CN103959002B - There is the heat exchanger of end seal for blocking air bypass flow - Google Patents

Abstract

A kind of heat exchanger has multiple spaced apart plate pair, and each of which plate is to limiting the flow channel flowing for first fluid.One or more fin is by the flowing to being thermally coupled and be clipped in the middle for second fluid of the described spaced apart plate.Also setting up fluid manifold, this fluid manifold is fluidly coupled to the flow channel of spaced apart plate pair.Described heat exchanger have by the most the plurality of spaced apart plate to and one or more fin limit before and side.Further, bypass sealing member and a side in described side or a described the most complementary and side being connected to engaging in described side or described above to be blocked in described heat exchanger and for receiving the gap between the shell of described heat exchanger.Also disclosing a kind of heat exchanger assemblies, this heat exchanger assemblies has disclosed heat exchanger.

Description

There is the heat exchanger of end seal for blocking air bypass flow

Technical field

This specification relates to a kind of heat exchanger with air by-pass sealing member, and one has this heat exchanger and is somebody's turn to do The heat exchanger assemblies of sealing member.

Background technology

Charger-air cooler heat exchanger is used for along being supplied to combustion engine known in this technical field being Pressurized air flow path install.This pressurized air typically comprises surrounding air, and this surrounding air is by such as The equipment of supercharger or turbocharger compresses the air of the quality stream to provide increase to electromotor to allow engine combustion The fuel of the amount increased and therefore power and performance with increase level operate.

But, the compression of surrounding air also improves air themperature and makes pressurized air have relatively high temperature, and this is relative If high temperature does not reduces, undesirably increase total engine thermal load.Therefore, it is intended that at supply pressurized air to sending out Cool down pressurized air before motivation, and charger-air cooler is set for this purpose.

Generally, charger-air cooler is by multiple weight calorimetric transmitting element structures of thermally-conductive materials (such as copper or aluminum) Making, this heat transfer element is formed for providing the heat transfer surface of extension and limiting the flow path for pressurized air, This pressurized air becomes heat transfer relation with suitable coolant (such as surrounding air or liquid coolant).More specifically, supercharging Air cooler can be made the pressurized air flowed on this fin by the net structure of finned pipe and be flow through the cold of this pipe But agent association, causes sufficient heat transfer for some engine system applications.Alternatively, when the heat transfer needing raising During ability, charger-air cooler is cooperated to define heat exchanger by a series of plates stacked and fin configuration, this plate and fin Core, this core, heat exchanger has the flow path of separation so that pressurized air and coolant lead to close thermal transitive relation each other Cross.But, in either case, charger-air cooler desirably to be mounted directly to, in the inlet manifold of electromotor, wherein wear Cross the pressurized air of inlet manifold just before being sucked by electromotor by flowing through charger-air cooler and temperature reduces.

Current heat exchanger product can allow air by-pass, and through the end of fin, (this plate lap joint extends beyond The end of fin, or extend beyond liquid fluid manifold, leave unacceptable air bypass passage), or need other brazing On parts to compensate by blocking these regions, this adds sizable cost and/or can for some chiller configuration Can be impossible.In order to solve the problems referred to above, wide elastomeric seal (such as binding agent connect or the sealing of mechanical capture Part) part for pipe guide can be provided as to minimize this bypass.But these sealing member materials are expensive, add Add assembly complexity, and there is durability restriction.Another compensates replacement scheme and by oversized dimensions or adds much higher Fin density (pressure drop loss) overdesign heat exchanger so that even if having bypass flow also maintain performance, this may There is other shortcoming.

Needing a kind of heat exchanger and a kind of heat exchanger assemblies in this technical field, wherein this heat exchanger has close Sealing, this sealing member can reduce or prevent air from bypassing at the end perimeter of heat exchanger.

Summary of the invention

In one aspect, this disclosure one heat exchanger, this heat exchanger comprises:

Multiple spaced apart plates pair, each of which plate is to limiting the flow channel flowing for first fluid；

One or more fin, one or more fin by described spaced apart plate to being thermally coupled and being clipped in Between for the flowing of second fluid；

Fluid manifold, described fluid manifold is fluidly coupled to the flow channel of described spaced apart plate pair；

Described heat exchanger have by the most the plurality of spaced apart plate to and one or more fin limit Before and side；With

Bypass sealing member, described bypass sealing member and a side in described side or described above complementation and engage A side being connected in described side or described before, in order to be blocked in described heat exchanger and for receiving described heat Gap between the shell of exchanger.

