CN110459831A - Heat-exchange device - Google Patents

Abstract

A kind of heat-exchange device, including heat exchanger, valve body, valve body include inlet channel, outlet flow and core assembly accommodating chamber；Heat exchanger includes first runner and second flow channel, and outlet flow is connected to first runner；The center line of core assembly accommodating chamber and the face of heat exchanger matched with valve body be substantially parallel or outlet flow and the center line of core assembly accommodating chamber between shape have angle β, the value range of angle β: 90 ° of β≤180 ° <；Or heat-exchange device includes mounting plate, the center line of core assembly accommodating chamber and the face of mounting plate matched with valve body are substantially parallel.Together with heat exchanger is directly integrated by the present invention with valve module, so that the structure of heat-exchange device is simple and reliable performance.

Description

Heat-exchange device

The application is that number of patent application is 201510422245.8, and the applying date is on July 16th, 2015, entitled The divisional application of " heat-exchange device ".

Technical field

The present invention relates to a kind of heat-exchange devices, the heat management system applied to batteries of electric automobile etc..

Background technique

In general, the battery of electric car can generate heat when working in the battery thermal management system of electric car, it is The normal work for guaranteeing battery, needs to cool down battery, by coolant liquid cooling be in the way of one kind is more common.It is common Battery cooling apparatus includes heat exchanger and expansion valve, and heat exchanger, system are entered after the throttling action that liquid refrigerant passes through expansion valve Cryogen and coolant liquid carry out heat exchange in heat exchanger, and coolant liquid is cooled, and the coolant liquid cooled flows to the cooling electricity of battery pack Pond, temperature increases after coolant liquid flows through battery pack, needs to return to heat exchanger and is cooled down, and so recycles.In general, heat exchanger is plate Formula heat exchanger.

In existing heat management system, heat exchanger and expansion valve are all individual components, are attached by modes such as pipelines. Phenomena such as it is heavier that the connecting components such as pipeline will lead to entire lightweight packages, is easy to appear connecting tube fracture, cost is also higher.

Therefore, together with how being directly integrated with expansion valve heat exchanger so that it is compact-sized, be easily installed and use at This is lower, is those skilled in the art's technical problem urgently to be resolved.

Summary of the invention

Simple and reliable performance the heat-exchange device the purpose of the present invention is to provide a kind of structure.

To achieve the above object, the present invention provides a kind of heat-exchange device.

A kind of heat-exchange device, including heat exchanger, valve body, the valve body include inlet channel, outlet flow and spool Component accommodating chamber；The heat exchanger includes first runner and second flow channel, and the outlet flow is connected to the first runner；

The center line of the core assembly accommodating chamber and the face of the heat exchanger matched with the valve body are substantially parallel Or shape has angle β between the outlet flow and the center line of the core assembly accommodating chamber, the value model of the angle β It encloses: 90 ° of β≤180 ° <；Or the heat-exchange device includes mounting plate, the center line of the core assembly accommodating chamber with it is described The face of mounting plate matched with the valve body is substantially parallel.

Above-mentioned technical proposal is by heat exchanger and the integrated structure of valve body, and structure is simple, compact and reliable performance, convenient for peace It fills and use cost is lower.

Detailed description of the invention

Fig. 1 is the schematic perspective view of an embodiment of heat-exchange device of the present invention.

Fig. 2 is the perspective view of the explosion of heat-exchange device shown in Fig. 1.

Fig. 3 is the mounting plate stereoscopic schematic diagram of heat-exchange device described in Fig. 1.

Fig. 4 is the schematic cross-sectional view of the valve body of heat-exchange device described in Fig. 1.

Fig. 5 is the partial schematic sectional view of heat-exchange device described in Fig. 1.

Fig. 6 is the schematic cross-sectional view of heat-exchange device described in Fig. 1.

Fig. 7 is the schematic cross-sectional view of another structure of the valve body of heat-exchange device described in Fig. 1.

Fig. 8 is structural schematic diagram of the valve module around first step portion rotation α of heat-exchange device described in Fig. 1.

Fig. 9 is the stereoscopic schematic diagram of another embodiment of heat-exchange device of the present invention.

