CN206019425U

CN206019425U - Heat-exchanging component

Info

Publication number: CN206019425U
Application number: CN201620750570.7U
Authority: CN
Inventors: 不公告发明人
Original assignee: Hangzhou Sanhua Research Institute Co Ltd
Current assignee: Zhejiang Sanhua Automotive Components Co Ltd
Priority date: 2016-07-14
Filing date: 2016-07-14
Publication date: 2017-03-15
Anticipated expiration: 2026-07-14

Abstract

The utility model discloses a kind of heat-exchanging component, including first, second heat exchange core body；First heat exchange core body includes the first duct, second duct, 3rd duct and the 4th duct, second heat exchange core body includes the 5th duct, 6th duct, seven apertures in the human head road and octal road, first duct forms a part for first fluid passage with the second hole link, 3rd duct, 4th duct, seven apertures in the human head road and the 8th hole link form a part for second fluid passage, 5th duct forms a part for the 3rd fluid passage with the 6th hole link, heat-exchanging component includes the first plate and the second plate, first plate and the assembling of the first heat exchange core body are fixed, second plate and the assembling of the second heat exchange core body are fixed, it is bolted between first plate and the second plate.The utility model arranges first fluid passage, second fluid passage and the 3rd fluid passage, can achieve the heat exchange of three kinds of fluids, not only simplifies pipeline arrangement, and the thermal efficiency is high.

Description

Heat-exchanging component

Technical field

The utility model is related to technical field of heat exchange.

Background technology

Electric vehicle or motor vehicle driven by mixed power battery need to be heated or cooled in operation, so that battery is in suitable Operating temperature range, when battery operated, heat can be produced, when therefore environment temperature reaches to a certain degree, need cooling system pair Battery is cooled down, and is filled with coolant in cooling system, by the circulation of coolant, realizes the cooling of battery.Hybrid power The engine of vehicle can produce heat, it is also desirable to cooled down in running, and therefore engine is also required to cooling system and enters Row cooling.

Plate type heat exchanger is usually used in existing vehicle coolant is heated or cooled, and plate type heat exchanger and miscellaneous part Between connected by pipeline, and be separately mounted on vehicle, take up room larger, need two or more in cooling system Plate type heat exchanger carry out coolant circulation when, the independent installation with vehicle of each plate type heat exchanger is fixed, and is required for each other Connected using pipeline, take up room big, and need a lot of pipelines.

Utility model content

The purpose of this utility model is to provide a kind of heat-exchanging component that can simplify pipeline arrangement and raising heat exchange efficiency.

For achieving the above object, adopt the following technical scheme that：A kind of heat-exchanging component, changes including the first heat exchange core body, second Hot core body, first heat exchange core body arrange first fluid passage, and first heat exchange core body, the second heat exchange core body arrange second Fluid passage, second heat exchange core body arrange the 3rd fluid passage；First heat exchange core body at least include the first duct, Two ducts, the 3rd duct and the 4th duct, second heat exchange core body at least include the 5th duct, the 6th duct, seven apertures in the human head road With octal road, first duct forms a part for the first fluid passage with second hole link, and described Three ducts and the 4th hole link, the seven apertures in the human head road and the 8th hole link, the 3rd duct, the 4th hole Road, seven apertures in the human head road, octal road form a part for the second fluid passage, and the 5th duct is connected with the 6th duct The logical part for forming the 3rd fluid passage；Wherein, first fluid passage, second fluid passage, the 3rd fluid passage phase Mutually isolate；

The heat-exchanging component at least includes first interface, second interface, the 3rd interface, the 4th interface, the 5th interface and Six interfaces, the first interface and first hole link, the second interface and second hole link, the described 3rd Interface and the 3rd hole link, the 5th interface and the 5th hole link, the 6th interface and the described 6th Hole link, the 4th interface and the 7th hole link or the 4th interface and the 4th hole link or 4th interface and the 8th hole link, the first interface, second interface are located at the side of the heat-exchanging component, institute State the opposite side of the 5th interface, the 6th interface positioned at the heat-exchanging component；

The heat-exchanging component includes that the first plate and the second plate, first plate are assembled with first heat exchange core body Fixed, second plate is fixed with second heat exchange core body assembling, is led between first plate and second plate Cross bolt to fix.

Above-mentioned technical proposal of the present utility model arranges first fluid passage, second fluid passage and the 3rd fluid passage, The heat exchange of three kinds of fluids is can achieve, is not only simplified pipeline arrangement, and heat exchange efficiency is high.