In another aspect, open a kind of heat exchanger assemblies, this heat exchanger assemblies comprises: shell, and described shell has Have and for receiving the chamber of the open communication of heat exchanger；With heat exchanger disclosed herein.

Accompanying drawing explanation

Now by by the way of example with reference to accompanying drawing, this accompanying drawing illustrates the exemplary embodiments of the application, and wherein:

Fig. 1 illustrates the inlet manifold for receiving the heat exchanger according to this specification；

Fig. 2 (a) illustrates the heat friendship with the superincumbent bypass sealing member of clamping of the second embodiment according to this specification Parallel operation；

Fig. 2 (b) and 2 (c) illustrate the folder of the replacement of the heat exchanger that may be connected to the second embodiment according to this specification Hold superincumbent bypass sealing member；

Fig. 2 (d) illustrates that having of the second embodiment according to this specification in inlet manifold clamps superincumbent bypass The sectional view of the heat exchanger of sealing member；

Fig. 2 (e) illustrates the top view of the heat exchanger in the inlet manifold of the second embodiment according to this specification；

Fig. 3 (a) illustrates the heat friendship with the superincumbent bypass sealing member of clamping of an embodiment according to this specification The schematic elevational view of parallel operation；

Fig. 3 (b) illustrates the top plan view of the heat exchanger of Fig. 3 (a)；

Fig. 4 illustrates that the superincumbent bypass of the clamping of according to this specification embodiment for heat exchanger seals Part；

Fig. 5 is the perspective view of inlet manifold, has otch in this manifold, and this otch is used for receiving being present in heat exchanger On bypass sealing member；

Fig. 6 (a) illustrates the heat friendship with the superincumbent bypass sealing member of clamping of the 3rd embodiment according to this specification Parallel operation；

Fig. 6 (b) illustrates that the superincumbent bypass of clamping of the heat exchanger for the 3rd embodiment according to this specification is close The expanded view of sealing；

Fig. 7 (a)-7 (d) illustrates that having for clamping superincumbent bypass of the 4th embodiment according to this specification is close Sealing is clamped in the view of the end sections of the heat exchanger of the keeper of appropriate location；

Fig. 8 illustrates the heat exchange with brazing superincumbent bypass sealing member of the 5th embodiment according to this specification Device；

Fig. 9 illustrates the expansion of the end sections of the heat exchanger as shown in Figure 8 with the superincumbent sealing member of brazing Figure；

Figure 10 illustrates the embodiment of the sealing member for the heat exchanger shown in Fig. 8；And

Figure 11 illustrates another view of the sealing member shown in Figure 10.

Similar reference can be used for indicating similar parts in various figures.

Detailed description of the invention

Subject specification relates generally to heat exchanger (2), such as charger-air cooler, this charger-air cooler is used for subtracting The temperature of the little air being flowed into combustion engine.

Heat exchanger (2) is typically placed in inlet manifold (4), and as shown in fig. 1, this inlet manifold has chamber (6), This chamber is used for placing heat exchanger (2) by opening (8).Enter air and enter manifold (4) and at quilt by air inlet (10) Heat exchanger (2) is passed before guiding to combustion engine.

It is not particularly limited according to the heat exchanger (2) that the disclosure uses.In an exemplary embodiments, such as institute in Fig. 2 a Showing, heat exchanger (2) has multiple spaced apart plate to (12), and each of which plate is (the coldest to limiting for first fluid But agent) the flow channel of flowing.Also set up have entrance (16) and outlet (18) fluid manifold (14) (more clearly see figure 6)；Wherein fluid manifold (14) be connected to each plate to the flow channel of (12) with allow fluid (such as coolant) pass through into Mouth (16) enters, and through the plate flow channel to (12), and is left by outlet (18).Fluid manifold (14) and entrance (16) and outlet (18) position be not particularly limited.In one embodiment, as shown in Fig. 2 (a), entrance and exit is permissible It is present on top board (20).And in another embodiment, as shown in Figure 6, entrance (16) and outlet (18) may reside in heat On the side (22) of exchanger (2).

Each spaced apart plate is provided with fin (24) to the space between (12).Fin (24) can provide second Body flow channel, the air that this second fluid enters typically by air inlet (10)；And wherein second flow path is vertical In the flow channel (12) limited by plate to allow heat exchange.

Heat exchanger disclosed herein (2) have before (26) make when heat exchanger (2) is arranged in inlet manifold (4) Time middle, before this, (26) are disposed in air inlet (10) and allow second fluid (air) to wear before entering combustion engine Cross fin (24) and stand heat exchange.