Figure 10 is the schematic cross-sectional view of the another embodiment of heat-exchange device of the present invention.

Figure 11 is the schematic cross-sectional view of the valve body of heat-exchange device shown in Figure 10.

Specific embodiment

Not only required installation space is few for heat-exchange device of the invention, but also structure is simple, compact and highly reliable, is convenient for Installation, resistance to shock is good and use cost is lower, additionally it is possible to effective to inhibit gas-liquid lamination.

With reference to the accompanying drawings and detailed description, the present invention is specifically described.

Fig. 1 to Fig. 6 shows the heat-exchange device of one embodiment of the invention, as depicted in figs. 1 and 2, heat-exchange device Including heat exchanger 10, valve module 2 and the mounting plate 3 to fix heat-exchange device, meanwhile, mounting plate 3 also connects to fixed Connect heat exchanger 10 and valve module 2.Wherein, valve module 2 is a throttling set, and the reducing pressure by regulating flow of high pressure refrigerant may be implemented.

Heat exchanger 10 can be used as evaporator use, the heat exchanger 10 include for coolant liquid circulation first runner and For the second flow channel of refrigerant circulation, wherein the first runner includes refrigerant inlet and refrigerant outlet, second flow channel Including cooling liquid inlet and cooling liquid outlet.The cooling liquid inlet can be connect with the second adapter tube 4, and the cooling liquid outlet can To connect with the first adapter tube 1, the refrigerant outlet can be connect with third adapter tube 5, and the refrigerant inlet passes through mounting plate On connecting hole 32 be connected to the outlet flow 2131 of valve module 2.The import 211 of valve module 2 can be connect with the 4th connecting tube (not shown) can also be connect by the connector of other forms with system.

Heat exchanger 10 further includes heat exchange core body and end plate 6 and bottom plate 7 positioned at the heat exchange core body both ends.Wherein, it changes Hot core includes being spaced apart from each other several first flow plates for being stacked and several second flow plates, each first flow plate and Two adjacent the second flow plates form the first circulation passage and the second circulation passage, the first circulation passage and the second circulation passage It is spaced apart from each other setting.Wherein, the first circulation passage is a part of first runner, and the second circulation passage is one of second flow channel Point.In the present embodiment, the first flow plate and the second flow plate use the flow plate 8 of the same shape structure, first-class when closed assembly Logical plate rotates 180 ° of progress closed assemblies relative to the second flow plate.Using the flow plate 8 of the same shape structure, cost can be saved.

The refrigerant inlet and refrigerant outlet and the cooling liquid inlet and cooling liquid outlet can be set in institute The ipsilateral or heteropleural of heat exchanger 10 is stated, and can be any two in four opennings.First adapter tube 1, second connect Pipe 4 and third adapter tube 5 can use aluminium-alloy pipe, and be linked together by way of soldering with heat exchanger 10；Other three Can also have partly or entirely in a adapter tube is to be fixedly connected with mounting plate 3 and by being brazed by mounting plate 3 and heat exchanger 10 Connection.

In the above-described embodiment, the heat exchanger 10 is plate heat exchanger, is also possible to plate-fin heat exchanger, other classes The heat exchanger of type can be similarly applicable in.

As shown in figure 3, in addition mounting plate 3 can also be formed, plate by the stamped formation of sheet metal by machining Material can use aluminum alloy materials.The mounting plate 3 includes auxiliary section and several mounting holes 35 on the outside of auxiliary section.It is wearing Cross on the installation direction of mounting hole 35, mounting hole 35 be fully exposed to the heat exchanger 10 outside and mounting hole 35 and heat exchange Core does not interfere.So set, heat-exchange device is installed solid with screw is (not shown) across the mounting hole 35 Periodically, heat exchanger 10 will not be encountered.On the one hand this design reduces the cost and installation difficulty of heat-exchange device, on the other hand Also reduce the damage probability of heat exchanging device 10 during installation.

It is pointed out here that the shape of mounting plate 3 can be arranged according to the needs of the specific installation site of heat-exchange device The specific location and quantity of shape structure and mounting hole 35.