Description of the drawings

Three-dimensional combination diagrams of the Fig. 1 for a kind of embodiment of heat-exchanging component；

Three-dimensional combination diagrams of the Fig. 2 for the another embodiment of heat-exchanging component；

Perspective exploded views of the Fig. 3 for heat-exchanging component shown in Fig. 2；

Fig. 4 is cut-away illustration of the heat-exchanging component along line A-A shown in Fig. 2；

Fig. 5 is cut-away illustration of the heat-exchanging component along line B-B shown in Fig. 2；

Three-dimensional combination diagrams of the Fig. 6 for another embodiment of heat-exchanging component；

Perspective exploded views of the Fig. 7 for heat-exchanging component shown in Fig. 6；

Three-dimensional combination diagrams of the Fig. 8 for heat-exchanging component another embodiment；

Perspective exploded views of the Fig. 9 for heat-exchanging component shown in Fig. 8；

Dimensional structure diagrams of the Figure 10 for another embodiment of heat-exchanging component.

Specific embodiment

Fig. 1 illustrates the three-dimensional schematic diagram of heat-exchanging component 1.Fig. 2 illustrates the three-dimensional of heat-exchanging component 1 ' Schematic diagram, reference picture 1- Fig. 5, heat-exchanging component 1,1 ' include the first heat exchange core body 11, the second heat exchange core body 12, the first heat exchange core body 1 arranges first fluid passage 16, and the first heat exchange core body 11, the second heat exchange core body 12 arrange a part for second fluid passage 17, Second heat exchange core body 12 arranges the 3rd fluid passage 18.

First heat exchange core body 11 at least includes the first duct 1101, the second duct 1102, the 3rd duct 1103, the 4th duct 1104, the first heat exchange core body 11 generally rectangular structure, the first duct 1101, the second duct 1102, the 3rd duct 1103, Four ducts 1104 are located at the neighbouring corner location of the first heat exchange core body 11.Wherein, the first duct 1101 is connected with the second duct 1102 The logical part for forming first fluid passage 16, the 3rd duct 1103 connects to form second fluid passage 17 with the 4th duct 1104 A part.

Second heat exchange core body 12 at least includes the 5th duct 1201, the 6th duct 1202, seven apertures in the human head road 1203, octal road 1204, the second heat exchange core body 12 generally rectangular structure, the 5th duct 1201, the 6th duct 1202, seven apertures in the human head road 1203, Octal road 1204 is located at the neighbouring corner location of the second heat exchange core body 12.Wherein, the 5th duct 1201 is connected with the 6th duct 1202 The logical part for forming the 3rd fluid passage 18, seven apertures in the human head road 1203 connects to form second fluid passage 17 with octal road 1204 A part.Wherein, there is external port, inner port P4, octal road 1204 there is external port, inner port in the 4th duct 1104 P8, the external port closing in the 4th duct 1104, the external port closing in octal road 1204, i.e. the 3rd duct 1103, the 4th duct 1104th, the connection of octal road 1204, seven apertures in the human head road 1203 is formed as a part for second fluid passage 17.Herein, external port Refer to that the port being located relatively at outside heat exchange core body, inner port refer to the port being located relatively inside heat exchange core body.

It should be known that the first duct 1101 as herein described, the second duct 1102, the 3rd duct 1103, the 4th duct 1104th, the 5th duct 1201, the 6th duct 1202, the seven apertures in the human head road 1203, position in octal road 1204 are not limited to accompanying drawing institute Show position, such as the first duct 1101,1102 location swap of the second duct, the 3rd duct, the 4th duct location swap, the 5th hole Road, the 6th duct location swap, seven apertures in the human head road, octal road location swap are fallen within broad scope hereof.

Heat-exchanging component 1,1 ' also includes first interface 1105, second interface 1106, the 3rd interface 1107, the 4th interface 1205th, the 5th interface 1206 and the 6th interface 1207, first interface 1105 are connected with the first duct 1101, second interface 1106 with Second duct 1102 connects, and the 3rd interface 1107 is connected with the 3rd duct 1103, and the 4th interface 1205 is connected with seven apertures in the human head road 1203 Logical, the 5th interface 1206 is connected with the 5th duct 1201, and the 6th interface 1207 is connected with the 6th duct 1202, first interface 1105th, second interface 1106, the 3rd interface 1107 are located at the side of heat-exchanging component 1, the 4th interface 1205,1206 and of the 5th interface 6th interface 1207 is located at the opposite side of heat-exchanging component 1.

Heat-exchanging component 1,1 ' includes at least one connecting plate 13, and the first heat exchange core body 11 is located at 13 side of connecting plate, second Heat exchange core body 12 is located at the opposite side of connecting plate 13, and connecting plate 13 is fixedly installed with the first heat exchange core body 11, connecting plate 13 and the Two heat exchange core bodies 12 are fixedly installed, for example, pass through to be welded and fixed or super glue viscose glue or bolt fixation etc..Connecting plate 13 includes Through hole 1301, through hole 1301 are at least partly overlapped with the port in the 4th duct 1104, the end in through hole 1301 and octal road 1204 Mouth at least partly overlaps, and through hole 1301 connects the 4th duct 1104 and octal road 1204.More specifically, the 4th duct 1104 Inner port P4 connected by through hole 1301 with inner port P8 in octal road 1204.

