CN108692593A - Heat exchanger assemblies - Google Patents

Abstract

A kind of heat exchanger assemblies include manifold, and the manifold has:First side plate is arranged to second side plate opposite with first side plate, first panel, is arranged to the second panel opposite with the first panel, substrate and multiple cooling elements.Extend between the first panel and each leisure of the second panel first side plate, second side plate and the substrate.The substrate extends between first side plate, second side plate, the first panel and the proximal end of the second panel.The multiple cooling element extends between the first panel and the second panel.

Description

Heat exchanger assemblies

Background technology

Exemplary implementation scheme is related to heat exchanger technology field.

Heat exchanger may include that multiple fluid passages, the multiple fluid passage include that cold fluid passageway and hot fluid are logical Road.Heat exchanger can be used to that at least one of fluid passage is heated or cooled.Heat exchanger further includes that aggregation comes from heat exchange The manifold and collector of multiple layers of fluid stream but not the whole heat exchange performance of raising in device.

Invention content

Disclose a kind of heat exchanger assemblies.Heat exchanger assemblies include manifold and first heat exchanger.Manifold has the Side plate, the second side plate, substrate, first panel, second panel and multiple cooling elements.Second side plate is arranged to and the first side plate Relatively.Substrate extends between the first side plate and the proximal end of the second side plate.First panel is in the first side plate, the second side plate and substrate Between extend.Second panel is arranged to opposite with first panel and extends between the first side plate, the second side plate and substrate.It is more A cooling element extends between first panel and second panel.First heat exchanger is operably connected to the first side plate.

Also disclose a kind of heat exchanger assemblies with manifold.The manifold has the first side plate, is arranged to and first The second opposite side plate of side plate, first panel are arranged to the second panel opposite with first panel, substrate and multiple cooling members Part.Extend between first panel and each comfortable first side plate of second panel, the second side plate and substrate.Substrate is in the first side plate, Extend between two side plates, first panel and the proximal end of second panel.Multiple cooling elements are between first panel and second panel Extend.

In addition a kind of heat exchanger assemblies are disclosed.The heat exchanger assemblies include manifold, first heat exchanger and Two heat exchangers.Manifold has the first side plate;Second side plate, second side plate are arranged to opposite with the first side plate;First face Plate, the first panel extend between the first side plate and the second side plate;Second panel, the second panel are arranged to and first Panel is opposite and extends between the first side plate and the second side plate;And substrate, the substrate is in the first side plate, the second side Extend between plate, first panel and the end of second panel.First side plate becomes gradually on the direction extended towards substrate Close to the second side plate.First heat exchanger is operably connected to the first side plate.Second heat exchanger is operably connected to Two side plates.

Description of the drawings

It is described below and is not construed as being limited in any way.With reference to attached drawing, the number of similar components is identical:

Fig. 1 is the perspective view of heat exchanger assemblies;

Fig. 2 is the phantom of heat exchanger assemblies;And

Fig. 3 is the front view of heat exchanger assemblies.

Specific implementation mode

With reference to attached drawing, the one or more of disclosed device and method is presented herein by mode for example and not limitation The detailed description of embodiment.

Referring to Fig.1-3, heat exchanger assemblies 10 are shown.Heat exchanger assemblies 10 include manifold 20, first heat exchanger 22 and second heat exchanger 24.

Manifold 20 is arranged between first heat exchanger 22 and second heat exchanger 24.In at least one embodiment, Manifold 20 may be structured to the collector of at least one of first heat exchanger 22 and second heat exchanger 24.Manifold 20 is provided with Exchange characteristics portion maximizes the free space for given equipment to improve integrated heat exchanger assembly property.

Manifold 20 includes the first side plate 30, the second side plate 32, substrate 34, first panel 36, second panel 38, multiple coolings Element 40 and mounting flange 42.

First side plate 30 is configured to limit the generally planar member of the first opening 50.First side plate 30 is arranged adjacently to First heat exchanger 22 is simultaneously operably connected to first heat exchanger 22.

