EP1450123A1 - Mechanically assembled heat exchanger, particularly for motor vehicles - Google Patents

Abstract

Mechanically jointed heat exchanger, especially for a motor vehicle, comprises at least one collecting tank (2) consisting of a base (3) with passages (10) receiving pipes (40), especially pipes with a round or oval cross-section, and a lid (4) with at least one fluid connection and one pipe/ribbed block. The base and the lid are deep-drawn parts made of an aluminum alloy and have a trough-like shape with high edges (4a). The base and the lid are inserted inside each other in a box-like manner and are held together by a clip connection and a seal (13a, 13b). Preferred Features: The lid has at its edge a peripheral channel (11) into which the edge of the base engages.

Description

The invention relates to a mechanically joined heat exchanger, in particular for motor vehicles according to the preamble of claim 1.

Heat exchangers, especially those for motor vehicles are today mainly made of aluminum or an aluminum alloy, wherein this particular for the heat exchanger network consisting of pipes and ribs applies. Other parts of the heat exchanger that are not directly at the Heat transfer were, for cost reasons made of plastic made, such. B. from EP-B 962 739 known. The tube / rib block is - depending on the requirements of the heat exchanger performance - either soldered or mechanically joined. For mechanically joined heat exchangers becomes the connection of the tubes with the ribs as well as with a tubesheet of the collecting tank achieved by mechanical expansion of the tubes. Because of the increased requirement for tightness, the tube bottom connection after expansion for certain applications (see EP-B 962 739) additionally by sealing means from the outside, z. B. liquid applied silicone sealed. The silicone wets the circumference of the pipes in the area of the Tube bottom and forms a tough elastic after a certain drying time Sealant. Similar sealing systems are based on a polymer material, which are also applied in liquid or pasty form can and then hardens. The known heat exchanger used apart from the sealing materials, essentially two materials, namely aluminum and plastic. Such a material combination is disadvantageous from the viewpoint of recyclability. One has therefore already proposed and manufactured all-aluminum heat exchanger - but as soldered systems. In such soldered all-aluminum heat exchangers all parts become like collection box, consisting of lid and bottom, tubes and ribs and any attachments "in one shot" - soldered in a soldering oven. So no one needs it additional connection means for the individual parts of the heat exchanger. A problem occurs when a mechanically joined heat exchanger or his collection box only consist of metal or aluminum alloys should.

It is therefore an object of the present invention to provide a heat exchanger of the type mentioned above to be improved so that he largely recyclable, d. H. is sorted.

This object is solved by the features of claim 1. Of the Heat exchanger according to the invention has a collecting box, the exclusively of aluminum parts or parts of an aluminum alloy which mechanically joined, d. H. held together by a clip connection become. The tubes of the tube / rib block are end in Widening of the floor widened, d. H. mechanically with the collecting box connected. The entire heat exchanger is thus mechanically joined and sorted, d. H. fully recyclable. Only at the joints, where soil and lids abut each other is a seal arranged from a suitable material. This can be a solid seal in Form of an elastomer, which z. B. as a weather strip between the junction of the bottom and lid is pressed. on the other hand can also be a so-called liquid seal, z. In the form of silicone or a polymer applied after the joining of soil and Lid solidifies or hardens. Thus, the clip connection takes over the mechanical anchoring, d. H. the absorption of forces between soil and lid, while the seal primarily performs sealing tasks. However, the seal can also have additional adhesive properties, so It also causes a bonding of the bottom and lid and thus additionally Can absorb connection forces. The assembly of the invention Heat exchanger is very simple, because the bottom and lid like a box are put together, d. H. for example, the lid is slipped over the floor and simultaneously clipped to the floor. This eliminates additional assembly work such. B. crimping the Bottom edge around the edge of the lid. Both parts of the collecting tank, So lid and bottom are relatively easy to produce as deep-drawn parts. The necessary connecting parts of the clip connection are after deep drawing or after the chipless forming on the bottom and lid, So there are no additional connecting parts such. B. brackets required. The collecting box consists in principle only of two metal parts.

Further advantageous embodiments of the invention will become apparent from the Dependent claims.

In a first advantageous embodiment of the invention, the lid a circumferential gutter into which the edge of the ground engages, d. H. he is led and trapped in this groove. In this area can advantageously also the seal, z. As silicone are applied.