Auxiliary section includes for the first through hole 341 of the first adapter tube 1 to be fixedly mounted, for the second adapter tube 4 to be fixedly mounted Second through-hole 342, third through-hole 343 and fourth hole 32 for third adapter tube 5 to be fixedly mounted.Wherein first through hole 341 It is connected to the second through-hole 342 with the second flow channel of heat exchanger 10, the first of third through-hole 343 and fourth hole 32 and heat exchanger 10 Runner connection.In the present embodiment, first through hole 341 and the second through-hole 342 respectively with the cooling liquid inlet of heat exchanger 10 and cold But liquid outlet, third through-hole 343 and fourth hole 32 respectively with the refrigerant outlet and inlet communication of heat exchanger 10.

First through hole 341 and cooling liquid inlet are round and coaxial or eccentric setting, the internal diameter of first through hole 341 are greater than The internal diameter of cooling liquid inlet, consequently facilitating being docked and being positioned with one end of the first adapter tube 1, is convenient for first to form step The installation of adapter tube 1.Likewise, the second through-hole 342 and cooling liquid outlet are round and coaxial or eccentric setting, the second through-hole 342 internal diameter is greater than the internal diameter of cooling liquid outlet, to form step, consequently facilitating dock with one end of the second adapter tube 4 and Positioning, convenient for the installation of the second adapter tube 4.Likewise, third through-hole 343 and refrigerant outlet are round and coaxial or bias is set It sets, the internal diameter of third through-hole 343 is greater than the internal diameter of refrigerant outlet, to form step, consequently facilitating one end with third adapter tube 5 It is docked and is positioned, convenient for the installation of third adapter tube 5.

Fourth hole 32 and refrigerant inlet are round and are coaxially disposed, and the internal diameter of fourth hole 32 can be less than or equal to The internal diameter of refrigerant inlet, and the internal diameter of fourth hole 32 can be less than the internal diameter of third through-hole.The outlet flow of valve module 2 2131 are connected to by fourth hole 32 with the refrigerant inlet of heat exchanger.For the ease of the positioning and installation of valve module 2, installing It is additionally provided at least two orientation salient points 31 on the side of the first through hole 32 of plate 3, mounting plate 3 also sets up that there are two location holes.

As shown in Figures 2 to 6, valve module 2 include valve body 21, coil block 22 and core assembly 23, valve body 21 include into Mouth runner 211, outlet flow 2131 and core assembly accommodating chamber 212, core assembly accommodating chamber 212 can accommodate at least partly Core assembly, wherein core assembly accommodating chamber 212 is open at one end, and core assembly accommodating chamber 212 is connected to 211 He of inlet channel Outlet flow 2131.Inlet channel 211 and outlet flow 2131 are both substantially perpendicular to the center line of core assembly accommodating chamber 212, And on the direction of the open end towards core assembly accommodating chamber 212, the relatively close core assembly accommodating chamber of inlet channel 211 212 open end, outlet flow 2131 are relatively distant from the open end of core assembly accommodating chamber 212.In this way, due to inlet channel 211 and outlet flow 2131 be both substantially perpendicular to the center line of core assembly accommodating chamber 212, refrigerant is from core assembly 23 The direction that the direction of throttle orifice outflow and refrigerant pass through 2131 inflow heat exchanger 10 of outlet flow is substantially in 90 ° of angles, from section The refrigerant that discharge orifice ejects, which will not be rushed directly, to be injected in heat exchanger, and the refrigerant that can effectively prevent spurting, which directly rushes, to be penetrated Enter to cause in heat exchanger refrigerant to distribute uneven problem in the first circulation passage between each flow plate, refrigerant can be made to exist More uniform distribution in each first circulation passage, to effectively improve the heat exchange property of heat exchanger.

And refrigerant after the outflow of outlet flow 2131 directly through 32 inflow heat exchanger of fourth hole, intermediate distance compared with It is short, it can be very good to inhibit the phenomenon that the longer in intermediate distance of refrigerant and generate gas-liquid separation in flow process, raising is changed The heat exchange property of hot device can preferably control the degree of superheat.Further, valve body 21 is directly fixedly mounted with mounting plate 3, can Improve the resistance to shock of heat-exchange device.