Second side plate 32 is arranged to opposite with the first side plate 30.Second side plate 32 is configured to limit the big of the second opening 52 Body plane institution movement.Second side plate 32 is arranged adjacently to second heat exchanger 24 and is operably connected to second heat exchanger 24。

First side plate 30 and the second side plate 32 are angled with respect to each other.First side plate 30 is from the first side plate 30 and second Become to be progressively closer to the second side on the direction of the proximal end extension for being distally-oriented to the first side plate 30 and the second side plate 32 of side plate 32 Plate.

The linear range measured between the first side plate 30 and the second side plate 32 limits the width of manifold 20, as shown in Figure 3. For example, the first width w1 of manifold 20 is limited between the first side plate 30 and the distal end of the second side plate 32.The second of manifold 20 is wide Degree w2 is limited between the first side plate 30 and the proximal end of the second side plate 32, close to substrate 34.

Substrate 34 extends between the first side plate 30 and the proximal end of the second side plate 32.Substrate 34 is configured to without opening General plane component.

First panel 36 extends between the first side of each in the first side plate 30, the second side plate 32 and substrate 34. First panel 36 limits the second opening 52 of the first opening 50 and the second side plate 32 that are arranged to be substantially transverse to the first side plate 30 It is multiple first opening 60.

Second panel 38 is arranged to opposite with first panel 36.Second panel 38 is in the first side plate 30,32 and of the second side plate Extend between the second side of each in substrate 34.Second panel 38, which limits, is arranged to be substantially transverse to the of the first side plate 30 Multiple second openings 62 of one opening 50 and the second opening 52 of the second side plate 32.Second panel 38 it is multiple second opening 62 with 60 approximate alignments of multiple first openings of first panel 36.

Manifold 20 limits first fluid entrance 70, second fluid entrance 72 and second fluid outlet 74.First fluid entrance 70 are limited by the distal end of the first side plate 30, the second side plate 32, first panel 36 and second panel 38.First fluid entrance 70 is by cloth It is set to and receives first fluid 80.First fluid 80 can be will by first heat exchanger 22 and second heat exchanger 24 extremely Few cooling hot fluid stream.

Second fluid entrance 72 is limited by multiple first openings 60 of first panel 36.Second fluid entrance 72 is arranged to Receive second fluid 82.Second fluid 82 can be cold fluid flow, and the cold fluid flow is in the lower temperature of specific heat fluid stream Place can make or be conducive at least one of first heat exchanger 22 and second heat exchanger 24 cooling first fluid 80.

Second fluid outlet 74 is arranged to opposite with second fluid entrance 72.Second fluid outlet 74 is by second panel 38 Multiple second openings 62 limit.Second fluid outlet 74 is arranged to be discharged or discharge the second received by second fluid entrance 72 Body 82.

Multiple cooling elements 40 extend between first panel 36 and second panel 38.Multiple cooling elements 40 and the first face Multiple first openings 60 of plate 36 and 62 approximate alignments of multiple second openings of second panel 38.Multiple cooling elements 40 are arranged to Receive second fluid 82 so that second fluid 82 is substantially transverse to the flowing of first fluid 80.

Multiple cooling elements 40 may be structured to be incorporated into multiple cooling tubes in manifold 20, as shown in Figure 3.Multiple coolings Pipe, which is incorporated into manifold 20, to be configured with manifold 20 between first heat exchanger 22 and second heat exchanger 24 Shell-and-tube exchanger.

Multiple cooling tubes allow 82 lateral flow of second fluid and pass through manifold 20, and multiple cooling tubes are in first fluid It is provided separately for the first fluid 80 before in 80 entrance at least one of first heat exchangers 22 and second heat exchanger 24 Outer heat transfer surface.To first-class before entering at least one of first heat exchanger 22 and second heat exchanger 24 Body 80 is precooled goes out temperature to improve effectiveness of heat exchanger by the hot-fluid of reduction first fluid 80, improves heat exchanger group The thermal current and improvement cooling efficiency of part 10.

