DE102005017973B4 - Intercooler for an internal combustion engine - Google Patents

Abstract

Intercooler for an internal combustion engine, with at least one through a inlet opening (15) in a housing (2) inserted in the interior of the housing (2) traversed by charge air cooler element (3, 4), characterized in that the radiator element (3, 4) with an adhesive (25) in the housing (2) is glued and sealingly closes the inlet opening (15), wherein the adhesive (25) forms a seal between the radiator element (3, 4) and the housing (2).

Description

The invention relates to a charge air cooler for an internal combustion engine according to the preamble of claim 1.

In the German patent application still unpublished on the filing date of the present patent application DE 10 2004 049 027 the applicant describes a supercharger module for a V-type internal combustion engine, comprising a mechanical supercharger and a charge air cooler of the type mentioned above with two left and right of the supercharger, inserted between a mounting plate and an air distributor cover of the supercharger module radiator elements.

In order to give the radiator elements a sufficient for clamping between the mounting plate and the air distributor cover stability and to provide on its top and bottom for an airtight connection to the mounting plate or the air distributor cover, the radiator elements must be provided with a stable cast housing.

From the DE 699 19 583 T2 and from the DE 199 02 504 B4 already intercooler of the type mentioned are known in which at least one radiator element is inserted through an inlet opening into a housing in which it is then flowed through by the charge air. In the known intercoolers, the cooler elements inserted into the housing are held by cover elements, which are fastened to the housing. To seal against the housing are in the intercooler from the DE 699 19 583 T2 provided at both ends of the radiator element seals.

Proceeding from this, the present invention seeks to improve a charge air cooler of the type mentioned in that the fixation of the radiator elements in the housing and the seal against the housing can be simplified.

This object is achieved in that the radiator element is glued with an adhesive in the housing and sealingly closes the inlet opening, wherein the adhesive forms a seal between the radiator element and the housing.

In this way, the adhesive used not only ensures the fixation of the radiator element in the housing but at the same time also for a sealing of the housing in the region of the inlet opening.

The radiator element can be made of thin aluminum sheet in lightweight construction and thus both the surface of the cooling channels flowed around by the charge air and the heat transfer from the charge air to the cooling water can be improved, while the housing produced separately from the radiator element can be formed as a stable casting, which is the intercooler gives the desired structural strength and allows a stable connection to the internal combustion engine.

With the feature combination according to the invention, moreover, in a V-type internal combustion engine, the radiator elements for both cylinder banks can be inserted into a common housing housing the supercharger and the intercooler, which preferably bridges an intermediate space between the cylinder heads of the two cylinder banks. The high stability and rigidity of such an arrangement enables a reduction of the pulsation-related noise and thus an improvement in the acoustics of the internal combustion engine.

A preferred embodiment of the invention provides that the radiator element is inserted into the housing transversely to the flow direction of the charge air and limits an air channel through which the charge air flows, in which a plurality of cooling fins of the radiator element through which cooling water flows are arranged. The cooling fins are preferably arranged in the radiator element in such a way that they are flowed through by the cooling water in crossflow with respect to the charge air flowing through the housing.

In order to supply the charge air heated in its compression into the housing or remove it from the housing after cooling, the housing is expediently provided on opposite sides with at least one air inlet opening or at least one air outlet opening, whereby the air path through the housing as short as possible held and thus the response can be improved.

The at least one air inlet opening and the at least one air outlet opening are preferably arranged on opposite longitudinal sides of the housing in order to make the cross section of the air channel through which the charge air flows with the same housing dimensions as large as possible, while the inlet opening for inserting the radiator element is preferably located on an end face of the housing and the radiator element with its front end receives in advance, since a small inlet opening facilitates sealing after insertion.

To a one-sided support of the radiator element in the housing and / or a passage of charge air between the front in the insertion direction front end of the radiator element and the To avoid housing, the housing expediently has a recess opposite the inlet opening, in which the front end of the radiator element in the insertion direction is supported on the housing. The recess may be formed as a housing opening, which is closed airtight after insertion of the radiator element as well as the insertion opening through a front end of the radiator element.

In the following the invention will be explained in more detail with reference to two illustrated in the drawings embodiments. Show it:

1 FIG. 2 is a top perspective view of a supercharger module for a V-type internal combustion engine having a housing in which a mechanical supercharger and two radiator elements of an intercooler are inserted; FIG.

