a fluid tight seal Sealing between the component, the pipe and the rivet, in which surface material is melted during the anchoring process.

From the DE 602 00 574 T2 Furthermore, a heat exchanger, in particular a condenser of an air conditioner is known, comprising at least one tube for the circulation of a pressurized fluid, and at least one component which is rigidly connected to the tube, characterized in that the component and the tube having respective through openings aligned with each other for accommodating at least a portion of a rivet which mechanically joins the component to the pipe, and in that sealing means are provided to seal the component, pipe and rivet together, and fluid leaking therethrough in the direction of the passage defined in the tube, the sealing means being formed by molten material present on the outer surface of the tube and / or the component.

Furthermore, from the DE 103 32 999 A1 a brazed condenser for an automotive air conditioning system with a network consisting of pipes with pipe ends and ribs and arranged on both sides of the network collecting pipes, which receive the pipe ends and positively and cohesively fastened holding elements for supporting or suspending the capacitor, wherein the holding elements are additionally formed as a holder for a refrigerant line of the capacitor. The holding elements are formed as a sheet metal part with a U-profile, which has a central web and two lateral legs. In the region of the web, a fastening opening in the form of a window is arranged. The legs have a recess which has an approximately semicircular profile on. The holder has a mounting opening in the form of a window. The window is used to attach the capacitor in the motor vehicle, not shown, for example on a coolant radiator, also not shown in the engine compartment of the motor vehicle.

Furthermore, from the still unpublished EP 05025086.9 the Applicant a method and an apparatus for fixing superimposed or adjoining fixing sections of at least two parts, in particular sheet metal parts, relative to each other, wherein the fixing are deformed by a stamp known.

In the still unpublished EP 05025086.9 The applicant is a collecting box disclosed having a lid which, like a bottom, also has the shape of a semicircular cylinder jacket. The bottom and lid are made of aluminum and are soldered together. On the lid, a holder is fixed, which is also formed of aluminum sheet. The holder has a foot which has substantially the shape of a circular-cylindrical portion and forms a fixing portion which abuts against an associated fixing portion of the lid. At the fixing portions of the holder 10 is fixed to the collection box before soldering. From the foot of the holder extends a connecting web in the radial direction, from which a fastening tab with a through hole emanates. The through hole serves to pass through a fastening means, such as a screw, by means of which the collecting box 1 can be fastened to a supporting structure of a motor vehicle.

To fix the holder before soldering the foot with the lid to the lid, the foot is caulked at two attachment points with the lid.

It is an object of the present invention to improve a heat exchanger system or a fastening element.

The object is solved by the features of claim 1.

It is proposed a heat exchanger system with at least one heat exchanger, which has at least one collecting tube with at least a first dome, with at least one fastening element for fastening the heat exchanger, wherein the fastening element has at least one locking element, in which the first dome is at least partially latched.
The heat exchanger may in particular be a condenser and / or a coolant radiator and / or a charge air cooler and / or an oil cooler and / or an exhaust gas cooler and / or a gas cooler for an air conditioning system.
The heat exchanger system has at least one collecting pipe, in particular two collecting pipes. The collecting tube has at least one first dome, in particular one, two, three, etc. domes. In particular, the collecting tube can have at least one collector tube cover which has the at least one first dome, in particular a number of first dome. Furthermore, the heat exchanger system has at least one fastening element, in particular a number of one, two, three, four, etc. fastening elements. The fastening elements can be used in particular for fastening the heat exchanger in the engine compartment of a motor vehicle and / or for fastening the heat exchanger to another heat exchanger and / or a heat exchanger module. The fastening element, in particular the number of fastening elements, has at least one latching element. In particular, the fastening element may have two or more than two locking elements. The first dome of the manifold, in particular of the manifold cover is at least partially latched into the latching element or snaps into the latching element or is engaged in the latching element. In particular, the fastening element can at least a number of latching elements, in particular two or more latching elements, in which in each case a first dome, in particular of the collecting tube or the collecting tube cover, can be latched or latched or latched.
Under dome is a bulge, knob, expression, etc. to understand the bulge, knob, expression, etc. may be a hollow body or a solid body. The bulge can be made of a material such as metal or plastic in one piece, for example by Ur- and / or forming or be. Likewise, the dome, in particular the bulge, knob, expression, positively and / or materially connected to this particular by welding, soldering, gluing, etc., or be connected.

