CN103270385B - Double-basis leaf fat chiller configuration - Google Patents

Abstract

Disclose a kind of for constructed of aluminium being joined to casting or the method for molded structure.In the process, installing surface and be limited on casting or molded structure, described surface has and is limited to multiple threaded socket therein.Constructed of aluminium is soldered to aluminum deck via backing plate.Panel has hole and by and making axle be bonded in socket to be fixed to surface through hole by bolt axle.Casting or molded structure can be plastics.Backing plate can be soldering clad aluminum, and panel can be non-clad aluminum.Described method can be used in producing oil cooler module, and wherein, constructed of aluminium is heat exchanger, and molded structure is plastics and has port, and panel has port and is bolted so that port sealing couples.

Description

Double-basis leaf fat chiller configuration

Technical field

The present invention relates to the field of a kind of machine.

Background technology

In machine manufacture field, and especially at least in car heat exchanger manufacture field, it is continually striving to the portion of alleviating Part weight.As a result, compared with steel, constructed of aluminium increasingly receives publicity.But, the intensity of aluminum reduces compared with steel, and at least In the structure auto industry that generally profit is bolted together, when constructing constructed of aluminium, widely used soldering can hinder employing Lightweight aluminium structure.

Summary of the invention

The present invention is a kind of for constructed of aluminium is joined to casting or the new method of molded structure according on the one hand providing. In the process, install surface be limited to casting or molded structure on, described installation surface have be limited to therein many Individual threaded socket.Via intermediate pads, constructed of aluminium is brazed to aluminum deck.Arranging bolt for each threaded socket, described bolt has There is enlarged head and the axle in the socket being screwed to arrange this bolt.Panel is arranged on described installation surface and has hole, institute State bolt and pass described hole, and panel is fixed to install surface by bolt head.

According to another aspect, surface is installed and can be limited on plastic construction.

Oil cooler module forms another aspect of the present invention, and includes: have casting or the mould installing surface System module, described installation surface has and is limited to multiple threaded socket therein；For each threaded socket, bolt is set, described Bolt has enlarged head and the axle in the socket being screwed to arrange this bolt；With aluminum submodule, described aluminum submodule bag Include aluminum deck and heat exchange elements.Aluminum deck is arranged on described installation surface and has hole, and axle passes described hole, and aluminum face Plate is fixed to install surface by bolt head.Heat exchange elements is soldered to panel.

According to another aspect, panel can have and is limited to reinforcement structure therein, and described reinforcement structure is selected from scrobicula Portion and rib and be arranged to resist bolt load stress.

According to another aspect, aluminum submodule can also include backing plate, and this backing plate is arranged in described panel and described heat is handed over Change between element and be soldered to described panel and described heat exchange elements.

According to another aspect, backing plate can be soldering clad aluminum and panel can be without clad aluminum.

According to another aspect, backing plate can have the through hole wherein limited, and each described hole is inserted with corresponding screw thread Seat alignment, and it is sized such that bolt is carried on panel and is partially received in the socket limited by the hole of backing plate In.

According to another aspect, heat exchange elements can include that multiple punching press aluminium sheet, described punching press aluminium sheet are arranged to be stacked Relation and by sealed with brazing, to form lamination, wherein defines:

Between multiple oil circuits and multiple coolant path, described oil circuit and described coolant path are arranged to be alternately stacked also Separate；With

Extending through many manifolds of lamination, described many manifolds include: a pair oil manifold, and described oil manifold is by oil Road is coupled to each other；With a pair coolant manifold, described coolant manifold is extended through lamination and is coupled to each other by oil circuit.

According to another aspect:

Casting or molding submodule can limit port；

Panel can have a part, described partially defined groove and the port connected with described groove；

The part limiting groove can define between which with backing plate and a passage connected in manifold；And

Panel can be bolted installation surface so that the port being limited in groove couples with the relation sealed To by casting or mould the port that submodule limits.

According to another aspect, panel can be harder aluminum, and backing plate can be softer aluminum.