Herein, the port in through hole 1301 and the 4th duct 1104 at least partly overlaps including through hole 1301 center line and The center line in the 4th duct 1104 overlaps, and the center line of through hole 1301 and the center line in the 4th duct 1104 are deviated from each other The port in situation, wherein part or all of through hole 1301 and the 4th duct 1104 part or all overlap mutually to interconnect Logical.At least part of center line and octal road overlapped including through hole 1301 of through hole 1301 and the port in octal road 1204 1204 center line overlaps, and the situation that the center line of the center line and octal road 1204 of through hole 1301 is deviated from each other, its Part or all of middle through hole 1301 overlaps to be interconnected with part or all of the port in octal road 1204.Herein In, the not position relationship in limited hole 1301 and the 4th duct 1104, the also position in not limited hole 1301 and octal road 1204 Put relation.

First heat exchange core body 11 includes multiple first plates 1111, and each first plate 1111 includes plate plane and flange, Flange is located at plate planar perimeter, and adjacent plate plane-welding is fixed, and at least a portion of adjacent flange is welded and fixed.Most In the case of number, each plate in the first plate 1111 includes 4 corner apertures, and the first plate 1111 is laminated, on the first plate Corner apertures aligns to form 4 ducts, and such first plate 1111 forms the first duct 1101, the second duct the 1102, the 3rd after being laminated Duct 1103 and the 4th duct 1104, the first plate include the first top board 1109 positioned at first 11 liang of sides of heat exchange core body and One base plate 1110, the first top board 1109 are welded and fixed with least one connecting plate 13, and the first base plate 1110 is located at flange towards side. First duct 1101 includes that inner port P1 of relatively close connecting plate 13, the second duct 1102 include relatively close connecting plate 13 Inner port P2, the 3rd duct 1103 include that inner port P3 of relatively close connecting plate 13, connecting plate 13 close the first duct 1101 Inner port P1, inner port P2 in the second duct 1102 and the 3rd duct 1103 inner port P3；When so processing, can be right First plate (including the first top board, the first base plate) directly punching processing, convenient processing, is easy to produce in batches.Remove above-mentioned enforcement Outside mode, the first top board 1109 in the first plate 1111 can also only include 1 corner apertures, this corner apertures and other first plates Corner apertures on 1111 aligns to form the 4th duct 1104, and 1101 relatively close connecting plate 13 of the first duct closed by the first top board 1109 Port, the first top board 1109 closes inner port P2 in second duct 1102, and the 3rd duct 1103 closed by the first top board 1109 Inner port P3, the first top board be connected plate weld, now connecting plate is i.e. applicable in the case of thinner thickness, not only save material Material, and make heat-exchanging component overall structure lighter in weight.Certainly, the first top board may also include two or three corner apertures, these Corner apertures is closed by connecting plate.

Second heat exchange core body 12 includes multiple second plates 1210, and each second plate 1210 includes plate plane and flange, Flange is located at plate planar perimeter, and adjacent plate plane-welding is fixed, and at least a portion of adjacent flange is welded and fixed.Most In the case of number, each plate in the second plate 1210 includes that 4 corner apertures, the second plate 1210 are laminated, the second plate 1210 On corner apertures align to form 4 ducts, such second plate 1210 formed after being laminated the 5th duct 1201, the 6th duct 1202, Seven apertures in the human head road 1203 and octal road 1204, the second plate 1210 include the second top board positioned at second 12 liang of sides of heat exchange core body 1208 and second base plate 1209, the second top board 1208 is welded and fixed with connecting plate 13, and the second base plate 1209 is located at flange towards side. 5th duct 1201 includes that inner port P5 of relatively close connecting plate 13, the 6th duct 1202 include relatively close connecting plate 13 Inner port P6, seven apertures in the human head road 1203 include that inner port P7 of relatively close connecting plate 13, connecting plate 13 close the 5th duct 1201 Inner port P5, inner port P6 in the 6th duct 1202, inner port P7 in seven apertures in the human head road 1203；When so processing, can be right Second plate (including the second top board, the second base plate) directly punching processing, convenient processing, is easy to produce in batches.Remove above-mentioned enforcement Outside mode, the second top board in the second plate 1210 can also only include the angle on 1 corner apertures, this corner apertures and other second top boards Hole aligns to form the part in octal road 1204, and inner port P5 in the 5th duct 1201 closed by the second top board, and the second top board is sealed Close inner port P6 in the 6th duct 1202, inner port P7 in the second top board closing seven apertures in the human head road 1203, the second top board and connecting plate Welding, now connecting plate is i.e. applicable in the case of thinner thickness, not only material-saving, and makes heat-exchanging component overall structure Lighter in weight.Certainly, the second top board may also include two or three corner apertures.