In an advantageous embodiment, the at least one heat exchanger is a condenser of an air conditioning system.

In an advantageous embodiment, the fastening element has at least one opening, into which at least a second dome of the collecting tube is at least partially insertable. Particularly advantageously, the position of the fastener is defined at the manifold by the second dome to which the fastener is particularly advantageous pushed or pushed with its opening or can be postponed.

In a further advantageous embodiment, the at least one latching element has at least one recess into which, in particular, the at least one first dome can be latched. The fastening element is thereby advantageously preassembled on the collecting tube via the latching element.

In a further embodiment, the at least one latching element has at least one cylinder section surface. Particularly advantageously, the latching element can thereby contact, at least in sections, a corresponding cylindrical section surface of the collecting tube, in particular of the collecting tube cover.

In an advantageous embodiment, the cylinder section surface is solder-plated. In this way, the fastener is particularly advantageous with the manifold, in particular with the manifold cover, cohesively, in particular soldered.

In an advantageous embodiment, the cylinder section surface touches at least one collecting tube cover at least in sections and in particular can be adhesively connected to it. Particularly advantageously, the fastener to the header tube cohesively, in particular by soldering, welding, gluing, etc., connectable or connected.

In an advantageous embodiment, the at least one collecting tube cover has the at least one first dome and / or the at least one second dome. The first dome and / or the second dome are particularly advantageous in the collecting tube cover, for example by a transforming production method such as stamping, punching, bending etc., introduced or introduced.

In a further advantageous embodiment, the at least one latching element is at least partially formed as a ring segment.

In an advantageous development, the at least one latching element has at least one Ausformschräge. Particularly advantageously, the locking element in this way, in particular by a transforming manufacturing process such as bending, punching, embossing, etc., produced.

In an advantageous development, the at least one fastening element has at least two latching elements and / or at least two openings.

In an advantageous embodiment, the at least one collecting tube has at least two first domes and / or at least two second domes.

In an advantageous development, the fastening element has at least one tongue element. Particularly advantageous is the fastener in the engine compartment of a vehicle and / or on another heat exchanger or on another heat exchanger module fastened.

In an advantageous embodiment, the tongue element has at least one tongue opening. By the tongue opening a further fastening element, in particular for example a screw, can be pushed through particularly advantageously, wherein the fastening element can be fastened in the vehicle interior of a vehicle and / or on another heat exchanger or on another heat exchanger module.

In an advantageous development, the fastening element is at least partially formed as a pipe segment, which in particular has the at least one opening. Particularly advantageously, the fastening element is thereby connectable to at least one collecting container, in particular to a collecting container lid.

Furthermore, a fastening element with at least one opening and at least one latching element, which has at least one recess for receiving at least a first dome, is proposed, wherein the latching element has at least one cylinder section surface. The fastening element has an opening, in particular a number of two or more openings, which may be formed as bores. Furthermore, the fastening element has at least one latching element, in particular a number of two or more than two latching elements, which have at least one recess, in particular in each case a recess. The latching element, in particular the two or more than two latching elements, have at least one cylinder section surface, in particular in each case one cylinder section surface.

In an advantageous development, the cylinder section surface is solder-plated. In this way, the fastener is particularly advantageous cohesively with a collecting tube, in particular by soldering, welding, gluing, etc., with a collecting container, in particular with a sump lid, connectable.

In an advantageous embodiment, the at least one locking element is at least partially formed as a ring segment. In this way, the fastening element is particularly advantageous with a collecting container, in particular with a collecting container lid, connectable.