According to another aspect, casting or molded structure can be plastic constructions.

According to another aspect, panel can have and is limited to reinforcement structure therein, and described reinforcement structure is selected from scrobicula Portion and rib, and be arranged to resist bolt load stress.

Form another aspect of the invention is a kind of equipment, and described equipment includes: have install surface casting or Person moulds submodule, and described installation surface has and is limited to multiple threaded socket therein；For each threaded socket, bolt is set, Described bolt has enlarged head and the axle in the socket being screwed to arrange this bolt；With aluminum submodule, described aluminum submodule Block includes aluminum deck and body.Aluminum deck is arranged on described installation surface and has hole, and axle passes described hole, and aluminum deck It is fixed to surface is installed by bolt head.Body is soldered to panel.

According to another aspect, aluminum submodule can also include that backing plate, described backing plate are arranged between panel and body And it is soldered to described panel and described body.

According to another aspect, backing plate can be soldering clad aluminum, and panel can be without clad aluminum.

According to another aspect, backing plate can have the hole limited within it, and each corresponding screw thread of described Kong Junyu is inserted Seat alignment, and it is sized such that bolt is carried on panel and is partially received in the socket limited by the hole of backing plate In.

According to another aspect, cast or mould submodule and can limit port；Panel can have define groove and The part of the port connected with groove；Limit the part of groove and backing plate can limit between part and the backing plate of described restriction groove and The passage of a connection in manifold；And panel can be fixed to install surface by bolt head so that is limited in groove Port is connected to by casting or mould the port that submodule is limited with the relation sealed.

According to another aspect, panel can be harder aluminum, and backing plate can be softer aluminum.

According to another aspect, casting or mould submodule can be plastics submodule.

According to another aspect, panel can have and is limited to reinforcement structure therein, and described reinforcement structure is selected from scrobicula Portion and rib, and be arranged to resist bolt load stress.

Referring to the drawings, other advantage, feature and the spy of the present invention when considering described in detail below and claims Property will become more apparent from, described accompanying drawing briefly described below.

Accompanying drawing explanation

Fig. 1 is the perspective view of the oil cooler module device of the exemplary embodiment according to the present invention；

Fig. 2 is the exploded view of the structure of Fig. 1；

Fig. 3 is the further decomposition view of a part for the structure of Fig. 2；

Fig. 4 is the decomposition view of a part for the structure of Fig. 3；

Fig. 5 is the perspective view of the structure irising out region 5 of Fig. 3；

Fig. 6 is the side view of the structure of Fig. 5；

Fig. 7 is the top view of the structure of Fig. 5；

Fig. 8 is the upward view of the structure of Fig. 5；

Fig. 9 is the top plan view of the structure represented by reference 46B in Fig. 4；

Figure 10 is the top plan view of the structure represented by reference 40 in Fig. 6；

Figure 11 is the top plan view of the structure represented by reference 42 in Fig. 6；

Figure 12 is the perspective view of the most visible structure；

Figure 12 A is the view of the alternate embodiment of the structure of Figure 12；

Figure 13 is the view obtained along the cross section 13-13 in Fig. 7；And

Figure 14 is the view obtained along the cross section 14-14 in Fig. 8.

Detailed description of the invention

Figure 1 illustrates the transmission oil cooler module 20 of the exemplary embodiment according to the present invention, it will be seen that Described transmission oil cooler module 20 includes plastics sub modular structure 22 and aluminum submodule 24.With reference to the decomposition in Fig. 2 View, it will be appreciated that module 20 includes multiple bolt 26.

As best seen in Figure 3, it will be seen that plastics submodule 22 defines installation surface 30 and recess 32, described installation Surface 30 have be limited to multiple threaded socket 34 therein and a pair oil port 36.Packing ring 37 is arranged in socket 34, and pads Circle 39 is arranged in oil port 36.

Aluminum submodule 24 includes oil cooler 38, backing plate 40, panel 42 and a pair coolant accessory 48A, 48B.