Heat-exchanging component 1,1 ' includes that the first solder accumulation region and the second solder accumulation region, the first solder accumulation region are located at first Heat exchange core body 11 forms the perisporium and connecting plate 13 in the 4th duct 1104 and is formed between the perisporium of through hole 1301, and the first solder is gathered Area is located at 1301 periphery of through hole；Second solder accumulation region is located at perisporium and the company that the second heat exchange core body 12 forms octal road 1204 Fishplate bar 13 is formed between the perisporium of through hole 1301, and the second solder accumulation region is located at 1301 periphery of through hole.Define the first heat exchange core body 11 perisporiums for forming the 4th duct 1104 are the first perisporium, and the perisporium for defining the formation through hole 1301 of connecting plate 13 is the second perisporium, First solder accumulation region is located between the first perisporium and the second perisporium, and the first perisporium and the sealing of the second perisporium are arranged；Definition the It is the 3rd perisporium that two heat exchange core body 12 forms the perisporium in octal road 1204, and the perisporium for defining the formation through hole 1301 of connecting plate 13 is 4th week wall, the second solder accumulation region are located between the 3rd perisporium and 4th week wall, and the 3rd perisporium is set with the sealing of 4th week wall Put.First solder accumulation region, the second solder accumulation region are located at the end that through hole 1301 is connected with through hole 1301 with the 4th duct 1104 Mouth periphery, between such first heat exchange core body 11 and connecting plate 13, in through hole between the second heat exchange core body 12 and connecting plate 13 Fixed by the first solder accumulation region, the second solder accumulation region at 1301, more advantageously prevent fluid from revealing at lead to the hole site.

For making fluid heat transfer in heat exchange core body more thorough and more making full use of plate, the relatively close heat exchange core body in each duct Marginal position, the first heat exchange core body 11 includes the first side 1114 and second side 1115 in neighbouring 4th duct 1104, fixed Adopted through hole 1301 is projected as the first projection on the first heat exchange core body 11, due to first side 1114, second side 1115 with The distance between 4th duct 1104 is relatively near, is to ensure between the first heat exchange core body 11 and connecting plate 1 at 1301 position of through hole Weld strength, the first projection is with the distance between first side 1114 more than or equal to the 4th duct 1104 and first side The distance between 1114, the distance between the first projection and second side 1115 are more than or equal to the 4th duct 1104 and the second side The distance between side 1115；Thus, on the premise of heat exchanging fluid path is as far as possible long, it is to avoid the first heat exchange core body is existed with connecting plate At neighbouring first side 1114,1115 position of second side, not prison welding is solid, fluid leakage occurs.

In the same manner, the second heat exchange core body 12 includes the 3rd side 1213 and the four side 1214 in neighbouring octal road 1204, Define through hole 1301 and be projected as the second projection on the second heat exchange core body 12, between the second projection and the 3rd side 1213 away from From the distance between octal road 1204 and the 3rd side 1213 is more than or equal to, second projects and four side 1214 between Distance is more than or equal to the distance between octal road 1204 and four side 1214.So ensure connecting plate 13 and the first heat exchange The bonding area of core body 11, the second heat exchange core body 12 at 1301 position of through hole is larger, strengthens welding fastness, prevents fluid here There is leakage in place.

As shown in Figure 3-Figure 5, connecting plate 13 is one, and connecting plate 13 includes face side 1305 and reverse side 1306, front Side 1305 and reverse side 1306 are practised physiognomy back to 13 both sides plate face of connecting plate, face side 1305 is arranged on the first heat exchange core body 11 To setting, the 12 facing setting of reverse side 1306 and the second heat exchange core body, the face side 1305 of connecting plate 13 and the first heat exchange core Body 11 (such as the first top board 1109) is welded and fixed, the reverse side 1306 of connecting plate 13 and the second heat exchange core body 12 (such as second 1208) top board is welded and fixed；It is welded and fixed by connecting plate 13 between first heat exchange core body 11 and the second heat exchange core body 12, structure Simply, convenient processing.The face side 1305 of connecting plate 13 or the first heat exchange core body 11 are arranged towards the side coating of connecting plate 13 There are composite material, the reverse side of connecting plate 13 or the second heat exchange core body 12 to be provided with towards the side coating of connecting plate 13 compound Layer material.Heat-exchanging component cross stove weld when, composite material melt, realize the first heat exchange core body, the second heat exchange core body and The firm welding of connecting plate.Herein, connecting plate 13 is not limited to one, and connecting plate 13 can be two, two connecting plate opposite face welderings Connect to form an entirety.Herein, composite material be Al-Si-Mg series solder, Al-Si-Mg series solder include Si, Fe, Cu, Mn, Mg, Zn and other, alloy designations be, for example, 4N04,4104,4004.

Fig. 6 is heat-exchanging component 1 " three-dimensional schematic diagram, in conjunction with reference to Fig. 6, Fig. 7, connecting plate 13 includes first Plate 131 and the second plate 132, the outside of the first plate 131 are welded and fixed with the first heat exchange core body 11, the second plate 132 Outside is welded and fixed with the second heat exchange core body 12, and 131 outer application of the first plate is provided with composite material or the first heat exchange Core body 11 is provided with composite material towards the side coating of the first plate, and 132 outer application of the second plate arranges composite sheet Material or the second heat exchange core body 12 are provided with composite material towards the side coating of the second plate 132.First plate 131 and Two plates 132 are fixed by bolt 133, nut 134.Herein, outside refers to the sidepiece being located relatively at outside heat exchange core body.