In an advantageous embodiment, the at least one latching element has at least one Ausformschräge. In this way, the fastener is particularly advantageous by a forming manufacturing process, in particular bending, stamping, punching, etc., produced,

In an advantageous embodiment, the fastening element has at least two latching elements and / or at least two openings.

In an advantageous development, the fastening element has at least one tongue element. In this way, the fastening element can be fastened particularly advantageously in the engine compartment of a vehicle and / or on another heat exchanger or on a heat exchanger module

In an advantageous embodiment, the tongue element has at least one tongue opening. In this way, by the tongue opening another fastener, in particular a screw, particularly advantageous in the tongue element can be inserted, whereby the fastener is particularly advantageous fastened in the engine compartment of a vehicle and / or on another heat exchanger or on a heat exchanger module.

In an advantageous embodiment, the fastening element is at least partially formed as a pipe segment, which in particular has at least one opening. In this way, the fastening element is particularly advantageous with a corresponding manifold surface, in particular with a corresponding manifold cover surface, connectable.

Furthermore, a method for producing a heat exchanger system is proposed, wherein the fastener by a forming manufacturing process, in particular by bending, stamping, embossing, etc., produced becomes. Particularly advantageous is the heat exchanger system, in particular the fastener, easy to produce.

Furthermore, a method for producing a heat exchanger system is proposed, wherein the fastening element is produced by an original molding process, in particular by casting, injection molding, lamination, etc. In this way, the heat exchanger system, in particular the fastening element, particularly advantageous and easy to produce.

Furthermore, a method for producing a fastener is proposed, wherein the fastener by a forming manufacturing process, in particular by bending, stamping, embossing, etc., is produced. In this way, the fastener is particularly inexpensive and easy to produce.

Furthermore, a method for producing a fastener is proposed, wherein the fastener is produced by a primitive manufacturing process, in particular by casting, injection molding, lamination, etc. In this way, the fastener is particularly advantageous easily and inexpensively.

Further advantageous embodiments of the invention will become apparent from the dependent claims and from the drawing.

Figur 1:

ein Wärmetauschersystem mit zwei Sammelrohren und einem Sammelbehälter,

Figur 2 :

eine isometrische Darstellung eines Befestigungselements, das an einem Sammelrohr befestigt ist,

Figur 3:

eine isometrische Detaildarstellung A eines Rastelements eines Befestigungselements, in das ein erster Dom eines Sammelbehälterdeckels eingerastet ist und

Figur 4:

eine andere isometrische Darstellung eines Befestigungselements, das an einem Sammelrohr befestigt ist.

Embodiments of the invention are illustrated in the drawings and will be explained in more detail below. Show it

FIG. 1:

a heat exchanger system with two headers and a sump,

FIG. 2:

an isometric view of a fastener which is attached to a manifold,

FIG. 3:

an isometric detail A of a locking element of a fastener, in which a first dome of a sump lid is engaged and

FIG. 4:

another isometric view of a fastener which is attached to a manifold.

FIG. 1 shows a heat exchanger system 1 with two header pipes 3, 4 and a collecting tank 17.

The collection container 17 is integrally executable with any other heat exchanger. The condenser 1 comprises, in addition to a first manifold 3, a second manifold 4. The two manifolds are arranged substantially parallel to each other. Between the headers a finned tube block 2 is formed. The finned tube block 2 comprises a number of refrigerant lines 11, which are formed as flat tubes or as round tubes. The refrigerant lines 11 are substantially parallel to each other and are arranged perpendicular to the first manifold 3 and to the second manifold 4. Between adjacent refrigerant lines 11 is a distance space 29, are introduced in the ribs 28, in particular corrugated fins between the adjacent refrigerant lines. These may be materially connected to the refrigerant lines 11, whereby a better heat transfer between a first refrigerant 30 and a second cooling medium 31 takes place.

In this case, the first cooling medium 30 flows through the refrigerant lines 11. The second cooling medium 31 flows through the clearance space 29 substantially perpendicular to the finned tube block surface 32 and substantially perpendicular to the refrigerant lines 11.

