CN209326434U - Heat exchanger assemblies - Google Patents

Abstract

A kind of heat exchanger assemblies (1), including first fluid circuit.First fluid circuit includes heat exchanger core (2), the heat exchanger core includes two collectors (20,21), connects multiple flow ducts (22) of two collectors (20,21), and at least one link block (24) at least one of being connected to two collectors (20,21).Heat exchanger assemblies (1) further include second fluid circuit.Second fluid circuit includes the shell (3) for encapsulating the heat exchanger core (2).The shell (3) includes at least one opening (35), to receive at least one described link block (24) of heat exchanger core (2), so that at least one described link block (24) extends the outer side of shell.The heat exchanger assemblies (1) further include air locking (27,28), are arranged between at least one link block (24) and the shell (3).

Description

Heat exchanger assemblies

Technical field

The utility model relates to a kind of heat exchanger assemblies, especially a kind of car heat exchanger component has in particular There are indirectly cooling water cooler (water chiller) or water-gas cooler.

Background technique

A kind of prior art heat exchanger component includes two individual fluid circuits.One circuit includes multiple hollow flows Movable plate, they are parallel to extends each other.Flow plate --- especially their inner space --- replaces in their end Ground is fluidly connected to the flow plate of surrounding, so that the fluid circuit has corrugated form.Second fluid circuit includes two collection Pipe device and multiple flow ducts.The end of flow duct receives in collector.Flow duct is inserted between flow plate, thus a stream Dynamic pipe is located between two adjacent flow movable plates and contacts with them.Interface between flow duct and flow plate occurs for heat exchange On.

In general, prior art have the shortcomings that it is a series of.Firstly, being responsible for the heat exchanger of heat exchange between two kinds of fluids Very frequently experience leads to the harsh environment factor corroded to component.Secondly, not all by coolant or the stream to be cooled The exchanger part that body passes through is involved in heat exchanging process, and therefore, heat exchange area is greatly limited.

One purpose of the utility model is to provide a kind of heat exchanger assemblies, and the improvement being provided with for corrosion is protected Shield.

The another object of the utility model is to provide a kind of heat exchanger assemblies, wherein all its forms corresponding fluids and lead The component of pipe participates in heat exchanging process, and the area of heat transfer of heat exchanger assemblies increases as a result, this increases heat exchange effect in turn Rate.

Above-mentioned purpose is realized by heat exchanger assemblies described below.

Utility model content

A kind of heat exchanger assemblies, including first fluid circuit.The first fluid circuit includes heat exchanger core, institute It states heat exchanger core to include two collectors, connect multiple flow ducts of two collectors, and is connected in two collectors At least one link block of at least one.Heat exchanger assemblies further include second fluid circuit.The second fluid circuit packet Include the shell for encapsulating the heat exchanger core.The shell includes at least one opening, to receive the heat exchanger core At least one described link block so that at least one described link block extends the outer side of shell.In addition, the heat exchange Device assembly includes air locking, and the air locking is arranged between at least one described link block and the shell.

All components for being related to the heat exchanger core of the heat exchange between coolant and fluid to be cooled are closed In the shell, and by it protects.Its also mean that the coolant flow supplied to shell through all that component/contact, this Maximize the heat exchange between coolant and fluid to be cooled.

Because shell is made of plastic material, shell itself and all components being included in effectively are protected for corrosion Shield.It also means that shell can be easily manufactured with any shape that client needs, and is suitable for various demands.In addition, shell It may be provided with additional mounting characteristic structure/element, such as bracket or hook, heat exchanger assemblies installed in the car.

In addition, many components of heat exchanger assemblies are formed as single-piece, this reduces the quantity of used separate part, And manufacturing process is easier.

Detailed description of the invention

The utility model is more fully described below with reference to attached drawing, the non-limiting embodiment of the utility model is shown, Wherein:

Fig. 1 shows the decomposition perspective view of heat exchanger assemblies according to the present utility model,

Fig. 2 shows the perspective view of the heat exchanger core of heat exchanger assemblies according to the present utility model,

Fig. 3 shows the perspective view of heat exchanger assemblies according to the present utility model after assembling, and

Fig. 4 shows the viewgraph of cross-section of heat exchanger assemblies according to the present utility model.