For making positioning more accurate, first hole 1309 of setting, the first plate in the first plate 131 and the second plate 132 Another first positioning boss 1321 of setting in part 131 and the second plate 132,1321 external diameter of the first positioning boss are less than the first hole 1309 and stretch into first hole 1309 or be extending at least partially into the first hole 1309, the first positioning boss 1321 forms the second hole 1310, the second hole 1310 is located at 1321 centre position of the first positioning boss, and the first hole 1309 is connected with the second hole 1310, and is exchanged heat Component is provided with sealing ring 1311 in the first hole 1309 and 1321 correspondence position of the first positioning boss, and the first hole 1309 and first is fixed By sealing ring 1311, position boss 1321 realizes that sealing is fixed.Inner port P4 in the 4th duct 1104 is interior with octal road 1204 Port P8 is connected with the second hole 1310 by the first hole 1309.First plate 131 includes consolidating positioned at the first of heat-exchanging component periphery Determine hole 1312, the second plate 132 includes the second fixing hole 1322 positioned at heat-exchanging component periphery, the first fixing hole 1312 and second Fixing hole 1322 is located at the outside of heat exchange core body, and the first fixing hole and the second fixing hole are not at the same side of heat-exchanging component, the One plate 131 and the second plate 132 are realized solid by the bolt 133 for inserting the second fixing hole 1322 and in the first fixing hole 1312 Fixed.First plate 131 is welded and fixed with the first heat exchange core body 11, and the second plate 132 is welded and fixed with the second heat exchange core body 12, is had Beneficial to welding quality is ensured, the problem that leaking occurs in failure welding is reduced.First plate can close the inner port in the first duct, The inner port in two ducts, the inner port in the 3rd duct；Second plate can close the inner port in the 5th duct, the inner in the 6th duct Mouth, the inner port in seven apertures in the human head road.As described above, the inner port in the first duct, the inner port in the second duct, the inner in the 3rd duct Mouth also can be closed by the first top board, and the inner port in the 5th duct, the inner port in the 6th duct, the inner port in seven apertures in the human head road also may be used Closed by the second top board.

Connecting plate 13 is provided with least one installing arm 1303, in the feelings that connecting plate 13 includes the first plate, the second plate Under condition, at least one of the first plate or the second plate are provided with least one installing arm, and installing arm 1303 is changed positioned at first Outside hot core body 11, the second heat exchange core body 12, installing arm 1303 includes two or more installing holes 1304, installing hole The 1304 opposite sides positions for being arranged at heat-exchanging component, installing hole 1304 is used for and external structure is assembled, for example, carry out with vehicle Install and fix.

First heat exchange core body and the second heat exchange core body herein is not limited to four ducts, and the first heat exchange core body can also be wrapped Other communicating passages are included, the second heat exchange core body may also comprise other communicating passages, such as, as another embodiment, changed Hot component can be also arranged through the first heat exchange core body, the communicating passage of the second heat exchange core body, and the 4th interface is passed through with seven apertures in the human head road Communicating passage and connect, thus, first interface, second interface, the 3rd interface can be located at the same of heat-exchanging component with the 4th interface Side, the 5th interface, the 6th interface can be located at the same side of heat-exchanging component.Specifically, the external port in seven apertures in the human head road connects logical with this Road is connected.In addition, seven apertures in the human head road can be also connected by external channel with the 4th interface so that first interface, second interface, the 3rd Interface and the 4th interface can be located at the same side of heat-exchanging component.

Fig. 8 illustrates heat-exchanging component 1 " first duct 1101 and of ' three-dimensional schematic diagram, heat-exchanging component 1 " ' The connection of two duct 1102 forms a part for first fluid passage 16, and the 3rd duct 1103 is connected with the 4th duct 1104, and the 7th Duct 1203 is connected with octal road 1204, and the 3rd duct 1103 is connected with seven apertures in the human head road 1203, the 4th duct 1104 and Octal road 1204 is connected, and the 3rd duct 1103, the 4th duct 1104, seven apertures in the human head road 1203, octal road 1204 form second A part for body passage 17, the 5th duct 1201 connect the part for forming the 3rd fluid passage 18 with the 6th duct 1202；Its In, first fluid passage 16, second fluid passage 17, the 3rd fluid passage 18 are mutually isolated；Heat-exchanging component 1 " ' first interface 1105 are connected with the first duct 1101, and second interface 1106 is connected with the second duct 1102, the 3rd interface 1107 and the 3rd duct 1103 connections, the 4th interface 1205 are connected with the 4th duct 1104, and the 5th interface 1206 is connected with the 5th duct 1201, and the 6th connects Mouthfuls 1207 connect with the 6th duct 1202, and first interface 1105, second interface 1106 are positioned at heat-exchanging component 1 " ' side, the 5th Interface 1206, the 6th interface 1207 are located at heat-exchanging component 1 " ' opposite side.