As it is shown in figure 5, oil cooler 38 is aluminum, and include heat exchange elements 44 and a pair end plate 46A, 46B.

Heat exchange elements 44 shown in Fig. 4 includes that the aluminium sheet 50 of multiple punching press, described aluminium sheet 50 are arranged to be stacked with And soldering, to form lamination.Heat exchange elements 44 is in United States Patent (USP) No.7, the general type described in 735,520, this patent Teaching be incorporated in the way of quoting at this.Define in stacked:

Multiple oil circuits 52 and multiple coolant path 54, described oil circuit 52 and described coolant path 54 are arranged to alternately Stacking is the most spaced apart；With

Many manifolds, described manifold extends through lamination, and described many manifolds include:

A pair oil manifold 56, described oil manifold 56 is coupled to each other by oil circuit 52；With

A pair coolant manifold 58, described coolant manifold 58 is coupled to each other by coolant path 54.

End plate 46A, 46B are punching press aluminium sheets, and described punching press aluminium sheet is arranged in the opposite ends of lamination also with stacked relation And it is soldered to described contrary end with sealing relationship.

A 46A in end plate has and is limited to single pipe 60 therein, described single pipe 60 and coolant manifold In a connection；Another end plate 46B has and is limited to three pipelines 62,64,66 therein, every pipeline and remaining manifold 58, the corresponding alignment in 56,56.

As shown best in figure 10, backing plate 40: be relatively soft soldering covering 1.88mm aluminum sheet, there are 3003 alloy core Portion and AA4045 covering；It is soldered to heat exchange elements 44；There is the every pipeline 64,62,66 in another end plate 46B also And thru passages 68A, 68B, the 68C communicated therewith；And have and be limited to multiple hole 70 therein, each described hole 70 all with A corresponding alignment in threaded socket 34.

As shown in FIG 11-12, panel 42:

Being relatively hard 2.5mm5052 aluminum sheet, described aluminum sheet is soldered to backing plate 40；

Define that port 72, described port 72 are directed at and via the pipeline in backing plate 40 with in oil manifold 56 68A connects with described oil manifold 56 with the pipeline 64 in end plate 46B, described port 72 also with in the port 36 in plastic construction 22 A connection；

Having the part 74 limiting groove, described part 74 combines with backing plate 40 and defines passage, described passage warp Connected with another root in oil manifold 56 with the pipeline 68C in backing plate 40 by the pipeline 66 in another end plate；

There is port 76, described port 76 extend from passage and with the port 36 of plastic construction 22 another even Logical；

Having the otch 78 limited within it, described otch is directed at thru passages 68B and has bigger diameter； And

Having the multiple holes 80 limited within it, each described hole 80 is all directed at the respective aperture 70 in backing plate, but tool There is less diameter.

The 46A that in coolant accessory 48A one is soldered in end plate, in order to via single pipe 60 and coolant A connection in manifold；Another in coolant accessory 48B is soldered to backing plate 40, in order to via thru passages 68B and pipe Road 62 connects with another root in coolant manifold.Coolant accessory 48B extends through the otch 78 panel 42 from backing plate 40 With the recess 32 in plastic construction 22.

With reference to Fig. 1-3, being provided with a bolt 26 for each threaded socket 34, described bolt 26 has axle 78 and enlarged footing Portion 79.Axle 78 is screwed to be provided with in the socket 34 of bolt, and enlarged head 79 keeps panel 42 against plastic construction 22 so that logical Cross packing ring 39 between port 72,76 and port 36,36, produce sealing.

The diameter of bolt head 79 is more than the diameter in hole 80, but is less than the diameter in hole 70 so that hole 70 defines socket, spiral shell Bolt head 79 is partially received in described socket.Packing ring 37 is relatively hard and is provided between submodule 22 and submodule 24 Stable seat portion.

