CN100559110C

CN100559110C - Heat exchanger is especially for the charger-air cooler or the cooling water radiator of automobile

Info

Publication number: CN100559110C
Application number: CNB2006800024993A
Authority: CN
Inventors: 霍尔格·勒韦; 弗兰克·冯吕茨奥; 约尔格·威廉
Original assignee: Behr GmbH and Co KG
Current assignee: Mahle Behr GmbH and Co KG
Priority date: 2005-01-18
Filing date: 2006-01-12
Publication date: 2009-11-11
Anticipated expiration: 2026-01-12
Also published as: CN101107492A; ATE463710T1; WO2006077044A1; EP1842023B1; DE102005002417A1; DE502006006637D1; EP1842023A1; JP5283385B2; JP2008527305A; US20080078540A1

Abstract

The present invention relates to a kind of heat exchanger (1), charger-air cooler or cooling water radiator especially for automobile, has a soldering core body, it is made up of pipe (4), fin and at least one tube sheet (2), also comprise at least one plastic box (3), it has on the cross section approximate wall (3a) that takes the shape of the letter U and the flange (3b) that rounds.This case is by flange (3b) and tube sheet mechanical connection.According to the present invention, reinforcement is being arranged in the transition region (5) of flange (3b) and wall (3a) in the inboard in plastic box (3).

Description

Heat exchanger is especially for the charger-air cooler or the cooling water radiator of automobile

Technical field

The present invention relates to a kind of charger-air cooler or cooling water radiator that is used for automobile.

Background technology

The known heat exchanger especially for automobile often has a soldering core body, and it is made up of pipe, fin and tube sheet, and the plastics manifold then is placed on the tube sheet.Being connected between plastic box and the tube sheet clamp to connect or crimping connects, and, is lined with seal here between the flange of plastic box and tube sheet, and it clamps by the connection of case/tube sheet.Like this, plastic box is just fixed with metal tube sheets and is connected hermetically.

This case/tube sheet is connected among the DE-B 28 52 408 and is disclosed, and wherein, the deformable edges zone of tube sheet clamps on the flange of water tank, thereby forms the connection of form fit.Under the situation that internal pressure rises, distortion appears in plastic box easily, and the stress change is big, and especially on clamping region, this can cause case/tube sheet connection to occur leaking.

Therefore in DE-A 38 41 470, applicant's suggestion is made amendment to flange region, and to be used for so-called wave slit crimping, here, the tank wall on flange is a waveform, thereby has strengthened vertical wall.

Particularly as described in the DE-A 198 57 435, in charger-air cooler, the plastic box pressure inside becomes higher, and along with development in future, it is bigger that pressure trends towards becoming, and like this, traditional plastic box will bear this pressure.In fact distortion will occur, thereby cause stress to become big, crackle occur.

Summary of the invention

The inner pressure resistant intensity that the objective of the invention is to improve foregoing heat exchanger, particularly plastic box improves, and does not have obviously to increase simultaneously the weight of heat exchanger again.

This purpose is realized by the heat exchanger with following characteristics.According to the present invention, on the flange of the inboard of plastic box, promptly the transitional region between flange and tank wall is provided with a plurality of reinforcements.Such advantage is that under the big situation of internal pressure change, plastic box is strengthened at key position, and can more effectively prevent distortion.Like this, will concentrate the value that reduces to permission to the stress in the zone of this case on case/tube sheet connects.Particularly the plastic box of strengthening according to the present invention can be used as charger-air cooler.

In preferred structure of the present invention, plastic box has the cross section of U-shaped, and this section is the flange that rounds by step transition.Zone at the angle of the step that is roughly the obtuse angle reinforcement in disposed inboard, and here, the inner edge of muscle preferably aligns with the U-shaped profile of the inwall of case.Such advantage is, reinforcement is arranged in the zone, and be that the flow resistance that cooling fluid or pressurized air bring is inappreciable at this regional reinforcement to the medium of percolation in case, that is to say that reinforcement according to the present invention can not strengthen pressure drop in plastic box.The weight increase that they bring also is inappreciable, and is big because the wall thickness of case itself does not become, and muscle has only formed very thin wall relatively.Like this, do not gaining in weight comparatively speaking and losing under the situation of pressure, they have improved the bending resistant section coefficient of the key area of case, and can be subjected to crooked pressure especially in this zone when internal pressure strengthens.