It is additionally provided on the side wall of the outlet side of the outlet flow 2131 of valve body 21 and protrudes from one spacing of side wall From second step portion 214 and first step portion 213, first step portion 213 protrudes from the upper plane in second step portion 214.Its Middle second step portion 214 is that cylindrical-shaped structure or polygon prism shape structure, the end face 2141 including circular ring shape, and its height are X, The value range of X are as follows: 0.1mm≤X≤1mm, outer end and the 214 place valve body 21 of second step portion in second step portion 214 It is maintained a certain distance between the outer end of one side wall.

It can certainly be as shown in fig. 7, cricoid pit 217 be offered on the side wall of valve body to form second step portion 214。

First step portion 213 protrudes from 2141 certain distance of end face, and on heat-exchange device, first step portion 213 can be with Fourth hole 32 is protruded into, the function of positioning and limit is played in first step portion 213.First step portion 213 can be cylindric knot Structure is also possible to polygon prism shape structure, and when first step portion 213 is polygon prism shape structure, first step portion 213 can also be risen To position-limiting action when installation, core assembly 23 caused by preventing valve body 21 from rotating along first step portion 213 and coil block 22 can not install, and can also prevent the consistency and aesthetics that influence product appearance, be more advantageous to the design of fixture.

In the present embodiment, valve body 21 is fixed with mounting plate 3 by welding.As shown in figure 5, end face 2141 and mounting plate 3 End face directly contact, end face 2141 be welding surface, due to second step portion 214 height be X, to make second step portion It is formed and is had the gap between body wall and mounting plate 3 where 214, since the value range of X is 0.1mm≤X≤1mm, welded When connecing, a part of welding fluid can be flowed in gap, not only contribute to weld, mounting plate 3 and valve body 21 when can prevent from welding Between weld tabs melt spill valve and influence beauty, additionally it is possible to reduce bonding area, improve cooperation flatness, prevent centre The problem of hollow bring shock strength caused by not welding completely reduces.

Certainly, valve body can also be fixedly mounted on mounting plate 3 by screw, when being fixedly mounted by screw, in order to Sealing performance is improved, sealing ring can be set (in figure not between the outer wall in first step portion 213 and the inner wall of fourth hole 32 Draw), for the ease of the installation of sealing ring, groove (being not drawn into figure) can be opened up on the outer wall in first step portion 213.

When assembling, flow plate 8, end plate 6, bottom plate 7, mounting plate, the first adapter tube 1, the second adapter tube 4, third adapter tube 5 and valve body 21 forms for first passing through soldering weld together.Before welding, first by flow plate 8, end plate 6, bottom plate 7, mounting plate, the first adapter tube 1, the second adapter tube 4, third adapter tube 5 and valve body 21 are completed, and are put into dedicated frock clamp and are fixed；Then, then The flow plate 8 being pressed, end plate 6, bottom plate 7, mounting plate, the first adapter tube 1, the second adapter tube 4, third adapter tube 5 and valve body 21 are put Enter in furnace and is welded.The mode of welding can carry out vacuum brazing using vacuum drying oven or carry out nitrogen protection using continuous tunnel furnace Weldering.After being welded, core assembly 23 and coil block 22 are successively installed on valve body 21.

As shown in figure 8, third through-hole 343 on the mounting plate 3 with the distance between fourth hole 32 is shorter to install When core assembly 23 or coil block 22, valve body 21 can be rotated a certain angle relative to first step portion 213, spool group The value range of angle α between the center line and mounting plate 3 of part 23 may is that 0 °≤α≤90 °, can be according to specific installation It needs to adjust the value of angle α.

Fig. 9 shows another embodiment of the present invention, and in the present embodiment, mounting plate 3, which is offered, sets fixed valve for blocking The slot of body 21, valve body 21 are fixed on end plate 6 by welded seal.In the present embodiment, auxiliary section includes the slot.Due to valve body 21 cards, which are set, to be fixed on mounting plate 3, and the resistance to shock of heat-exchange apparatus can be effectively improved.