2 FIG. 4 is a partially cut-away perspective sectional view taken along the line II-II of FIG 1 ;

3 : a view accordingly 2 but with a different way of securing the radiator elements and sealing the housing.

The loader module shown in the drawing 1 for a designed as a 6-cylinder V-engine internal combustion engine consists essentially of a mechanical charger (not shown) and a charge air cooler, the two on either side of the charger in a housing 2 of the loader module 1 inserted cooler elements 3 . 4 includes.

The mechanical supercharger is a compressor operating on the displacement principle with or without internal compression, which can be designed, for example, as a Roots compressor, as a Lysholm screw compressor or as a radial compressor.

The through a frontal mounting hole 5 in the case 2 the loader module 1 usable loader comprises in a known manner two rotary pistons or rotors with parallel axes of rotation, which are connected via a constant velocity gear with a drive shaft which is driven via a belt drive from the crankshaft of the internal combustion engine. The drive of the supercharger makes charge air through an air intake opening 6 at the rear end of the housing 2 sucked into the loader (arrow A in 1 ). After passing through the loader (arrow B and C in 1 ) is the charge air heated during compression inside an air distributor 7 at the top of the case 2 to the two radiator elements 3 . 4 directed and evenly on the two radiator elements 3 . 4 distributed (arrows D in 1 ).

The housing made in one piece by the sand casting process 2 has in its interior on both sides of the loader, two recesses 8th ( 2 and 3 ), each for receiving one of the two radiator elements 3 . 4 Serve and with a substantially rectangular opening cross section from front to back through the housing 2 extend.

The two recesses 8th be inside of the case on its top and its bottom each of walls 9 . 10 limited, with air intake openings 11 or with air outlet openings 12 are provided so that the compressed and heated charge air from the air manifold 7 from top to bottom through the two recesses 9 passed through (arrows E in 1 . 2 and 3 ) and after exiting the air vents 12 can be fed through the cylinder heads directly into the cylinder.

At the front and at the rear end 13 respectively. 14 of the housing 2 have the recesses 8th one opening each 15 respectively. 16 on, of which the opening 15 in the front side 13 as insertion opening for the respective radiator element 3 . 4 serves. This is after insertion in the area of the two openings 15 . 16 from the case 2 supported and held, it being the two openings 15 . 16 each airtight closes.

The lightweight construction made of aluminum sheet radiator elements 2 . 3 each have an elongated cuboid radiator housing 17 open at its top and bottom and a vertical air duct 18 limited by a rectangular cross-section. The air duct 18 extends from top to bottom through the radiator housing 17 and includes a plurality of parallel, vertically aligned cooling fins 19 extending in the direction of insertion of the radiator elements 3 . 4 from a water tank 20 at the front end of the radiator elements 3 . 4 up to a water tank 21 at the rear end of the radiator elements 3 . 4 extend, wherein they are in the longitudinal direction of the radiator elements 3 . 4 , ie in cross-flow to that through the air duct 18 flowing charge air (arrows E) are flowed through by cooling water. The cooling water is through one at the front end of each radiator element 3 . 4 arranged cooling water inlet 22 in the radiator element 3 . 4 supplied and flows after its passage through the cooling fins 19 through a cooling water outlet arranged above it 23 again from the radiator element 3 . 4 out.

For fixing the radiator elements 3 . 4 in the case 2 and for sealing the two openings 15 . 16 is that in 2 illustrated radiator element 4 at its opposite ends each by means of an adhesive 24 . 25 in the case 2 glued, which has an outer peripheral surface of the channel box 20 respectively. 21 surrounds and a circumferential gap 26 between the front end of the radiator element 4 and an opposite boundary edge of the opening 15 respectively. 16 hermetically seals.

This in 3 illustrated radiator element 4 will be in the recess 8th from a fixing screw 27 held by a boundary edge 28 the insertion opening 15 through into a threaded hole 29 in the top of the adjacent front end of the radiator element 4 is screwed. For sealing the openings 15 . 16 are the water boxes 20 . 21 of in 3 shown radiator element 4 on its outer side each with a circumferential groove 30 provided, in which an outwardly projecting sealing ring 31 is used. After inserting the radiator element 4 into the recess 8th of the housing 2 lie the sealing rings 31 in the area of the openings 15 . 16 sealing against an opposite boundary edge of the opening 15 respectively. 16 at. Alternatively, the groove may be formed with the sealing ring in the housing and bear against an outer boundary surface of the water tanks.