Specific embodiment

Heat exchanger assemblies 1 include heat exchanger core 2, and heat exchanger core 2 includes the first and second collectors in turn 20,21.Heat exchanger core 2 further includes multiple flat hollow flow ducts 22, is arranged as two column.The end of flow duct 22 is inserted into It is arranged in multiple corresponding slots in collector 20,21, that is, an end of each flow duct 22 is received in a slot. In other words, flow duct 22 is connected to collector 20,21.In the embodiment shown in the figures, there are two flowings for the tool of collector 20 Channel, collector 21 have a flow channel defined therein.The flow channel of collector 20,21 and setting are in collector 20, both the slot in 21 and the internal path of flow duct 22 are in fluid communication.Heat exchanger core 2 can further include multiple coolings Agent turbulator 23, so that being provided with a coolant turbulator 23 between two adjacent flow pipes 22.Coolant turbulator 32 Function be that the laminar flow of coolant is converted into turbulent flow, this then increases heat exchanger effectiveness.

Heat exchanger core 2 further includes link block 24, is used for fluid to be cooled, especially CO₂.Link block 24 is located at In one of collector and it is connected to it, that is, the first collector 20.Link block 24 includes two mouths 25,26, to be cooled Fluid by the mouth inflow heat exchanger core 2 and from wherein flowing out.For this purpose, mouth 25,26 and being limited to the first collection The internal path of flow channel, flow duct 22 in pipe device 20 and the flow channel fluid being limited in the second collector 21 connect It is logical.All components of heat exchanger core 2 are connected to each other by soldering, to ensure the fluid tight of heat exchanger core 2.

When heat exchanger core 2 is assembled, form following flow path: fluid to be cooled enters in link block 24 Mouth 25, then successively flow through one in two flow channels being limited in the first collector 20, a column flowing Pipe 22, the channel being limited in the second collector 21, another column flow duct 22, another flowing being limited in the first collector 20 Heat exchanger core 2 is left finally by mouth 26 in channel.In other words, heat exchanger core 2 --- especially link block 24, Collector 20,21 and flow duct 22 --- first fluid circuit is limited, fluid to be cooled is particularly used for.

Heat exchanger assemblies 1 further include shell 3.In the embodiment shown in the figures, shell 3 includes 30 He of first half-shell body Second half shell 31.Shell 3 further includes two coolant ports 33,34 on first half-shell body 30.Shell 3 may include bracket 37, the permission shell 3 of bracket 37 is fixed to the component of vehicle.

Shell 3 --- especially half shell 30,31 --- is made of plastic material or other corrosion resistant materials, this makes outer Shell 3 is immune to corrosion caused by disruptive environmental factor.

When two half shells 30,31 are brought together after and link together, they limit inner space, core, heat exchanger Portion 2 is fitted in the inner space.In order to ensure shell 3 is fluid tight, the setting of air locking 32 half shell 30,31 it Between.Alternatively, after being inserted into core 2, half shell 30,31 directly links together, such as is welded by plastics.Shell 3, --- once assembling --- encapsulates heat exchanger core 2, that is, heat exchanger core 2 is closed and is contained in shell 3.Shell 3 further include flange 36, and flange 36 limits and around opening 35.Opening 35 receives the link block 24 of heat exchanger core 2, so that even The a part for connecing block 24 protrudes out the edge more than opening 35, and mouth 25,26 is easy to enter on the outside of heat exchanger assemblies 1 as a result,. In other words, link block 24 extends to except shell 3.In order to ensure heat exchanger assemblies 1 are fluid tight, core, heat exchanger Portion 2 includes air locking, which is sealed link block 24 for the inner surface of 35/ flange 36 of opening of shell 3, Wherein, both air locking and inner surface of link block 24 and shell 3 contact.In this way, preventing coolant from passing through 35 stream of opening Shell 3 out.In the embodiment shown in the figures, air locking includes the groove 27 and cloth being formed in the outer surface of link block 24 Set the sealing element 28 in groove 27, the sealing element especially O-ring.When link block 24 is inserted in opening 35, sealing Part 28 tightly against opening 35/ flange 36 inner surface, so that it is guaranteed that the fluid tight of heat exchanger assemblies 1.Advantageously, Half shell 30,31 links together along the line far from opening 35.This simplifies and improves the sealing between link block 35 and shell 3.