Additionally, heat exchanger disclosed herein (2) is provided with side (22).In embodiment shown in Fig. 6 a, should One of side is formed by fluid manifold (14), and other side is by plate end shape together with the end of fin (24) to (12) Become.

Heat exchanger disclosed herein (2) is also equipped with bypassing sealing member (28), this bypass sealing member and heat exchanger Before a side complementation in (26) or side (22).Complementary bypass sealing member (28) is connected to the side of heat exchanger (22) side in or above (26) are likely to be present in the inner side such as inlet manifold of heat exchanger (2) and shell with blocking (4) gap between.This can help prevent air bypass along the side (22) of heat exchanger (2) and improve the total of heat exchange Efficiency.

In the embodiment illustrated in figures 2 and 4, use two bypass sealing member (28), each sealing member (28) and it The side (22) of the heat exchanger (2) being connected thereto is complementary.Sealing member (28) is provided with heat exchanger composition surface (30) and close Front cover (32).Heat exchanger composition surface (30) on profile with side (22) or above (26) complementary, it engages this side or front Any one of face.In one embodiment, heat exchanger composition surface (30) are provided with recess (34) (Fig. 3 and 4) so that work as sealing When part engagement sides (22) or above (26), plate the groove formed (12) and fin (24) is blocked.But, sealing surface (32) any gap being blocked between the end of heat exchanger (2) and manifold (4) is contributed to.

The accurate shape and size of the sealing member (28) used according to disclosed heat exchanger (2) are not particularly limited. In an embodiment as shown in Figure 2, the sealing surface (32) of bypass sealing member (28) provides flat surface.And such as Fig. 3 With in another embodiment shown in 4, sealing surface (32) is to tilt；At it from top board (20) towards the bottom of heat exchanger time It is tapered and becomes narrow.Such as, in one embodiment, sealing surface (32) is with 1-2 ° of inclination.This angle can aid in Ensure that sealing member (28) need not be compressed to heat exchanger (2) and is almost fully inserted in manifold (4), and therefore help peace Dress.

Similarly, the shape and size of heat exchanger composition surface (30) are not particularly limited, and will depend specifically on Particular application and sealing member (28) are applied to heat exchanger thereon.In the embodiment illustrated in figures 3 and 4, it is present in heat Recess (34) on exchanger composition surface (30) can be deeper, and in other situation, depends on particular application and heat used Exchanger, recess (34) can be shallow.

In an embodiment as shown in Figure 5, manifold (4) is provided with recess (36), this recess and bypass sealing member (28) sealing surface (32) is complementary with the gap between blocking heat-exchanger (2) and manifold (4).In the 5 embodiment of figure 5, recess (36) it is taper, this sealing that can aid in heat exchanger (2) in manifold (4) and installation.Additionally, recess (36) is also Can be by resisting moving and assist in keeping the position of heat exchanger (2) in manifold.

According in the additional embodiment of this description, heat exchanger (2) has bypass sealing member (28), this bypass sealing member It is arranged in before heat exchanger (2) on (26), such as, as shown in Fig. 6-9.In such an embodiment, and as it was previously stated, Sealing member (28) is additionally provided with sealing surface (32) and heat exchanger composition surface (30), and the profile on this heat exchanger composition surface connects with it Close (26) complementation before heat exchanger thereon (2).Additionally, sealing member (28) may reside in proximity thermal exchanger (2) Side (22) before edge (38).In the embodiment illustrated in figs. 6-9, sealing member (28) is present in edge (38), This edge (38) is neighbouring has the plate side (22) to (12) and the end of fin (24).It is to be appreciated, however, that the second sealing member (28) opposed end of (26) before heat exchanger (2) can also be arranged in.

Manifold (4) can be produced or suitably manufacture with receiving heat-exchanger (2), and wherein sealing member (28) is present in heat Before exchanger (2) (26).Recess (36) as above similar can also be provided for receiving be present in before (26) On sealing member (28).

The method being used for being connected to sealing member (28) heat exchanger (2) is not especially and can to depend specifically on Particular application.In one embodiment, sealing member (28) is frictionally attached to heat exchanger.In another embodiment, sealing member (28) it is clamped in appropriate location and is provided with the device for sealing member (28) being clamped to heat exchanger (2), in Fig. 6 Shown in.In additional embodiment, heat exchanger can be provided with the protuberance (40) for keeping sealing member, as shown in Figure 7. Protuberance (40) and sealing member (28) can be provided with other device, and such as arm and gap are to be inserted into this gap by this arm In, thus sealing member (28) is locked in appropriate location.Alternatively, sealing member (28) can also be bolted to heat exchanger (2) on, as shown in figs. 8-11.In another additional embodiment, sealing member (28) may be brazed on heat exchanger (2).This Outward, the combination of method may be used for being arranged on heat exchanger (2) sealing member (28).