In a further advantageous embodiment of the invention, the clip connection on one part, e.g. B. the lid eyelets and the other part, z. B. the Ground locking hooks on, after putting the lid over the ground snap into the eyelets. Both the eyelets and the locking hooks are can be produced in one piece with lid or floor. The eyelets are resilient and the latching hooks have a corresponding sliding surface, so that the lid after a short press with the bottom locked and thus a permanent connection is received - however z. B. for repair purposes - can also be solved again.

According to an advantageous embodiment of the invention is in the collection box a partition, in particular arranged a longitudinal partition, the divided the collection box into an inlet and an outlet chamber. This Partition is also mechanically joined, d. H. it forms a third part of the collecting tank, which is clamped between the bottom and lid and is sealed. It is particularly advantageous if both the ground and also the lid in the area where the longitudinal dividing wall is positioned, Have gutters. These grooves can be easily during the embossing and Deep drawing process can be formed in both parts. This is a clear one Guidance and positioning aid provided for the longitudinal partition. Advantageously, the partition in the region of these grooves, d. H. about their entire circumference by a arranged in the gutters sealing material sealed.

In an advantageous embodiment, the passages are offset from one another and arranged at a small distance, the dividing wall therefore has in the range the preferably inwardly directed passages and in the collection box projecting tubes a wave-shaped course. Thereby Space is saved in the depth direction of the heat exchanger. The wavy The longitudinal partition wall does not have to be over its entire height extend, but only as far as the tubes protrude into the collection box. In the remaining area, the longitudinal partition wall can substantially be formed so that the corresponding channel in the lid straight can run. The corresponding gutter in the ground runs, adapted to the contour of the longitudinal partition, also wavy. Such a staggered Arrangement of passages, d. H. at four rows of tubes, in particular then advantageous if the tubes are formed as U-tubes and respectively a leg with the inlet chamber and the other leg of the U-tube communicates with the exit chamber. This results in a cost-effective and compact design, z. B. as a radiator of a motor vehicle heating or air conditioning, as a collection box for the radiator saved or only one is needed.

Fig. 1

einen erfindungsgemäßen Heizkörper teilweise in perspektivischer Darstellung,

Fig. 2

einen Sammelkasten des Heizkörpers gemäß Fig. 1 in einer Schnittdarstellung,

Fig. 3

einen Rohrboden des Sammelkastens gemäß Fig. 2 in perspektivischer Darstellung,

Fig. 4

einen Deckel des Sammelkastens gemäß Fig. 2 in perspektivischer Darstellung,

Fig. 5

eine Trennwand des Sammelkastens gemäß Fig. 2 in perspektivischer Darstellung,

Fig. 6

eine Schnittdarstellung des Rohrbodens mit Rasthaken,

Fig. 7

eine teilweise Schnittdarstellung des Deckels,

Fig. 8

einen Teilschnitt der Verbindung von Trennwand und Deckel,

Fig. 9

eine Teilansicht auf den Rohrboden mit wellenförmiger Trennwand und

Fig. 10

einen Sammelkasten des Heizkörpers.

An embodiment of the invention is illustrated in the drawing and will be described in more detail below. Show it

Fig. 1

a radiator according to the invention partially in perspective,

Fig. 2

a collection box of the radiator of FIG. 1 in a sectional view,

Fig. 3

a tube plate of the collecting tank according to FIG. 2 in a perspective view,

Fig. 4

a cover of the collecting tank according to FIG. 2 in a perspective view,

Fig. 5

a partition wall of the collecting tank of FIG. 2 in perspective view,

Fig. 6

a sectional view of the tube sheet with latching hook,

Fig. 7

a partial sectional view of the lid,

Fig. 8

a partial section of the connection of partition and lid,

Fig. 9

a partial view of the tubesheet with wave-shaped partition and

Fig. 10

a collection box of the radiator.

Fig. 1 shows a section of a mechanically joined heat exchanger in perspective view. The heat exchanger 1 can in particular used as a radiator in a motor vehicle heating or air conditioning system become, d. H. he is the primary side of a coolant, which is not a taken cooling circuit of an internal combustion engine is taken, flows through and secondary side acted upon by ambient air, as warm or conditioned air supplied to the passenger compartment of the motor vehicle becomes. The heat exchanger 1, hereinafter called radiator 1, has a collecting box 2, which consists of a tube sheet 3, below called a short floor, and a lid 4 is made. In the ground 3 open tubes 40 of a tube / rib block 5, the ribs 6 hinted are shown. Bottom 3 and cover 4 are by a clip connection 7 mechanically interconnected. The clip connection 7 becomes on the one hand by arranged on the edge of the lid 4 eyelets 8 and with the Eyelets 8 cooperating latching hooks 9 formed, which are arranged on the bottom 3 are.