3rd interface 1107 and the 4th interface 1205 are located at heat-exchanging component 1 " ' side, more specifically, the 3rd interface 1107th, the 4th interface 1205, first interface 1105, second interface 1106 be located at heat-exchanging component 1 " ' the same side；4th duct 1104 there is external port, inner port P4, octal road 1204 there is external port, inner port P8, the 3rd duct 1103 there is outer end Mouth, inner port P3, seven apertures in the human head road 1203 have external port, inner port P7, the external port in the 4th duct 1104 and the 4th interface 1205 connections, inner port P4 in the 4th duct 1104 are connected with inner port P8 in octal road 1204, octal road 1204 External port is closed, and the inner port in the 3rd duct 1103 is connected with the inner port in seven apertures in the human head road 1203, the outer end in seven apertures in the human head road 1203 Mouth closing, the external port in the 3rd duct 1103 are connected with the 3rd interface 1107.

Heat-exchanging component 1 " ' include that at least one connecting plate 13, the first heat exchange core body 11 are located at 13 side of connecting plate, second changes Hot core body 12 is located at 13 opposite side of connecting plate, and connecting plate 13 is fixedly installed with the first heat exchange core body 11, connecting plate 13 and second Heat exchange core body 12 is fixedly installed；Connecting plate 13 includes that first through hole 1301a and the second through hole 1301b, first through hole 1301a are connected 4th duct 1104 and octal road 1204, the second through hole 1301b connect the 3rd duct 1103 and seven apertures in the human head road 1203, more have Body ground, first through hole 1301a connect inner port P4 in the 4th duct 1104 and inner port P8 in octal road 1204, the second through hole 1301b connects inner port P3 in the 3rd duct 1103 and inner port P7 in seven apertures in the human head road 1203.Connecting plate 13 closes the first duct 1101 inner port P1, inner port P2 in the second duct 1102, inner port P5 in the 5th duct 1201, the 6th duct 1202 interior Port P6.

First through hole 1301a is with the first side in the first duct, the relation of second side as described above, in addition, first changes Hot core body 11 includes the second side 1115 and the 5th side 1116 in neighbouring 3rd duct 1103, defines the second through hole 1301b and exists The distance for being projected as the 3rd projection, the 3rd projection and second side 1115 on first heat exchange core body is more than or equal to the 3rd duct It is more than or equal to the 3rd duct and the 5th side with the distance of the distance of second side 1115, the 3rd projection and the 5th side 1116 1116 distance；Second heat exchange core body 12 includes the four side 1214 in neighbouring seven apertures in the human head road 1203 and the 6th side 1215, fixed The distances that be projected as fourth projection, fourth projection and four side 1214 of the second through hole 1301b of justice on the second heat exchange core body More than or equal to seven apertures in the human head road and the distance of four side 1214, the 4th projection is more than or equal to the distance of the 6th side 1215 Seven apertures in the human head road and the distance of the 6th side 1215.Thus, on the premise of heat exchanging fluid path is as far as possible long, it is to avoid the first heat exchange core Body, the second heat exchange core body and connecting plate are in neighbouring second side 1115, the 5th side 1116, four side 1214, the 6th side At 1215 positions, not prison welding is solid, fluid leakage occurs.

In addition to the embodiments described above, the first top board in the first plate 1110, the second top board in the second plate 1210 be also Can only include that 2 corner apertures, one of corner apertures are alignd with octal road, the 4th duct, another corner apertures and the 3rd duct, the 7th Duct is alignd, and the inner port in the first duct closed by the first top board, and the inner port in the second duct, the second top board close the 5th duct Inner port, the inner port in the 6th duct.Certainly, the first top board, the second top board may also include three or four corner apertures, except with first Through hole, other corner apertures of the second logical control alignment are closed by connecting plate.

Reference picture 2- Figure 10, heat-exchanging component 1 ' include that fluid control component 15, fluid control component 15 include the 7th interface 1501st, the 8th interface 1502, the 9th interface 1503 and the tenth interface 1504, connect between the 9th interface 1503 and the 7th interface 1501 Connect and be provided with flow control channel 1506, flow control channel 1506 is connected with first fluid passage 16, flow control channel 1506 is tortuous passageway, and flow control channel 1506 includes the first bonding pad 1507, the second bonding pad 1508 and choke zone 1509, the first bonding pad 1507 is connected with the 9th interface 1503, and the second bonding pad 1508 is connected with the 7th interface 1501, choke zone 1509 the first bonding pads 1507 of connection and the second bonding pad 1508, and the channel sized of choke zone 1509 is variable；Or choke zone 1509 intercept the first bonding pad 1507 and the second bonding pad 1508；7th interface 1501, the 8th interface 1502 are controlled positioned at fluid The same sidepiece of part 15, the 9th interface 1503 and the tenth interface 1504 be located at the same sidepiece of fluid control component 15 and not with 7th interface 1501 is located at same sidepiece；7th interface 1501 is connected with second interface 1106, and the 8th interface 1502 is connect with first Mouth 1105 is connected.The opening of 15 controllable flow rate control passage of fluid control component, closure, size adjustment.