The building material of sealing member (28) is not particularly limited and can depend on particularly applying.An embodiment In, such as and be not limited to, sealing member (28) is made up of plastics (such as thermoplastic).And in another embodiment, sealing member (28) can be made up to allow sealing member (28) to be brazed into heat exchanger (2) of the material similar with heat exchanger (2).

According in the another aspect of this description, it is provided that a kind of heat exchanger assemblies, this heat exchanger assemblies comprises shell And heat exchanger as described herein (2) (4).Whole assembly can be set and be mounted in electromotor to use. Alternatively, heat exchanger (2) and manifold (4) can be disposed separately.

May be made that some change and the amendment of the embodiment of description.Therefore, above-described embodiment is considered as illustrative And be not restrictive.

Claims (12)

1. a heat exchanger, described heat exchanger includes:

Multiple spaced apart plates pair, each of which plate is to limiting the flow channel flowing for first fluid；

One or more fin, one or more fin by described spaced apart plate to be thermally coupled and be clipped in the middle with Flowing for second fluid；

Fluid manifold, described fluid manifold is fluidly coupled to the flow channel of described spaced apart plate pair；

Described heat exchanger have by the most the plurality of spaced apart plate to and before one or more fin limit Face and side；With

Bypass sealing member, described bypass sealing member is above complementary with described, described bypass seal arrangement before described, adjacent The edge of a side in the side of nearly described heat exchanger, and it is connected to before described with engaging, in order to it is blocked in Described heat exchanger and be used for receiving the gap between the shell of described heat exchanger.

Heat exchanger the most according to claim 1, wherein, described bypass sealing member has heat exchanger composition surface and sealing Face, described heat exchanger composition surface has recess, and described recess is used for receiving the end of the plurality of spaced apart plate pair.

Heat exchanger the most according to claim 2, wherein, described sealing surface allow described heat exchanger be arranged on described outside In shell.

4. according to the heat exchanger described in any one in Claim 1-3, also including protuberance, described protuberance is used for will Described bypass sealing member is connected to described heat exchanger.

5. according to the heat exchanger described in any one in Claim 1-3, wherein, described bypass sealing member is clamped in institute State on heat exchanger.

6. according to the heat exchanger described in any one in Claim 1-3, wherein, described bypass sealing member is brazed or spiral shell Tether and be connected on described heat exchanger, or be brazed and be bolted on described heat exchanger.

7. a heat exchanger assemblies, described heat exchanger assemblies includes:

Shell, described shell has the chamber with open communication；With

Heat exchanger, described heat exchanger can be received within the chamber of described shell, and described heat exchanger includes:

Multiple spaced apart plates pair, each of which plate is to limiting the flow channel flowing for first fluid；

One or more fin, one or more fin by described spaced apart plate to be thermally coupled and be clipped in the middle with Flowing for second fluid；

Fluid manifold, described fluid manifold is fluidly coupled to the flow channel of described spaced apart plate pair；

Described heat exchanger have by the most the plurality of spaced apart plate to and before one or more fin limit Face and side；With

Bypass sealing member, described bypass sealing member is above complementary with described, described bypass seal arrangement before described, adjacent The edge of a side in the side of nearly described heat exchanger, and it is connected to before described with engaging, in order to it is blocked in Gap between described heat exchanger and described shell.

Heat exchanger assemblies the most according to claim 7, wherein, described bypass sealing member have heat exchanger composition surface and Sealing surface, described heat exchanger composition surface has recess, and described recess is used for receiving the end of the plurality of spaced apart plate pair.

Heat exchanger assemblies the most according to claim 8, wherein, described sealing surface allows described heat exchanger to be arranged on institute State in shell.

10. according to the heat exchanger assemblies described in any one in claim 7 to 9, also including protuberance, described protuberance is used Described bypass sealing member is connected to described heat exchanger.

11. according to the heat exchanger assemblies described in any one in claim 7 to 9, and wherein, described bypass sealing member is held On described heat exchanger.

12. according to the heat exchanger assemblies described in any one in claim 7 to 9, and wherein, described bypass sealing member is brazed Or be bolted on described heat exchanger, or it be brazed and be bolted on described heat exchanger.