Link block 24 may include a series of recess portions 29 on its outer surface, be used for Hi-pot test tool.Work as heat exchanger When component 1 is assembled, recess portion 29 is located at 3 outside of shell.Preferably, link block 24 has formula of roughly cubical shape.Such In the case of, there are four side walls for the tool of link block 24.Each recess portion 29 is located at the center of each side wall.Preferably, each tool of recess portion 29 There is the bottom of arch.But final application and demand depending on link block 24, recess portion 25 can be fabricated in 24 side wall of link block Different location on, and depend on tool to be used, can have different shape.This ensures that various high pressure tools can be used, Other advantages of the utility model are kept simultaneously.

Shell 3 may include two open channels being limited in the wall of half shell 30,31, which means that open channels with Half shell 30,31 is integrated.Each open channels actually include two open channels being individually aligned 38,39, for Each half shell 30,31 has one respectively.Open channels 38,39 are formed at the extension of coolant port 33,34.First Open channels 38 in half shell 30 are straight, and have constant cross section.Open channels 39 in second half shell 31 after It and is over its length and in the end of its bottom towards the second half shell 31 least partially bent at/arc.This It is meant that the cross section of open channels 39 at least partly subtracts in the length in channel 39 towards the bottom of the second half shell 31 It is small.Particularly, a part in channel 39 can be straight, and other parts can be arc, and end in away from the second half At one distance of bottom of shell 31, as shown in Figure 3.Open channels 38,39 allow all flow ducts of coolant in a given column It is equably flowed on 22.In addition, open channels 38,39 are configured to reduce pressure drop, and true by generating high efficiency flow mechanism Protect the smooth coolant flow in shell 3.

When entire heat exchanger assemblies 1 are assembled, heat exchanger core 2 is closed in shell 3 and/or by shell 3 Encapsulating.The coolant port 25,26 of link block 24 may be easy on the outside of heat exchanger assemblies 1 enter.Coolant is flowed by mouth 33 It moves in shell 3, is next flowed between flow duct 22, the cooling fluid flowed wherein, and flowed by mouth 34 from shell 3 Out.In other words, shell 3 limits second fluid circuit, is particularly used for coolant.

More than, the only one preferred embodiment of heat exchanger assemblies 1 has been described.In another embodiment of the utility model In, heat exchanger core 2 may include an only column flow duct 22.In this case, collector 20,21 each includes being limited to Only one flow channel therein.In addition, each collector 20,21 is associated with the link block 24 of their own.One link block 24 be entrance link block, and the other is outlet link block, fluid to be cooled only flow through flow duct in one direction 22.For each link block 24, shell 3 includes an opening 35, that is, two openings 35 in total.It means that the number of opening 35 Amount is equal to the quantity of link block 24.In another embodiment of the utility model, only one collector 20 is provided with link block 24, And heat exchanger core 2 includes a column flow duct 22.In this embodiment, fluid to be cooled is flowed by one group of flow duct 22 It moves to the second collector 21, and the first collector 20 is flowed back to by second group of flow duct 22 of same row.In this case, Fluid to be cooled is flow in heat exchanger core 2 simultaneously by a link block 24 being arranged in the first collector 20 From wherein flowing out.In more general wording, heat exchanger assemblies 1 include at least one link block 24, the link block 24 connection To at least one collector 20,21, and shell 3 has at least one opening 35, to receive at least one link block 24.