The first manifold 3 and / or the second manifold 4 are substantially cylindrical and in particular formed with a round cross-section. In a further embodiment, not shown, the first manifold and / or the second manifold with a rectangular cross-section educated. The first collecting pipe 3 and / or the second collecting pipe 4 have a collecting pipe inlet opening 6, through which the first cooling medium 30 flows into the first collecting pipe 3 and / or into the second collecting pipe. The first manifold 3 is closed at an upper first manifold opening 33 with a manifold cover 9, wherein the manifold cover 9 is materially connected to the first manifold 3, in particular by soldering, welding, gluing, etc., connected.

Perpendicular to the axial pipe direction, a number of tube plates 5 are introduced at different distances from one another in the first header 3 and / or in the second header 4, whereby the first header 3 and / or the second header 4 is divided into different header tubes 37. In this case, the tube plates 5 are materially bonded, in particular by soldering, welding, gluing, etc., to the first collection tube 3 and / or to the second collection tube 4, so that adjacent collection tube spaces 37 are sealed from each other. The first manifold 3 and / or the second manifold 4 are provided on the side facing the finned tube block 2 with a number of Sammelrohrdurchstecköffnungen 24, through which the refrigerant lines 11 through into the first manifold 3 and / or the second manifold 4 substantially perpendicular to the manifold wall 38 are inserted and connected to this cohesively. The second manifold 4 is formed substantially like the first manifold 3. It has an upper second header opening 35, which is closed with a manifold cover 9 and the second manifold 4 cohesively, in particular by soldering, welding, gluing, etc. is connected. The lower second header opening 36 is sealed by a tube sheet 5. In the lower portion of the second manifold 4 there is an inlet opening 20 of the collecting container 17, in particular of the first collecting container part 18. Likewise, the lower portion of the second collecting tube 4 has an outlet opening 21.

The collecting container part 17 is in particular constructed in several parts and comprises a first collecting container part 18 and a second collecting container part 19. The second collecting tube 4 and the first collecting container part 18 touched in a Berührabschnitt 29 and are cohesively in this area connected. In the upper portion of the first header tank part 18, the second header tank part 19, in particular concentrically inserted into the first header tank part 18. In the region of a connecting portion 23, the outside of the second collecting container part 19 touches the inside of the first collecting container part 18. The collecting container part 18 has an upper opening 40. The first header tank part 18 has a lower opening 41. The first cooling medium 30 enters the first collecting pipe 3 via the collecting pipe inlet opening 6 and is distributed in a collecting tube space 37 delimited by tube plates 5. Via refrigerant line inlets 15, it enters the refrigerant lines 11 and flows through them as far as the refrigerant line outlets 16, the cooled cooling medium then enters the second manifold 4, flows through this in a region of a header pipe 37 and refrigerant line entries 15 enters other refrigerant lines 11, flows through them and re-enters other refrigerant line outlets 16 in the first manifold 3, this flows through in another header space 37, via further refrigerant line entries 15 enters further refrigerant lines 11, flows through them, enters further refrigerant line outlets 16 into the second collection tube 4 and initially enters the first collecting container via the inlet opening 20 18 then further flows into the second header tank part 19. In this case, a filter unit and / or a dryer unit and / or a structural unit, which contains the filter unit and the dryer unit, flows through, wherein the filter unit, the dryer unit or the assembly in the first header tank part 18 and in the second header 19 are introduced. After flowing through the filter and / or the dryer and / or the unit leaves the first refrigerant via the outlet opening 21, the first header tank part 18 and enters the second manifold 4 a. By means of further refrigerant line inlets 15, the first cooling medium 30 enters into further refrigerant lines 11 of a subcooling region 14, flows through them and enters the first collecting pipe 3 via further refrigerant line outlets 16 and leaves via a collecting pipe outlet opening of the first collecting pipe 3.

Figure 2 shows an isometric view of a fastener 50 which is attached to a manifold 51.