Mounting flange 42 extends from manifold 20.Mounting flange 42 is around the first side plate 30, the second side plate 32, first panel 36 It is arranged with the distal end of second panel 38.Mounting flange 42 is arranged towards the guiding first fluid 80 of first fluid entrance 70 and will Manifold 20 is connected to some component.

First heat exchanger 22 is operably connected to the first side plate 30 of manifold 20.First heat exchanger 22 includes first Package assembling 90 and the first core component 92.

First package assembling 90 is arranged around the first core component 92.First package assembling 90 includes the first subset pipe 100 With second subset pipe 102.

First subset pipe 100 is operably connected to the first side plate 30.First subset pipe 100 limits and the first side plate 30 First subset tube opening 104 of the first 50 approximate alignments of opening.

Second subset pipe 102 is arranged to opposite with the first subset pipe 100.Second subset pipe 102 limits and the first subset pipe The second subset tube opening 106 for 104 approximate alignments that are open.First fluid 80 flows through first fluid through multiple cooling elements 40 Entrance 70 flows through the first opening 50, by the first subset tube opening 104, by the first core component 92 and through the second son Collection tube opening 106 leaves.

First core component 92 is arranged in the first package assembling 90.First core component 92 include multiple first plates 110, Multiple first cold side fins 112 and multiple first hot side fins 113.

Multiple first plates 110 extend between the first subset pipe 100 and second subset pipe 102.Multiple first plates 110 and more A first hot side fin 113 is arranged to receive the first fluid 80 precooled by manifold 20 simultaneously by the first subset tube opening 104 First fluid 80 is discharged by second subset tube opening 106.

Multiple first cold side fins 112 are arranged between the adjacent panels of multiple first plates 110.Multiple first cold side fins The 112 engageable adjacent panels to multiple first plates 110.Multiple first cold side fins 112 are arranged to by by the first package assembling 90 the first side openings 114 limited receive second fluid 82.Second fluid 82 flows through multiple first cold side fins 112 and helps Cooled flow is helped to pass through the first fluid 80 of multiple first plates 110 and multiple first hot side fins 113.Multiple first cold side fins 112 are arranged to the second side opening 116 discharge by being limited by the first package assembling 90 or discharge second fluid 82.

Second heat exchanger 24 is operably connected to the second side plate 32 of manifold 20.Second heat exchanger 24 includes second Package assembling 120 and the second core component 122.

Second package assembling 120 is arranged around the second core component 122.Second package assembling 120 includes third subset pipe 130 and the 4th subset pipe 132.

Third subset pipe 130 is operably connected to the second side plate 32.Third subset pipe 130 limits and the second side plate 32 The third subset tube opening 134 of second 52 approximate alignments of opening.

4th subset pipe 132 is arranged to opposite with third subset pipe 130.4th subset pipe 132 limits and third subset pipe 4th subset tube opening 136 of 134 approximate alignments that are open.First fluid 80 flows through first fluid through multiple cooling elements and enters Mouth 70, flows through the second opening 52, by third subset tube opening 134, by the second core component 122 and through the 4th subset Tube opening 136 leaves.

Second core component 122 is arranged in the second package assembling 120.Second core component 122 includes multiple second plates 140, multiple second cold side fins 142 and multiple second hot side fins 143.

Multiple second plates 140 extend between third subset pipe 130 and the 4th subset pipe 132.Multiple second plates 140 and more A second hot side fin 143 is arranged to receive the first fluid 80 precooled by manifold 20 simultaneously by third subset tube opening 134 First fluid 80 is discharged by the 4th subset tube opening 136.

Multiple second cold side fins 142 are arranged between the adjacent panels of multiple second plates 140.Multiple second cold side fins The 142 engageable adjacent panels to multiple second plates 140.Multiple second cold side fins 142 are arranged to by by the second package assembling The 120 third side openings 144 limited receive second fluid 82.Second fluid 82 flows through multiple second cold side fins 142 simultaneously Help first fluid 80 of the cooled flow by multiple second plates 140 and multiple second hot side fins 143.Multiple second cold side wings Piece 142 is arranged to the 4th side opening 146 discharge by being limited by the second package assembling 120 or discharge second fluid 82.