Fig. 2 shows an illustration of the collecting tank 2 in section, wherein for the same Parts of the same reference numbers are used. The bottom 3 is following inside, d. H. into the collection box 2 directed passages 10, which receive the tubes 40. The tubes 40 are preferably as round tubes, d. H. formed with a circular cross section and mechanically opposite widened the passages 10. This results in a tight fit the tubes 40 in the bottom 3, which produced by mechanical expansion Tube / bottom connection is in principle coolant-tight. The cross section However, the tubes 40 may also differ from the circular shape, z. B. be formed oval - even oval tubes can be widened mechanically. The bottom 3 is trough-shaped and has a lateral, high standing edge 3a, which corresponds approximately to the height of the collecting tank 2. The lid 4 has an outer circumferential groove 11 which extends outwardly into an edge 4a (in the drawing on the right) and 4b (in the Drawing left) continues. The edge 3a of the bottom 3 is in the groove 11th used, and the edge portions 4a, 4b of the lid 4 form with the edge 3a of the bottom 3 an overlap 12a, 12b. In the area of these overlaps 12a, 12b, a sealing strip 13a or 13b is arranged in each case, z. B. of an elastomer such as rubber or synthetic rubber, which to achieve a sealing effect between the two edge regions 3a and 4a and 4b is pressed. Furthermore, the seals 13c and 13d provided, which are introduced into the gutters.

Approximately in the middle of the collecting tank 2, a longitudinal partition wall 14 is arranged, which has a lower longitudinal edge 14a and an upper longitudinal edge 14b. The bottom 3 and cover 4 each have their middle Ranges extending longitudinally channels 15, 16 with U-shaped profile into which the longitudinal partition wall 14 with its longitudinal edges 14a, 14b is used, preferably with a slight interference fit. This is the Longitudinal partition wall 14 positioned in the collecting box 2, held and roughly sealed. The longitudinal partition wall 14 divides the collecting box 2 into an inlet chamber 17 and an exit chamber 18. The tubes 40 are not part of one fully illustrated U-tube with two U-legs 40a, 40b, which on the one hand into the inlet chamber 17 and on the other hand into the outlet chamber 18 open. In this respect, finds in this radiator, a deflection of the Coolant in the depth of the radiator, d. H. in air flow direction (or also contrary) instead. The direction of flow of the air is indicated by an arrow L shown. The coolant thus first flows into the inlet chamber 17 and from there via the U-tubes 40, the parts of the tube / rib block 5 (see. Fig. 1), in the outlet chamber 18. The sealing of the two chambers 17, 18 against each other does not have to be absolute, d. H. a limited leakage current can be admitted. Depending on the requirement, it may thus be advantageous be, the partition 14 in addition by a not shown here Sealant, which is deposited in the region of the grooves 14a, 14b, seal. Also, the pipe / floor connections of the tubes 40 in the passages 10 can additionally by a subsequently applied sealant 19 are sealed. This sealant 19 may be, for example, a silicone or polymer which is in liquid form around the tubes 40 the soil 3 is applied and then solidifies or hardens.

Fig. 3 shows the bottom 3 as a single part in a perspective view. Of the level part of the trough-shaped bottom 3 has four rows of offset (gap) and arranged at a minimum distance from each other Threads 10 on. In these passages 10 are - as already mentioned - U-tubes used and widened at the end. In the longitudinal direction of the soil 3 between the second and the third row of the passages 10 is the Longitudinal channel 15 arranged due to the narrow and staggered arrangement the passages 10 has a wave-shaped course. The longitudinal channel 15 sits in the approximately vertical edges 3a of the soil 3, d. H. on the narrow sides of the floor 3. The two angled, rectilinear areas of the longitudinal groove 15 are 15a, 15b designated. At the edge 3a of the floor are distributed over the circumference, several Latch hook 9 arranged. The bottom 3 is made of a flat board Aluminum sheet in successive process steps as a deep-drawn part produced.