The manifold 51 is shown in the illustrated embodiment as a round tube with an opening not further described. In another embodiment, the manifold 51 may have an oval, a rectangular, in particular square cross section, a rounded corner section, a polygonal cross section or a cross section of the combination of the aforementioned shapes.

From the collecting tube 51, in particular from the collecting tube cover 52, two first dome 55 and two second dome 58 are formed in the illustrated embodiment. The first dome 55 and / or the second dome 58, for example, by means of a forming manufacturing process in the manifold 51, in particular in the manifold cover 52, by embossing, punching, pressing, etc. introduced.

A manifold cover 52 closes the manifold 51. In the illustrated embodiment, the manifold cover 52 is formed as a pipe segment. In another embodiment, the manifold cover may be formed as a plate or as a portion of a polygonal shape.

The fastening element 50 has a pipe segment 61. From the pipe segment 61, a tongue element 53 and two locking elements 56 are formed in particular by a forming manufacturing process, such as bending, embossing, punching, molding, etc.
The tongue element has a tongue opening 54. The tongue opening 54 is formed in the illustrated embodiment as a slot.
In another embodiment, the tongue opening 54 may be formed as a round bore.
In another embodiment, the tongue opening 54 may be formed as a rectangular, in particular square, or as a polygonal opening.

The tongue opening 54 can be introduced into the tongue element 53 in a particularly advantageous manner by punching or embossing. The tongue opening 54 but can also be introduced by a removing manufacturing process, in particular by drilling or milling in the tongue member 53.

In the embodiment shown, the tongue element 53 has essentially five bending edges 67. In a view in the direction of a collecting pipe running direction SVR, which in particular corresponds to the longitudinal direction of the collecting pipe 52, the tongue element 53 is designed substantially as a question mark, ie the side view of the tongue element in the direction of the collecting pipe running direction SVR essentially has the shape of a question mark.
In another embodiment, not shown, the tongue member 53 may have another shape such as a U-shape, a V-shape, a substantially rectangular shape, or a shape of the combination of the aforementioned shapes.

From the pipe segment 61, two locking element 56 are formed. In another exemplary embodiment, only one latching element 56 or more than two latching elements 56 can be formed from the tube segment 61.
The latching element 56 essentially has the shape of a ring segment 60. In particular, however, the ring segment has Ausformschrägen 63. Furthermore, the latching element 56 in each case has a recess 57. The recess 57 is formed substantially as a cylindrical portion and has an unspecified cylinder jacket portion surface

In the attached to the manifold, in particular attached to the manifold cover 52, state each touches a first dome 55, the unspecified cylinder jacket portion surface of the recess 57 at least in sections.

Furthermore, the latching element 56 has a cylindrical section surface 62, which essentially corresponds at least in sections to a section of the collecting tube 51, in particular the collecting tube cover 52, which is not described in more detail. This cylinder section surface 62 is solder-plated, ie, a solder layer is applied to the cylinder section surface. The solder layer is in particular during the original manufacturing or in a forming the material, in particular the sheet of aluminum or of another metal of low density, applied to the cylinder portion surface 62.

The pipe segment 61 has a pipe segment cylinder jacket surface which is not visible in FIG. 2 and which is also solder-plated. In this way, in a cohesive bonding process, in particular in a soldering process, the fastening element with the manifold 51, in particular with the manifold cover 52, materially, in particular by soldering, are connected. The non-visible cylinder jacket section surface of the tube segment 61 corresponds essentially in the assembled state, at least in sections, to the collector tube 51 or, respectively, to a collector tube cover surface of the collector tube cover 52.

In the illustrated embodiment, the fastener 50 and the pipe segment 61 has two openings 59. The openings 59 are formed in the illustrated embodiment as holes with a phase not designated. In another embodiment, more than two openings 59 or only one opening 59 may be incorporated in the tube segment 61. Furthermore, in another embodiment, the opening 59 may have no phase or be oval or formed as a slot or as a substantially rectangular or polygonal opening.

The manifold 51 and / or manifold cover 52 are formed of a low density material such as a metal such as aluminum. In another embodiment, the manifold 51 and the manifold cover 52 may be formed of plastic.