In preferred structure of the present invention, heat exchanger has core body, and this core body comprises the flat tube system of a single-row or multiple row, and wherein, the end of flat tube is inserted in the opening on the tube sheet.Separated by a distance between the reinforcement, this distance equals to manage apart from promptly the spacing or the outside muscle distance of pipe are the spacing of the muscle in the case outside.Here, reinforcement is arranged in the height place of pipe or is arranged between the pipe.Vertical wall of case is strengthened uniformly, thisly added the good general uniformly and adapt to internal pressurization.

In other preferred structure of the present invention, the transitional region between flange and the tank wall is along vertical waviness of case, and DE-A 38 41 470 is described as previously mentioned.What have advantage is that reinforcement is arranged in the zone of waveform profile, promptly is arranged in the sunk area (trough) or rising zone (crest) of case inboard.Such advantage is that when further strengthening, the increase of case pressure inside loss is very little.

In other preferred structure of the present invention, the surface of muscle that extend into plastic box inside is parallel with the stripping direction of case.Like this, can process the profile of muscle in the core of case, case is then can along stripping direction and to be drawn out under the situation of not using other slide block be the demoulding after the injection moulding.Can realize reducing the advantage of manufacturing cost like this, because will can obviously not increase the cost of injection mold by structure and layout according to reinforcement of the present invention.

Description of drawings

Below by accompanying drawing embodiments of the invention are elaborated.Wherein,

Be the intercepting part according to heat exchanger of the present invention among Fig. 1, it comprises the connection between tube sheet and the plastic box;

Fig. 2 is the partial enlarged drawing X of Fig. 1, and it comprises according to reinforcement of the present invention;

Fig. 3 is the stereogram with first plastic box of arranging of reinforcement;

It among Fig. 4 second plastic box of arranging with reinforcement;

It among Fig. 5 the intercepting part (first arranges) of the vertical wall of plastic box;

Fig. 6 is the sectional view along the VI-VI line among Fig. 5;

Fig. 7 is the intercepting part (second arranges) of the vertical wall of plastic box;

Fig. 8 is the sectional view along the VIII-VIII line among Fig. 7.

The specific embodiment

Be according to heat exchanger 1 of the present invention among Fig. 1, it has tube sheet 2, plastic box 3 and flat tube 4, and described flat tube is fixed among the opening 2a of tube sheet 2.Prior art as is known, tube sheet 2 has the groove 2b that rounds in the outside, and the fringe region 2c in the outside is attached thereto.Plastic box 3 has the U-shaped profile that does not show fully, and it comprises wall 3a, and described wall transition becomes the bigger flange 3b of wall thickness.The seal that flange 3b and figure do not show is inserted among the groove 2b of tube sheet 2, and clamps with tube sheet 2 in detailed crimping that shows of figure or clamping connection by deformable fringe region 2c.This case/tube sheet connects the prior art of mentioning in front and for example discloses among the DE-A 38 41 470.Flat tube 4 and the corrugated fin that do not show of figure become core body with opening (can only see the part of tube sheet 2 in the tube sheet) brazing filler metal on the tube sheet.Plastic box (wherein can only see the part of case 3 again) is placed on the soldering core body and clamps.

Fig. 2 is the partial enlarged drawing X of Fig. 1, i.e. the wall 3a of plastic box 3 and the transition region between the flange 3b, wherein, transition region is formed by step 5, and the inner edge 3d of wall 3a with respect to the inner edge 3e of flange 3b to intrinsic displacement wall thickness roughly.That is to say that plastic box 3 obtains so-called indentation by step 5.In step 5 zones, reinforcement 6 in the disposed inboard of case 3, its inner edge 6a aligns with the inner edge 3d of tank wall 3a.Reinforcement 6 has just filled up the obtuse angle of step 5 like this, and extends into the zone of flange 3b always.By this layout of reinforcement 6, promptly the zone of top load is strengthened case be subjected to more owing to internal pressure in step 5 zones.Heat exchanger 1 is preferably as charger-air cooler, the loading of the compressing charge air that is approximately 2bar (following pressure also can increase) of therefore being under pressure, just be under the very big stress in the zone on the flange in the plastic box like this, and just will offset this stress by the wall thickness that reinforcement according to the present invention need not strengthen case 3, that is to say, can significantly not increase the weight of case 3.