The advantage of structure is:

Manufacture the advantage of lower cost of module；

Bolt 36 is carried on without in clad aluminum, i.e. on panel 42, compared with the clad aluminum of backing plate 40, and described panel 42 Relatively harder and be difficult to creep；This tends to reducing the exiting of vibration induction of bolt；

Its relative lightweight；

By the hardness provided by groove, it is relatively rigid；

It uses traditional soft pipe connections to allow to be connected to coolant circuit.

Figure 12 A shows the flexible program to foregoing.Here, panel 42 is provided with multiple ribs 99.These ribs 99 by the geometries of their own and strengthen further by panel 42 is soldered to backing plate 40, it is provided that panel 42 Local strengthening, in order to solve to cause the bolt load of deformation.The compound advantage of this structure be these ribs can convenient and It is economically formed in the panel of relative thin.

But, it is shown in which and describes two exemplary embodiments of the present invention, it is to be appreciated that multiple modification side Case is possible.

Such as, further it is shown that nested disk type heat exchanger, but this is optional.The present invention can be applied to other type Heat exchanger, and it is true that be also applied to the structure in addition to heat exchanger.

It addition, though it is shown that the concrete arrangement of ribs, it will be obvious that port and the quantity of bolt and position Put different in the other embodiments of module, and this by cause rib for shape and arrangement to strain Change.

And, although specifying aluminum, but the present invention can apply other brazing metal.

It addition, notwithstanding plastic construction, but the method can be applied to be fixed to constructed of aluminium any screwing Structure, and can advantageously be used together with such parts, described parts are provided with screw thread as producing this parts The part of process, construct including, but not limited to being processed by injection molding, casting, thixotroping molding and semi-solid casting Parts.These method construct plastics and metal parts can be passed through, and described plastics and metal parts are all included in this In the range of invention.Therefore, in the specification and the appended claims, " cast or mould " should be understood to comprise all Such parts, described parts can be to include any casting that semi-solid casting processes or mold treatment casts or mould System.

And, although it is referred to specific thicknesses and alloy, but these specific thicknesses and alloy can change certainly, example As, panel can be made up of 6061 and 6063 alloys.Covering can be AA4343 alloy.

And, although the cooler illustrated includes that end plate, the geometry of described end plate are different from the geometry of the plate of lamination Structure, but this is not to be strict with: even if it practice, in the structure illustrated, it is also possible to omit the end being soldered to backing plate Plate.

Although it addition, oil cooler is appointed as actuating device oil cooler, but the present invention can be applied to for other The oil cooler of purpose.

And, although description is referred to rigidity and is derived from the part limiting groove, but this is not can to provide rigidity only One method: shallow recess or rib can also be formed on panel and/or backing plate.

Therefore, the present invention should be understood to only limited by appended claims and carry out specific aim explanation.

Claims (20)

1. a module, including:

Have install surface casting or molding submodule, described installation surface have be limited to multiple screw thread therein insert Seat；

The bolt arranged for each described threaded socket, described bolt has enlarged head and is screwed to arrange the socket of this bolt In axle；With

Aluminum submodule, described aluminum submodule includes aluminum deck and heat exchange elements,

Described aluminum deck is arranged on described installation surface, and described aluminum deck has hole, and described axle passes described hole, and described Aluminum deck is fixed to described installation surface by bolt head；

Described heat exchange elements is soldered to described aluminum deck；And

Described casting or molding submodule, described bolt and described aluminum submodule collectively define an oil cooler mould Block.

Module the most according to claim 1, wherein, described aluminum submodule also includes backing plate, and this backing plate is arranged in described Between aluminum deck and described heat exchange elements and be soldered to described aluminum deck and described heat exchange elements.

Module the most according to claim 2, wherein, described backing plate is soldering clad aluminum and described aluminum deck is without covering Aluminum.

Module the most according to claim 2, wherein, described aluminum deck has and is limited to reinforcement structure therein, described in add Strong structure is selected from shallow recess and rib, and is arranged to resist bolt load stress.

Module the most according to claim 3, wherein, described backing plate has and limits hole within it, described backing plate each The corresponding threaded socket of described Kong Junyu be directed at, and be sized such that described bolt be carried on described aluminum deck and It is partially received in the socket limited by the described hole of described backing plate.