The fastener 50 is formed in the illustrated embodiment of a low-density material, such as a metal of low density such as aluminum. In another embodiment, the fastener 50 may be formed of sheet steel or of a plastic, for example, a thermoset or a polymer. In the illustrated embodiment, the fastener 50 and the manifold 51 and / or the manifold cover 52 formed in several parts. In another embodiment, the fastener 50 and / or the manifold 51 and / or the header cover 52 are integrally formed.

The fastener 50 is formed by a transforming manufacturing process such as bending, stamping, stamping, pressing, etc., in particular, from a metal sheet. In particular, an undeformed sheet, which is formed substantially as a flat surface, formed into a tube segment 61, in particular bent.

Furthermore, the tongue element 53 is produced from the sheet metal by pressing or punching in such a way that as little waste as possible remains. The tongue element 53 has a tongue element side surface 69. The latching element 56 has a latching element side surface 68. Before the tongue element 53 is produced by embossing or pressing or punching from an undeformed metal sheet, the detent element side surface 68 and the tongue element side surface 69 correspond at least in sections and touch each other at least in sections.

The locking element side surface 68 and the tongue element side surface 69 are at least partially in the unspecified cutting plane, which is formed during forming or in a separation of the material, which at least in sections after locking and / or forming the latching element 56 and sections the tongue element 53 will form ,

To simplify the manufacturing process, a latching element 56 on the latching element side surface 68 has, at least in sections, a shaping bevel 63. In another embodiment, the tongue element 53 on the tongue element side surface 69, at least in sections, the slope corresponding to the Ausformschräge 63.

The fastener 50 is preassembled on the manifold 51 of a heat exchanger, not shown, in particular capacitor, or on the manifold cover 52, in which the openings 59 in each case one second dome 58 are plugged and the locking elements, in the illustrated embodiment, the two locking elements are so pressed onto a respective first dome 55, that the respective first dome 55 engage in the respective recess 57 of the respective locking element 56.
In another embodiment, the first dome 55 are first engaged in the respective recess 57 of the respective latching element 56 and then the openings 59 are pressed onto the second dome 58 and pushed onto it. In this way, the fastening element 50 is positively connected to the manifold 51 and with the manifold cover 52. Subsequently, the so pre-assembled heat exchanger not shown in a soldering furnace is materially connected or in particular soldered. The collecting tube 51 or the collecting tube cover 52 is solder-plated at least in sections. During the soldering process, the fastening element 50 is connected in a material-bonded manner to the collecting tube 51 or the collecting tube cover 52.

In another embodiment, only the manifold 51 and the manifold cover 52 is at least partially solder plated and the fastener 50 is not solder plated.

In a further exemplary embodiment, the fastening element 50, in particular the cylinder section surface 61, is solder-plated at least in sections, and the collecting tube 51 or the collecting tube cover 52 is not solder-plated.

FIG. 3 shows a detailed representation A of a latching element 56 of a fastening element 50 into which a first dome 55 of a collecting container cover 52 is inserted. Identical features are provided with the same reference numerals as in the previous figures.

The locking element 56 is here shown enlarged. It has a shaping angle 66. The shaping angle 66 takes values between 0 ° and 60 °, in particular between 0 ° and 45 °, in particular between 0 ° and 30 °, in particular between 0 ° and 25 °, in particular between 0 ° and 15 °, in particular between 0 ° and 5 °, in particular between 0 ° and 3 °.

FIG. 4 shows another isometric view of a fastener 50 attached to a manifold 51. Identical features are provided with the same reference numerals as in the previous figures.

The pipe segment 61 has two openings 59. The openings 59 have a phase or a reduction. In the illustrated embodiment, the openings 59 are formed round. In another embodiment, the openings are formed without phase and / or oval and / or polygonal and / or quadrangular. The manifold 51 has manifold openings 64 into which flat tubes, not shown, can be inserted.

The features of the various embodiments can be combined with each other. The invention can also be used for other than the areas shown.