The loader module 1 is before or after inserting the radiator elements 3 . 4 mounted on the two cylinder heads of the internal combustion engine such that the housing 2 with its flat underside underneath the radiator elements 3 . 4 abuts against the complementary top surfaces of two flap flanges (CVTS flanges) seated on the cylinder heads of the internal combustion engine, the air outlet openings 12 With corresponding air inlet openings in the flap flanges are aligned, so that from the cooler elements 3 . 4 exiting cooled charge air through the air outlet openings 12 flows directly into the leading to the cylinders air ducts in the cylinder head.

The attachment of the loader module 1 done with the help of fixing screws through through holes 32 ( 1 ) in the housing ( 2 ) are screwed into threaded holes of the flap flanges.

LIST OF REFERENCE NUMBERS

1

charger module

2

casing

3

cooler element

4

cooler element

5

mounting hole

6

air intake opening

7

air distributor

8th

housing recess

9

upper boundary wall

10

lower boundary wall

11

Air intake openings

12

exhaust vents

13

Front side of the housing

14

Front side of the housing

15

insertion opening

16

housing opening

17

cooler housing

18

air duct

19

cooling fins

20

cistern

21

cistern

22

Cooling Water Intake

23

cooling water outlet

24

Glue

25

Glue

26

gap

27

fixing screw

28

boundary edge

29

inner thread

30

groove

31

seal

32

Through holes

A, B, C, D, E

Air flow arrows

Claims (14)

Charge air cooler for an internal combustion engine, with at least one through an inlet opening ( 15 ) in a housing ( 2 ), inside the case ( 2 ) radiator element through which charge air flows ( 3 . 4 ), characterized in that the radiator element ( 3 . 4 ) with an adhesive ( 25 ) in the housing ( 2 ) is glued and the inlet opening ( 15 ) sealing, whereby the adhesive ( 25 ) a seal between the radiator element ( 3 . 4 ) and the housing ( 2 ). Intercooler according to claim 1, characterized in that the radiator element ( 3 . 4 ) transversely to the flow direction of the charge air into the housing ( 2 ) is inserted. Intercooler according to claim 1 or 2, characterized in that the radiator element ( 3 . 4 ) an air channel through which the charge air flows ( 18 ) limited. Intercooler according to one of the preceding claims, characterized in that the radiator element ( 3 . 4 ) a plurality of cooling water flowed through cooling fins ( 19 ). Intercooler according to claim 4, characterized in that the cooling water in the cross-flow to the charge air through the cooling fins ( 19 ) flows. Intercooler according to one of the preceding claims, characterized in that the housing ( 2 ) on opposite sides of the radiator element ( 3 . 4 ) with at least one Air inlet opening ( 11 ) or at least one air outlet opening ( 12 ) is provided. Intercooler according to claim 6, characterized in that the at least one air inlet opening ( 11 ) and the at least one air outlet opening ( 12 ) opposite longitudinal sides of the radiator element ( 3 . 4 ) are arranged. Intercooler according to one of the preceding claims, characterized in that the housing ( 2 ) at one of its end faces an inlet opening ( 15 ) for the radiator element ( 3 . 4 ) having. Intercooler according to claim 8, characterized in that the radiator element ( 3 . 4 ) in the longitudinal direction through the inlet opening ( 15 ) is insertable. Intercooler according to claim 8 or 9, characterized in that the housing ( 2 ) on the opposite end face a recess or opening ( 16 ) for supporting the radiator element ( 3 . 4 ) having. Intercooler according to one of the preceding claims, characterized in that the radiator element ( 3 . 4 ) is made of sheet metal in lightweight construction. Intercooler according to one of the preceding claims, characterized in that the housing ( 2 ) is designed as a casting. Intercooler according to one of the preceding claims, characterized in that the housing ( 2 ) is flanged to the internal combustion engine. Intercooler according to one of the preceding claims, characterized in that the housing part of a supercharger module ( 1 ), which is a mechanical loader and at least two radiator elements ( 3 . 4 ) encloses.

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