Fig. 3 is the stereogram of the folding corner region of plastic box 7, be included in vertical wall 7b inboard according to reinforcement 8 of the present invention.Case 7 has in the drawings that show, that do not round fully rectangular flange 7a, is arranging corrugated transition region 9 on it, as previously mentioned DE-A 38 41 470 described-therefore, this open file is adopted as the application's disclosure all sidedly.The tube sheet that do not show of figure and the connection between the case 7 are identical with form of implementation in the above-mentioned open file.Because the wavy shaped configuration of transition region 9 has produced depression 10 and protuberance 11 in the inboard of case 7.In first form of implementation, reinforcement 8 is arranged on the depression 10.

Be second kind of form of implementation that reinforcement 12 is arranged in plastic box 13 among Fig. 4, described case has corrugated transition region 9 equally, and is identical with transition region 9 among described Fig. 3 before.Therefore, formed depression 10 and protuberance 11 equally in the inboard of case 13, they have formed the waveform profile of wall.Here, reinforcement 12 is arranged in protuberance 11 zones, that is to say on the ledge of chamber interior wall, and is arranged between two depressions 10.With regard to this respect, the length of the reinforcement 12 here is greater than the embodiment shown in Fig. 3.In two embodiment, promptly on reinforcement 8 and reinforcement 11, its muscle surface (identical with the surface 6 among Fig. 2) is parallel to each other respectively, and wherein, these surfaces are approximately perpendicular to imaginary tube sheet plane or by the formed plane of flange 7a of rounding.This means that the core that figure does not show can be so-called stripping direction pulling along a direction in the manufacture process of plastic box 3,7,13.The layout and the structure of reinforcement 6,8,12 do not require the increase slide block, thereby existing mold are made amendment just can realize.

Among Fig. 5 another view of the embodiment among Fig. 3, i.e. the view of the intercepting of vertical wall 7b of plastic box 7 part, it comprises flange 7a.On flange 7a, arranging corrugated transition region 9.Vertically wall 7b strengthens by horizontal bar 7c in its outside.

Fig. 6 is that promptly flange 7a is passed in the cross section along the sectional view of the VI-VI line among Fig. 5.In the inboard of vertical wall 7b, depression 10 and protuberance 11, i.e. trough and crest have been formed in corrugated transition region 9 (see figure 5)s.Between two protuberances 11, arranging respectively vertically to extend into inner reinforcement 8, promptly-as shown in Figure 3-on depression 10.Reinforcement 8 inwardly extends to line 7d always, and this line has formed the in-profile of vertical wall 7b.Aspect this, reinforcement 8 aligns with inwall 7d, has guaranteed pressure drop still less in this way.In addition, the spacing of reinforcement 8 equals the spacing of the flat tube that figure do not show.Reinforcement 8 also is perpendicular to the diagram plane, therefore is easy to the main core demoulding with case.

Fig. 7 is the intercepting view partly of the sidewall 13a (see figure 4) of case 13, and it comprises waveform profile 9.

Fig. 8 is along the VIII-VIII line among Fig. 7 and passes the sectional view of the flange of case 13.Form depression 10 and protuberance 11 in the inboard by waveform profile 9, reinforcement 12 (see figure 4)s be arranged in they above.The vertical reinforcement 12 that inwardly stretches into extends to limit 13b, and it is equivalent to the inner edge on vertical wall 13a (perpendicular to the diagram plane).Like this, reinforcement 12 can not crossed the inner chamber that vertical wall 13a enters into case, therefore the pressure drop that yet can not strengthen flow media such as pressurized air or cooling fluid.