Claims (27)

Heat exchanger system having at least one heat exchanger having at least one collecting tube (51) with at least one first dome (55), at least one fastening element (50) for fastening the heat exchanger, characterized in that the fastening element (50) has at least one latching element (56) which the first dome (55) is latched at least in sections. Heat exchanger system according to claim 1, characterized in that the at least one heat exchanger is a condenser 1 of an air conditioner. Heat exchanger system according to one of the preceding claims, characterized in that the fastening element (50) has at least one opening (59) into which at least a second dome (58) of the collecting tube (51) can be inserted at least in sections. Heat exchanger system according to one of the preceding claims, characterized in that the at least one latching element (56) has at least one recess (57) into which in particular the at least one first dome (55) can be latched. Heat exchanger system according to one of the preceding claims, characterized in that the at least one latching element (56) has at least one cylinder section surface (62). Heat exchanger system according to claim 5, characterized in that the cylinder section surface (62) is solder plated. Heat exchanger system according to claim 5 or 6, characterized in that the cylinder section surface (62) at least one collecting tube cover (52) touched at least in sections and in particular with this cohesively connectable. Heat exchanger system according to claim 7, characterized in that the at least one collecting tube cover (52) has the at least one first dome (55) and / or the at least one second dome (58). Heat exchanger system according to one of the preceding claims, characterized in that the at least one latching element (56) is formed at least in sections as a ring segment (60). Heat exchanger system according to one of the preceding claims, characterized in that the at least one latching element (56) has at least one Ausformschräge (36). Heat exchanger system according to one of the preceding claims, characterized in that the at least one fastening element (50) has at least two latching elements (56) and / or at least two openings (59). Heat exchanger system according to one of the preceding claims, characterized in that the at least one collecting tube (51) has at least two first dome (55) and / or at least two second dome (58). Heat exchanger system according to one of the preceding claims, characterized in that the fastening element (50) has at least one tongue element (53). Heat exchanger system according to claim 13, characterized in that the tongue element (53) has at least one tongue opening (54). Heat exchanger system according to one of the preceding claims, characterized in that the fastening element (50) is formed at least in sections as a pipe segment (61), which in particular has the at least one opening (59). Fastening element for a heat exchanger system according to one of the preceding claims, having at least one opening (59) and at least one latching element (56) which has at least one recess (57) for receiving at least one first dome (55), characterized in that the latching element ( 56) has at least one cylinder section surface (62). Fastening element according to claim 16, characterized in that the cylinder section surface (62) is solder-plated. Fastening element according to claim 16 or 17, characterized in that the at least one latching element (56) is formed at least in sections as a ring segment (60). Fastening element according to one of claims 16 to 18, characterized in that the at least one latching element (56) has at least one Ausformschräge (63). Fastening element according to one of claims 16 to 19, characterized in that the fastening element (50) has at least two latching elements (56) and / or at least two openings (59). Fastening element according to one of claims 16 to 20, characterized in that the fastening element (50) has at least one tongue element (53). Fastening element according to claim 21, characterized in that the tongue element (53) has at least one tongue opening (54). Fastening element according to one of claims 16 to 22, characterized in that the fastening element (50) is at least partially formed as a pipe segment (61), which in particular has at least one opening (59). Method for producing a heat exchanger system according to one of claims 1 to 15, characterized in that the fastening element (50) according to one of claims 16 to 23, by a forming manufacturing process, in particular by bending, stamping, embossing, etc., is produced. Method for producing a heat exchanger system according to one of Claims 1 to 15, characterized in that the fastening element according to one of Claims 16 to 23 is produced by a primary manufacturing method, in particular by casting, injection molding, lamination, etc. Method for producing a fastening element according to one of Claims 16 to 23, characterized in that the fastening element (50) is produced by a forming manufacturing process, in particular by bending, stamping, embossing, etc. Method for producing a fastening element according to one of Claims 16 to 23, characterized in that the fastening element (50) is produced by a primary shaping production method, in particular by casting, injection molding, lamination, etc.

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