Figure 10 and Figure 11 shows another embodiment of the present invention, in the present embodiment, the core assembly accommodating chamber of valve body The side wall of 212 open end side is a slope 215, the central axis of core assembly accommodating chamber 212 slope 215, the angle β between outlet flow 2131 and the center line of core assembly accommodating chamber 212 is greater than 90 ° and less than or equal to 180 °, Further, the angle β between outlet flow 2131 and the center line of core assembly accommodating chamber 212 is greater than 90 ° and is less than or equal to 165 °, in this way, the thickness W of heat-exchange device can be effectively reduced, convenient for heat-exchange device in the installation of system, reduces heat and hand over The installation space of changing device.

Above embodiments are merely to illustrate the present invention and not limit the technical scheme described by the invention, although this explanation Book is described in detail referring to the above embodiments, still, those skilled in the art should understand that, affiliated technology The technical staff in field still can be modified or replaced equivalently above-described embodiment, and all do not depart from essence of the invention The technical solution and its improvement of mind and range, should all cover in scope of the presently claimed invention.

Claims (10)

1. a kind of heat-exchange device, including heat exchanger, valve body, the valve body includes inlet channel, outlet flow and spool group Part accommodating chamber；The heat exchanger includes first runner and second flow channel, and the outlet flow is connected to the first runner；

The center line of the core assembly accommodating chamber and the face of the heat exchanger matched with the valve body it is substantially parallel or Shape has angle β between the outlet flow and the center line of the core assembly accommodating chamber, the value range of the angle β: 90 ° of β≤180 ° <；Or the heat-exchange device includes mounting plate, the center line of the core assembly accommodating chamber and the peace The face of loading board matched with the valve body is substantially parallel.

2. heat-exchange device according to claim 1, which is characterized in that

The heat-exchange device includes core assembly and coil block, and the core assembly or part core assembly are located at the valve Core assembly accommodating chamber, the heat-exchange device further include the first adapter tube, the second adapter tube and third adapter tube, and the mounting plate includes using In the first through hole of fixed installation first adapter tube, the second through-hole for second adapter tube to be fixedly mounted, for fixing The third through-hole and fourth hole of the third adapter tube are installed；

It is provided on the side wall of the outlet side of the outlet flow of the valve body and protrudes from one spacing of side wall From first step portion, the first step portion protrudes into the fourth hole, and the outlet flow directly passes through the four-way Hole is connected to the first runner.

3. heat-exchange device according to claim 2, which is characterized in that in the outlet of the outlet flow of the valve body The second step portion for protruding from the side wall certain distance is additionally provided on the side wall of side, the second step portion includes The end face of one circular ring shape, the first step portion protrude from the end face, and the height in the second step portion is X, the value model of X It encloses are as follows: 0.1mm≤X≤1mm, and the one side wall of valve body where the outer end in the second step portion and second step portion is outer It is maintained a certain distance between end；

For the valve body with the mounting plate by being welded and fixed, the circular ring shape end face is welding surface.

4. heat-exchange device according to claim 2, which is characterized in that in the outlet of the outlet flow of the valve body It is additionally provided with a pit on the side wall of side, is formed with second step portion, the second step portion packet around the pit The end face of a circular ring shape is included, the first step portion protrudes from the end face, and the height in the second step portion is X, the value of X Range are as follows: 0.1mm≤X≤1mm；

For the valve body with the mounting plate by being welded and fixed, the circular ring shape end face is welding surface.

5. heat-exchange device according to claim 2, which is characterized in that the valve body is solid by screw and the mounting plate Dingan County's dress, is provided with sealing ring, the first step between the outer wall in the first step portion and the inner wall of the fourth hole The groove for installing the sealing ring is offered on the outer wall in portion；Or the face of the mounting plate matched with the valve body It is provided with sealing ring between the mounting plate, the groove for installing the sealing ring is provided on the mounting plate.

6. heat-exchange device according to any one of claims 1 to 5, which is characterized in that the center line of the core assembly The value range of angle α is formed between the mounting plate are as follows: 0 °≤α≤90 °, the outlet flow and the core assembly hold Receive the central axis of chamber.

7. the heat-exchange device according to any one of claim 2-5, which is characterized in that the first step portion and/or Second step portion is cylindrical-shaped structure or polygon prism shape structure；

The side wall of the open end side of the core assembly accommodating chamber of the valve body is a slope, and the core assembly accommodates Slope described in the central axis of chamber, the angle β between the outlet flow and the center line of core assembly accommodating chamber are greater than 90 ° and be less than or equal to 165 °.