It should be known that the position of fluid control component 15 is not limited to shown in accompanying drawing, fluid control component 15 also can be with Five interfaces, the 6th orifice, or the 3rd interface, the 4th orifice, for example, the 7th interface and the 5th orifice, Six interfaces and the 8th orifice, the 7th interface and the 3rd orifice, the 4th interface and the 8th orifice.Have as one The example of body, flow control channel and second fluid channel connection, the 7th interface and the 3rd orifice, the 8th interface and the 4th Center line and of the distance between the center line of orifice, the center line of the 9th interface and the tenth interface less than the 3rd duct The distance between the center line in four ducts, the 7th interface are strip, one end connection the 9th that the 7th interface is gone up along its length Interface, the other end that the 7th interface is gone up along its length connect the 3rd interface.

More specifically, fluid control component 15 includes that valve body 153, magnetic valve 1505 and mounting blocks 14, valve body 153 include Two positioning aperture (not showing on figure), mounting blocks 14 include and corresponding the second positioning boss 142 in positioning aperture, and each the Two positioning boss 142 are engaged with each positioning aperture, and carry out sealing setting, valve body 153 and mounting blocks by sealing ring 143 It is bolted between 14.

Magnetic valve 1505 is located at the sidepiece of valve body 153, the opening and closure of the control flow control channel of magnetic valve 1505.

During the distance between center line of center line and the tenth interface 1504 of 9th interface 1503 is less than the first duct The distance between the center line in heart line and the second duct, the 7th interface 1501 is strip, and the 7th interface 1501 is along its length On one end connect the 9th interface 1503, the other end that the 7th interface 1501 is gone up along its length connection second interface 1106.This Place's strip means to be approximately elongated, and its shape opposing circular is strip.

Figure 10 illustrates heat-exchanging component 1 " " dimensional structure diagram.The fluid control component of heat-exchanging component 1 shown in Figure 10 " " 15 include that body 151, coil portion 152 and mounting blocks 14, coil portion 152 are enclosed within the outside of body 151, and mounting blocks 14 are also wrapped Accommodating hole 141 is included, body 151 is at least partially disposed at accommodating hole 141, and body 151 stretches into a part for accommodating hole 141 A part for flow control channel is formed, the opening of flow control channel, closure and size adjustment are by the needle in body 151 Motion and realize, the magnetically-actuated of the motion of needle by coil portion 152.Mounting blocks 14 arrange the 7th interface the 1501, the 8th and connect The 1502, the 9th interface 1503 of mouth, the tenth interface 1504.

In practice, inflatable cold-producing medium in first fluid passage 16, inflatable first in second fluid passage 17 Coolant, the second coolant of inflatable in the 3rd fluid passage 18, with reference to Fig. 4 and Fig. 5, cold-producing medium enters through the 9th interface 1503 Enter, flow through flow control channel, through the second duct that the 7th interface 1501, second interface 1106 enter the first heat exchange core body 11 1102, between the plate between the first plate, passage enters the first duct 1101, by first interface 1105, then from the tenth interface 1504 leave.The first coolant in second fluid passage enters seven apertures in the human head road 1203 from the 4th interface 1205, through the second plate Between the plate between piece, passage enters octal road 1204, then passes through through hole 1301, enters the 4th duct 1104, then through first Between the plate between plate, passage flows to the 3rd duct 1103, then leaves from the 3rd interface 1107, and the first coolant is changed first Exchanged heat with cold-producing medium in hot core body 11.The second coolant in 3rd fluid passage 18 enters the 5th from the 5th interface 1206 Duct 1201, between the plate between the second plate, passage enters the 6th duct 1202, then leaves from the 6th interface 1207.The Two coolants are exchanged heat with the first coolant in the second heat exchange core body 12.First coolant and the second coolant are cold in vehicle But can be used for different cooling circuits in system, for example, can be respectively used to cool down battery or engine.

It should be noted that：Above example is merely to illustrate the utility model and not limits described by the utility model Technical scheme, for example to "front", "rear", "left", "right", " on ", D score isotropy define, although this specification reference The above embodiments have been carried out describing in detail to the utility model, but, it will be understood by those within the art that, Person of ordinary skill in the field still can be carried out being mutually combined, be changed or equivalent to the utility model, and one Technical scheme and its improvement without departing from spirit and scope of the present utility model is cut, all should cover will in right of the present utility model In the range of asking.