Although reference plate and fin configuration are described for the first core component 92 and the second core component 122, Including other core components construction (plate and pipe, pipe and fin etc.) is also considered.

First heat exchanger 22 and second heat exchanger 24 are angled with respect to each other orientation.

Term " about " is intended to include available equipment, error journey associated with the measurement of specific quantity when based on submission applying Degree.For example, " about " may include given value ± 8% or 5% or 2% range.

Term used herein is intended merely to description particular embodiment, and is not intended to the limitation disclosure.Make herein Singulative " one ", "one" and " described " are also intended to include plural form, clearly illustrate unless the context otherwise.Also answer Understand, term " comprising " and/or " including " when using in the present specification, be regulation stated feature, integer, step, The presence of operations, elements, and/or components, but other one or more features, integer, step, operation, member are not excluded in advance The presence or increase of part component and/or its group.

Although describing the disclosure with reference to exemplary implementation scheme, it will be apparent to one skilled in the art that not It under the premise of being detached from the scope of the present disclosure, can be variously modified, and each element of the disclosure can be substituted with equivalent. In addition, under the premise of not departing from the essential scope of the disclosure, many change so that specific situation or material is suitable can be made Answer the introduction of the disclosure.Therefore, the disclosure wishes to be not limited to as disclosed specific for implementing the optimal mode of the disclosure Embodiment, but the disclosure will be including belonging to all embodiments in right.

Claims (10)

1. a kind of heat exchanger assemblies comprising:

Manifold, the manifold have

First side plate and second side plate opposite with first side plate,

First panel and it is arranged to the second panel opposite with the first panel, the first panel and the second panel are each Extend between comfortable first side plate and second side plate,

Substrate, the substrate is in the proximal end of first side plate, second side plate, the first panel and the second panel Between extend, and

Multiple cooling elements, the multiple cooling element extend between the first panel and the second panel.

2. heat exchanger assemblies as described in claim 1 further include mounting flange, the mounting flange prolongs from the manifold Stretch and surround the distal end setting of first side plate, second side plate, the first panel and the second panel.

3. heat exchanger assemblies as described in claim 1, wherein the manifold have be limited to first side plate with it is described The first width and the manifold between the distal end of second side plate, which have, is limited to first side plate and second side plate Proximal end between the second width, first width be more than second width.

4. heat exchanger assemblies as described in claim 1, wherein first side plate, second side plate, first face The distal end of plate and the second panel limits the first fluid entrance for being arranged to receive first fluid, and the multiple cooling member Part is arranged to receive second fluid.

5. heat exchanger assemblies as described in claim 1, wherein first side plate limits the first opening.

6. heat exchanger assemblies as described in claim 1, wherein the second side plate limits the second opening.

7. heat exchanger assemblies as claimed in claim 6 further include first heat exchanger, the first heat exchanger packet It includes:

It is operably connected to the first subset pipe of first side plate, the first subset pipe limits the first subset tube opening; And

The second subset pipe being spaced apart with the first subset pipe, the second subset pipe limit second subset tube opening.

8. heat exchanger assemblies as claimed in claim 7, wherein the first heat exchanger further includes:

Multiple first plates, the multiple first plate extend between the first subset pipe and the second subset pipe;And

Multiple first cold side fins, the multiple first cold side fin are arranged between the adjacent panels of the multiple first plate.

9. heat exchanger assemblies as claimed in claim 8 further include second heat exchanger, the second heat exchanger packet It includes:

It is operably connected to the third subset pipe of second side plate, the third subset pipe limits third subset tube opening; And

The 4th subset pipe being spaced apart with the third subset pipe, the 4th subset pipe limit the 4th subset tube opening.

10. heat exchanger assemblies as claimed in claim 9, wherein the second heat exchanger further includes:

Multiple second plates, the multiple second plate extend between the third subset pipe and the 4th subset pipe;And

Multiple second cold side fins, the multiple second cold side fin are arranged between the adjacent panels of the multiple second plate.