8. heat-exchange device according to claim 7, which is characterized in that the first through hole and the second through-hole are changed with described The second flow channel of hot device is connected to, and the third through-hole is connected to the first runner of the heat exchanger, and the first runner includes system Cryogen import and refrigerant outlet, the second flow channel include cooling liquid inlet and cooling liquid outlet, the first through hole and cold But liquid import is round and coaxial or eccentric setting, and the internal diameter of the first through hole is greater than the internal diameter of the cooling liquid inlet, To form step；Second through-hole and cooling liquid outlet are round and coaxial or eccentric setting, second through-hole it is interior Diameter is greater than the internal diameter of cooling liquid outlet, to form step；The third through-hole and refrigerant outlet are round and coaxial or inclined Heart setting, the internal diameter of the third through-hole is greater than the internal diameter of refrigerant outlet, to form step.

9. heat-exchange device according to claim 8, which is characterized in that the fourth hole and refrigerant inlet are circle Shape and coaxial arrangement, the internal diameter of the fourth hole is less than the internal diameter of refrigerant inlet, and the internal diameter of the fourth hole is small In the internal diameter of third through-hole；

At least two orientation salient points are additionally provided on the side of the first through hole.

10. heat-exchange device according to claim 1, which is characterized in that the mounting plate includes auxiliary section and is located at Several mounting holes on the outside of auxiliary section, the valve body are matched with the auxiliary section, and the heat-exchange device further includes first connecing Pipe, the second adapter tube and third adapter tube, the auxiliary section include for the first through hole of first adapter tube to be fixedly mounted, for solid Dingan County fills the second through-hole of second adapter tube, third through-hole and fourth hole for the third adapter tube to be fixedly mounted；

It is provided on the side wall of the outlet side of the outlet flow of the valve body and protrudes from one spacing of side wall From first step portion, the first step portion protrudes into the fourth hole, and the outlet flow directly passes through the four-way Hole is connected to the first runner；

It is additionally provided with that protrude from the side wall certain on the side wall of the outlet side of the outlet flow of the valve body The second step portion of distance, the second step portion include the end face of a circular ring shape, and the first step portion protrudes from the end Face, the height in the second step portion are X, the value range of X are as follows: 0.1mm≤X≤1mm, and the second step portion is outer It is maintained a certain distance between the outer end of the one side wall of valve body where end and second step portion；

For the valve body with the mounting plate by being welded and fixed, the circular ring shape end face is welding surface；

It is additionally provided with a pit on the side wall of the outlet side of the outlet flow of the valve body, surrounds the pit It is formed with second step portion, the second step portion includes the end face of a circular ring shape, and the first step portion protrudes from the end Face, the height in the second step portion are X, the value range of X are as follows: 0.1mm≤X≤1mm；

For the valve body with the mounting plate by being welded and fixed, the circular ring shape end face is welding surface；

The first step portion and/or second step portion are cylindrical-shaped structure or polygon prism shape structure；

The first through hole and the second through-hole are connected to the second flow channel of the heat exchanger, the third through-hole and the heat exchanger First runner connection, the first runner includes refrigerant inlet and refrigerant outlet, and the second flow channel includes coolant liquid Import and cooling liquid outlet, the first through hole and cooling liquid inlet are round and coaxial or eccentric setting, and described first is logical The internal diameter in hole is greater than the internal diameter of the cooling liquid inlet, to form step；Second through-hole and cooling liquid outlet are circle And coaxial or eccentric setting, the internal diameter of second through-hole is greater than the internal diameter of cooling liquid outlet, to form step；The third is logical Hole and refrigerant outlet are round and coaxial or eccentric setting, and the internal diameter of the third through-hole is greater than the interior of refrigerant outlet Diameter, to form step；The fourth hole and refrigerant inlet are round and are coaxially disposed, and the internal diameter of the fourth hole is small In the internal diameter of refrigerant inlet, and the internal diameter of the fourth hole is less than the internal diameter of third through-hole；

At least two orientation salient points are additionally provided on the side of the first through hole.