Module the most according to claim 3, wherein, described heat exchange elements includes the aluminium sheet of multiple punching press, described aluminium sheet It is arranged to stacked relation and by sealed with brazing to form lamination, defines in described lamination:

Multiple oil circuits and multiple coolant path, described oil circuit and described coolant path are arranged to be alternately stacked and spaced apart； With

Many manifolds, described many manifolds extend through described lamination, described many manifolds include a pair oil manifold and a pair cold But agent manifold, described oil manifold is coupled to each other by described oil circuit, and described coolant manifold extends through described lamination and leads to Cross described oil circuit to be coupled to each other.

Module the most according to claim 6, wherein:

Described casting or molding submodule define Single port；

Described aluminum deck has a part, described partially defined groove and the port connected with described groove；

Passage is defined between the part of groove and described backing plate, described passage and a company in described many manifolds defining Logical；And

Described aluminum deck is bolted to described installation surface described in passing through so that the port being limited in described groove is with sealing Relation is connected to the port limited by described casting or molding submodule.

Module the most according to claim 5, wherein, described aluminum deck is harder aluminum, and described backing plate is softer aluminum.

Module the most according to claim 1, wherein, described casting or molded structure are plastic constructions.

10. an equipment, described equipment includes:

Have install surface casting or molding submodule, described installation surface have be limited to multiple screw thread therein insert Seat；

The bolt arranged for each threaded socket, during described bolt has enlarged head and is screwed to arrange the socket of this bolt Axle；With

Aluminum submodule, described aluminum submodule includes aluminum deck and body,

Described aluminum deck is arranged on described installation surface, and described aluminum deck has hole, and described axle passes described hole, and described Aluminum deck is fixed to described installation surface by bolt head；And

Described body is soldered to described aluminum deck.

11. equipment according to claim 10, wherein, described aluminum submodule also includes that backing plate, described backing plate are arranged in Between described aluminum deck and described body and be soldered to described aluminum deck and described body.

12. equipment according to claim 11, wherein, described backing plate is soldering clad aluminum, and described aluminum deck is without bag Layer aluminum.

13. equipment according to claim 12, wherein, described aluminum deck has and is limited to reinforcement structure therein, described Reinforcement structure is selected from shallow recess and rib, and is arranged to resist bolt load stress.

14. equipment according to claim 12, wherein, described backing plate has and limits hole within it, described backing plate every The individual corresponding threaded socket of described Kong Junyu is directed at, and is sized such that described bolt is carried on described aluminum deck And be partially received in the socket limited by the described hole of described backing plate.

15. equipment according to claim 12, wherein:

Described casting or molding submodule define port；

Described aluminum deck has a part, described partially defined groove and the port connected with described groove；

Defining passage between the part of groove and described backing plate defining, described passage connects with in manifold；And

Described aluminum deck is fixed to described installation surface by described bolt head so that the port being limited in described groove is to seal Relation be connected to by described casting or the molding port that limits of submodule.

16. equipment according to claim 12, wherein, described aluminum deck is harder aluminum, and described backing plate is softer Aluminum.

17. equipment according to claim 10, wherein, described casting or molding submodule are plastics submodules.

18., for constructed of aluminium is joined to casting or the method for molded structure, said method comprising the steps of:

Defining installation surface in described casting or molded structure, described installation surface has and is limited to multiple spiral shell therein Stricture of vagina socket；

Via intermediate pads, described constructed of aluminium being brazed to aluminum deck, described aluminum deck has hole；With

By making the axle of described bolt through described hole and be bonded in described threaded socket described axle by described aluminum Panel is fixed to described installation surface.

19. methods according to claim 18, wherein, described installation surface is limited on plastic construction.

20. methods according to claim 18, wherein, described aluminum deck has and is limited to reinforcement structure therein, described Reinforcement structure is selected from shallow recess and rib, and is arranged to resist bolt load stress.