Claims

1. heat exchanger, has a soldering core body, this heat exchanger is by pipe (4), fin and at least one tube sheet (2) are formed, also comprise a case of forming by plastics (3), described case (3) has on the cross section approximate wall (3a) that takes the shape of the letter U and the flange (3b) that rounds, and by flange (3b) and tube sheet (2) mechanical connection, it is characterized in that, inboard in case (3), transition region at flange (3b) and wall (3a) is being arranged reinforcement (6), described pipe is a pipe, elliptical tube or flat tube, be arranged to single-row or multiple row, and be inserted at least one tube sheet (2), and be arranged on the described wall (3a) of plastic box (3) with certain interval between the reinforcement (6), described interval equals to manage distance.

2. heat exchanger according to claim 1 is characterized in that, transition region has one towards step inside, that round (5).

3. heat exchanger according to claim 1 and 2 is characterized in that, reinforcement (6) has inner edge (6a), and described inner edge (6a) aligns with the inwall (3d) of described wall (3a).

4. heat exchanger according to claim 1 and 2 is characterized in that, reinforcement (6) is arranged in the height place of pipe (4).

5. heat exchanger according to claim 3 is characterized in that, reinforcement (6) is arranged in the height place of pipe (4).

6. heat exchanger according to claim 1 and 2 is characterized in that, reinforcement (6) is arranged between the pipe (4).

7. heat exchanger according to claim 3 is characterized in that, reinforcement (6) is arranged between the pipe (4).

8. heat exchanger according to claim 1 and 2 is characterized in that, transition region is a waveform, and have depression (10) and a protuberance (11) in the inboard, and having recessed zone in the outside of plastic box (7,13), the part of tube sheet then snaps onto to form fit described recessed zone.

9. heat exchanger according to claim 3 is characterized in that, transition region (9) is a waveform, and have depression (10) and a protuberance (11) in the inboard, and having recessed zone in the outside of plastic box (7,13), the part of tube sheet then snaps onto to form fit described recessed zone.

10. heat exchanger according to claim 8 is characterized in that, reinforcement (8) is arranged on the depression (10).

11. heat exchanger according to claim 9 is characterized in that, reinforcement (8) is arranged on the depression (10).

12. heat exchanger according to claim 8 is characterized in that, reinforcement (12) is arranged in the zone of protuberance (11), and is arranged between the depression (10).

13. heat exchanger according to claim 9 is characterized in that, reinforcement (12) is arranged in the zone of protuberance (11), and is arranged between the depression (10).

14. heat exchanger according to claim 1 and 2 is characterized in that, reinforcement (6,8,12) has the parallel muscle surface of stripping direction with case (3,7,13).

15. heat exchanger according to claim 3 is characterized in that, reinforcement (6,8,12) has the parallel muscle surface of stripping direction with case (3,7,13).

16. heat exchanger according to claim 4 is characterized in that, reinforcement (6,8,12) has the parallel muscle surface of stripping direction with case (3,7,13).

17. heat exchanger according to claim 5 is characterized in that, reinforcement (6,8,12) has the parallel muscle surface of stripping direction with case (3,7,13).

18. heat exchanger according to claim 6 is characterized in that, reinforcement (6,8,12) has the parallel muscle surface of stripping direction with case (3,7,13).

19. heat exchanger according to claim 7 is characterized in that, reinforcement (6,8,12) has the parallel muscle surface of stripping direction with case (3,7,13).

20. heat exchanger according to claim 8 is characterized in that, reinforcement (6,8,12) has the parallel muscle surface of stripping direction with case (3,7,13).

21. heat exchanger according to claim 9 is characterized in that, reinforcement (6,8,12) has the parallel muscle surface of stripping direction with case (3,7,13).

22. heat exchanger according to claim 10 is characterized in that, reinforcement (6,8,12) has the parallel muscle surface of stripping direction with case (3,7,13).

23. heat exchanger according to claim 11 is characterized in that, reinforcement (6,8,12) has the parallel muscle surface of stripping direction with case (3,7,13).

24. heat exchanger according to claim 12 is characterized in that, reinforcement (6,8,12) has the parallel muscle surface of stripping direction with case (3,7,13).

25. heat exchanger according to claim 13 is characterized in that, reinforcement (6,8,12) has the parallel muscle surface of stripping direction with case (3,7,13).