Fig. 4 shows the lid 4 as a single part in a perspective view. The lid 4 has a substantially planar part 4 c, which through the straight longitudinal channel 16 (see Fig. 2) is divided into two halves, in which in each case a connecting piece 20, 21 in the form of passages for the Coolant inlet or outlet are arranged. At the edge 4a, which is approximately vertical placed opposite the inner region 4c are several eyelets 8, each having a window 22. The longitudinal channel 16 sets itself - as well as the longitudinal groove 15 in the bottom 3 - in the edge 4a of the Dekkels 4, d. H. the narrow sides of the lid 4 have in extension of Longitudinal channel 16 as U-profiles pronounced sections 16a, 16b. Also the Cover 4 is made of a flat board made of aluminum sheet in succession following process steps produced as a drawn part.

Fig. 5 shows the partition 14 as a single part in a perspective view. The partition wall 14 has a straight upper longitudinal edge 14a and a lower longitudinal edge 14b with wavy course. Further points the longitudinal partition wall 14 at its narrow sides straight edges 14c, 14d. The Tennwand 14 is - as shown in Fig. 2 - with its straight Longitudinal edge 14a in the channel 16 of the lid 4 and with its corrugated Longitudinal edge 14b fixed in the channel 15 of the bottom 3. The short edges 14c, 14d are in the gutter sections 15a, 15b of the bottom (see Fig. 3) and 16a, 16b of the lid (see Fig. 4) used. Thus, the entire scope 14a, 14b 14c, 14d of the longitudinal partition wall 14 in a circumferential groove of the Managed collection box or held and thus sealed. As already listed above, the longitudinal partition 14 is curled only in the lower area, the upper portion with the straight edge 14a, on the other hand, is substantially smooth or flat.

6 shows a cross section through the bottom 3 with two passages 10, to the inside of the collecting box 2, d. H. directed towards the coolant side are. Between the passages 10 is designed as a U-profile, Wavy longitudinal channel 15 is formed. At the edges 3a are arranged in the upper region latching hooks 9, which are called nose-shaped projections are pronounced from the bottom wall. The "nose tip" shows in the Drawing down, so that the "bridge of the nose" a sliding surface for the Eyelets 9 of the lid forms (not shown here). In the middle area of the Narrow side of the edge 3a is the perpendicular and rectilinear section 15a and 15b of the longitudinal channel 15 visible.

Fig. 7 shows a section of a cross section through the lid 4, and Although in the area of the connecting piece 21, as a stepped passage designed for the (mechanical) recording of coolant connection pipes is. The longitudinal channel 16 is visible as a U-profile, it sits in the angled Section 16b in the edge region 4a on. The edge area 4a, which is adjoins the circumferential groove 11 is slightly conically outward, so that it can be easily placed on the edge 3a of the floor. At the edge 4a close - as already mentioned above - eyelets, from which here the eyelet 8 is shown with window 22. The eyelet 8 with window 22 is already punched when cutting the board from the sheet, it is thus formed integrally with the lid 4.

Fig. 8 shows the installation of the partition 14 with its longitudinal edge 14a in the area the longitudinal groove 16 and the angled gutter portion 16b.

Fig. 9 shows a partial view of the bottom 3 with passages 10 and bottom edge 3a. The passages 10 are offset, d. H. arranged on a gap and have a minimum manufacturing-related distance. The four Pipe rows are each characterized by a thread 10.1, 10.2, 10.3, 10.4, where respectively the row 10.1 with row 10.3 and the row 10.2 connected to the row 10.4 by unillustrated pipe forks (U-tubes) are. Between the row of tubes 10.2 and 10.3 is the wavy formed partition 14 arranged with a narrow side 14c in the gutter portion 15a of the bottom 3 is inserted. At the edge 3a of the ground 3, two locking hooks 9 are also visible.

FIG. 10 shows a sectional view of a collecting tank 2 in which the seals 13 are made of elastomeric material and in gutters are inserted or arranged.

LIST OF REFERENCE NUMBERS

1

Heat exchanger or radiator

2

collection box

3

Ground.