In the another embodiment of the utility model, shell 3 may include any an appropriate number of shell, such as three, four It is a etc..In addition, as shown in figure 4, channel 39 can be arc over the whole length, that is, from the edge of the second half shell 31 to The bottom of second half shell 31, and can end at bottom in itself.It means that the cross section in channel 39 is in open channels 39 Reduce in whole length from the edge of the second half shell 31 to the bottom of the second half shell 31.

In another embodiment of the utility model, the air locking between heat exchanger core 2 and shell 3 does not need to set Between the inner surface for setting 35/ flange 36 of opening in link block 24 and shell 3.In this embodiment, air locking can be located at and connect Connect block 24 and around opening 35 3 inner surface of shell between and contact, the inner surface, that is, shell 3 towards heat exchanger The surface of core 2.Air locking may include the peripheral flange on the side surface of link block 24, and be arranged in peripheral flange Sealing element on surface towards 3 inner surface of shell, such as O-ring.Sealing element is pressed closely against shell 3 by peripheral flange Inner surface.

In another embodiment of the utility model, coolant port 33,34 and corresponding open channels 38,39 are settable In the different housings of shell 3.

Claims (11)

1. a kind of heat exchanger assemblies, comprising:

First fluid circuit, the first fluid circuit include heat exchanger core (2), and the heat exchanger core includes two Collector (20,21), multiple flow ducts (22) of the described two collectors (20,21) of connection, and it is connected to described two collectors At least one link block (24) of at least one of device (20,21)；

Second fluid circuit；

It is characterized in that,

The second fluid circuit includes the shell (3) for encapsulating the heat exchanger core (2), and the shell (3) includes at least One opening (35), to receive at least one described link block (24) of the heat exchanger core (2), so that described at least one A link block (24) is extended on the outside of the shell (3), and

The heat exchanger assemblies (1) further include air locking (27,28), the air locking (27,28) be arranged in it is described extremely Between a few link block (24) and the shell (3).

2. heat exchanger assemblies according to claim 1, which is characterized in that the air locking (27,28) is included in institute State the groove (27) on the outer surface of at least one link block (24) and be received in the groove (27) and with shell (3) The sealing element (28) of inner surface contact.

3. heat exchanger assemblies as claimed in claim 1 or 2, which is characterized in that it includes two link blocks (24), and described two A link block (24) is each connected to one in the collector (20,21), and the shell (3) includes two openings (35), For described two link blocks (24).

4. heat exchanger assemblies as claimed in claim 1 or 2, which is characterized in that the shell (3) includes first half-shell body (30) and the second half shell (31).

5. heat exchanger assemblies as claimed in claim 1 or 2, which is characterized in that the shell (3) is made of plastic material.

6. heat exchanger assemblies as claimed in claim 1 or 2, which is characterized in that the shell (3) includes two coolant ports (33,34) and two open channels, the open channels are formed in the wall of the shell (3), and in described two coolants Extend at the extension of mouth (33,34).

7. heat exchanger assemblies as claimed in claim 1 or 2, which is characterized in that the link block (24) is included in its appearance A series of recess portions (29) on face are used for high pressure tools.

8. heat exchanger assemblies as claimed in claim 6, which is characterized in that the shell (3) includes first half-shell body (30) With the second half shell (31), the open channels each include two open channels, have one to open wide in each half shell respectively Channel, the open channels in the first half-shell body (30) are straight and have constant cross-section, in second half shell (31) open channels in are at least partly arc and to have towards the bottom of second half shell (31) over its length The cross section at least partly reduced.

9. heat exchanger assemblies according to claim 8, which is characterized in that opening wide in second half shell (31) is logical Road is arc over the whole length, so that the cross section of the open channels in second half shell (31) is described Subtract in the whole length of open channels in second half shell (31) towards the bottom of second half shell (31) It is small.

10. heat exchanger assemblies according to claim 8, which is characterized in that opening wide in second half shell (31) Channel ends at one distance of the bottom away from second half shell (31).

11. heat exchanger assemblies according to claim 8, which is characterized in that opening wide in second half shell (31) Channel ends at the bottom of second half shell (31).