3a

bottom edge

4

cover

4a

cover edge

4b

cover edge

4c

cover part

5

Tube / fin block

6

ribs

7

clip connection

8th

Eyelet (cover)

9

Latching hook (ground)

10

Draft

11

Gutter in the lid

12

overlap

12a

overlap

13a

weatherstrip

13b

weatherstrip

14

Longitudinal partition

14a

longitudinal edge

14b

longitudinal edge

14c

transverse edge

14d

transverse edge

15

Longitudinal channel, wavy

15a

Longitudinal groove section

15b

Longitudinal groove section

16

Longitudinal channel, straight

16a

Longitudinal groove section

16b

Longitudinal groove section

17

inlet chamber

18

exit chamber

19

sealant

20

spigot

21

spigot

22

Window (eyelet)

40

pipe

40a

tube legs

40b

tube legs

Claims (20)

Mechanically joined heat exchanger (1), in particular for motor vehicles with at least one collecting box (2), consisting of a bottom (3) with passages (10) for receiving tubes (4) which are mechanically widened in relation to the passages (10), in particular round tubes or oval cross-section and a lid (4) with at least one fluid connection (20) and a tube / rib block (5), characterized in that the bottom (3) and the lid (4) each as deep-drawn parts made of an aluminum alloy and trough-shaped high standing edges (3a, 4a) are formed so that the bottom (3) and lid (4) box-like manner into each other, held together by a clip connection (7) and by a seal (13a, 13b) are sealed. Heat exchanger according to claim 1, characterized in that the cover (4) at the edge has a circumferential groove (11) into which the edge (3a) of the bottom (3) engages. Heat exchanger according to claim 1 or 2, characterized in that the clip connection (7) on the one hand comprises resiliently formed eyelets (8) with windows (22) and on the other hand latching hooks (9), each integrally with the bottom (3) or lid (4). are formed. Heat exchanger according to claim 3, characterized in that on the bottom (3), distributed over the circumference of the edge (3a), the latching hooks (9) and at the edge (4a) of the lid (4) the eyelets (8) are arranged and that the lid (4) is slipped over the floor (3) such that the catch hooks (9) engage in the windows (22) of the eyes (8). Heat exchanger according to one of claims 1 to 4, characterized in that between the lid (4) and the bottom (3) a partition wall is arranged. Heat exchanger according to claim 5, characterized in that the dividing wall is designed as a longitudinal dividing wall (14). Heat exchanger according to claim 6, characterized in that the passages (10) arranged offset in the bottom (3) and the longitudinal partition wall (14) between the passages (10) has a wave-shaped course (14b). Heat exchanger according to claim 6 or 7, characterized in that the bottom (3) and the cover (4) in the region of the partition wall or the longitudinal partition wall (14) grooves (15, 15a, 15b, 16, 16a, 16b), optionally with Have wave-shaped course, in which the partition wall or the longitudinal partition wall (14) peripherally engages with their longitudinal edges (14a, 14b, 14c, 14d). Heat exchanger according to claim 5 to 8, characterized in that the partition wall or longitudinal partition (14) relative to the bottom (3) and the lid (4) is sealed by a seal. Heat exchanger according to one of claims 1 to 9, characterized in that the seal consists of a solid, in particular elastomeric material. Heat exchanger according to one of the preceding claims, characterized in that the elastomeric material is arranged and / or pressed between the lid and the bottom in the region of the gutters and / or between the lid and the dividing wall in the gutter. Heat exchanger according to claim 10 or 11, characterized in that the seal as a sealing strip (13a, 13b) formed and between the lid (4, 4a, 4b) and the bottom (3, 3a, 3b) and / or the partition (14) arranged and pressed. Heat exchanger according to claim 1 to 12, characterized in that the edges (3a, 3b, 4a, 4b) of the bottom (3) and cover (4) form an overlap (12a, 12b) and that the seal (13a, 13b) in Area of overlap (12a, 12b) is arranged. Heat exchanger according to one of the preceding claims, characterized in that the seal consists of a sprayable and curable material, in particular silicone. Heat exchanger according to claim 14, characterized in that the seal is formed as a sealing strip and disposed between the lid, the bottom and / or the partition wall. Heat exchanger according to claim 14, characterized in that the sealing material in the region of the grooves (11, 15, 16) is arranged. Heat exchanger according to claim 16, characterized in that the sealing material is arranged before the connection of the lid and the bottom. Heat exchanger according to one of the preceding claims, characterized in that the silicone in the region of the tubes (4) and the passages (10) is arranged. Heat exchanger according to one of the preceding claims, characterized in that the edges of the bottom and lid form an overlap / and that the sealing material is arranged after the connection of the lid and bottom in the region of the overlap. Heat exchanger according to one of the preceding claims, characterized in that the collecting box (2) divided by the longitudinal partition (14) in an inlet chamber (17) and an outlet chamber (18) and that the tubes (4) as U-tubes with U-legs (4a, 4b) are formed, wherein one leg (4a) communicates with the inlet chamber (17) and the other leg (4b) with the outlet chamber (18).

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