Claims

1. a kind of heat-exchanging component, including the first heat exchange core body, the second heat exchange core body, first heat exchange core body arranges first fluid Passage, first heat exchange core body, the second heat exchange core body arrange second fluid passage, and second heat exchange core body arranges the 3rd and flows Body passage；First heat exchange core body at least includes the first duct, the second duct, the 3rd duct and the 4th duct, described second Heat exchange core body at least includes the 5th duct, the 6th duct, seven apertures in the human head road and octal road, first duct and second hole Road connects the part to form the first fluid passage, the 3rd duct and the 4th hole link, the seven apertures in the human head Road and the 8th hole link, the 3rd duct, the 4th duct, seven apertures in the human head road, octal road form the second fluid A part for passage, the 5th duct form a part for the 3rd fluid passage with the 6th hole link；Wherein, First fluid passage, second fluid passage, the 3rd fluid passage are mutually isolated；

The heat-exchanging component at least includes that first interface, second interface, the 3rd interface, the 4th interface, the 5th interface and the 6th connect Mouth, the first interface and first hole link, the second interface and second hole link, the 3rd interface With the 3rd hole link, the 5th interface and the 5th hole link, the 6th interface and the 6th duct Connection, the 4th interface and the 7th hole link or the 4th interface and the 4th hole link or described 4th interface and the 8th hole link, the first interface, second interface are located at the side of the heat-exchanging component, and described the Five interfaces, the 6th interface are located at the opposite side of the heat-exchanging component；

The heat-exchanging component includes the first plate and the second plate, and first plate is solid with first heat exchange core body assembling Fixed, second plate is fixed with second heat exchange core body assembling, is passed through between first plate and second plate Bolt is fixed.

2. heat-exchanging component according to claim 1, in first plate and the second plate, one is provided with the first hole, another One is provided with the first positioning boss, and first positioning boss stretches into first hole or is extending at least partially into described first Hole, and the heat-exchanging component is provided with sealing ring in first positioning boss with first hole correspondence position；

First positioning boss forms the second hole, second hole position in the first positioning boss zone line, described first Hole is connected with second hole, the inner port in the 4th duct and the inner port in the octal road by first hole, Second hole is connected.

3. heat-exchanging component according to claim 1 and 2, it is characterised in that：First plate and first heat exchange core Body is welded and fixed, and second plate is welded and fixed with second heat exchange core body, in first plate or the second plate At least one is provided with least one installing arm, and installing arm is located at outside first heat exchange core body, the second heat exchange core body, described Installing arm includes that at least two installing holes, the installing hole are arranged at the opposite sides position of the heat-exchanging component.

4. heat-exchanging component according to claim 1 and 2, it is characterised in that：First plate is included positioned at the heat exchange First fixing hole of component periphery, second plate include the second fixing hole positioned at the heat-exchanging component periphery, described With second fixed hole position in first heat exchange core body, the outside of the second heat exchange core body, described first fixes one fixing hole Hole is not at the same side of the heat-exchanging component with second fixing hole.

5. heat-exchanging component according to claim 3, it is characterised in that：First plate is included positioned at the heat-exchanging component First fixing hole of periphery, second plate include the second fixing hole positioned at the heat-exchanging component periphery, and described first is solid Determine hole and second fixed hole position in first heat exchange core body, the outside of the second heat exchange core body, first fixing hole with Second fixing hole is not at the same side of the heat-exchanging component.

6. the heat-exchanging component according to claim 1 or 2 or 5, it is characterised in that：4th interface and the seven apertures in the human head road Connection, the 4th duct and the 8th hole link, the first interface, second interface, the 3rd interface are located at described changing The side of hot component, the 4th interface, the 5th interface, the 6th interface are located at the opposite side of the heat-exchanging component；Described 4th There is external port, inner port, the external port that the octal road has external port, inner port, the 4th duct to close in duct, The inner port in the 4th duct is connected with the inner port in the octal road, the external port closing in the octal road.

7. heat-exchanging component according to claim 3, it is characterised in that：4th interface and the 7th hole link, 4th duct and the 8th hole link, the first interface, second interface, the 3rd interface are located at the heat-exchanging component Side, the 4th interface, the 5th interface, the 6th interface be located at the heat-exchanging component opposite side；The 4th duct tool There are external port, an inner port, the octal road has external port, an inner port, the external port closing in the 4th duct, described the The inner port in four ducts is connected with the inner port in the octal road, the external port closing in the octal road.

8. heat-exchanging component according to claim 4, it is characterised in that：4th interface and the 7th hole link, 4th duct and the 8th hole link, the first interface, second interface, the 3rd interface are located at the heat-exchanging component Side, the 4th interface, the 5th interface, the 6th interface be located at the heat-exchanging component opposite side；The 4th duct tool There are external port, an inner port, the octal road has external port, an inner port, the external port closing in the 4th duct, described the The inner port in four ducts is connected with the inner port in the octal road, the external port closing in the octal road.

9. the heat-exchanging component according to claim 1 or 2 or 5, it is characterised in that：4th interface and the seven apertures in the human head road Connection, the 4th duct and the 8th hole link, the 3rd interface are located at the heat exchange group with the 4th interface The side of part；The heat-exchanging component is arranged and runs through first heat exchange core body, the communicating passage of the second heat exchange core body, and the described 4th Interface is connected by the communicating passage with the seven apertures in the human head road, and the 4th duct has external port, inner port, and described Octal road has external port, an inner port, the external port closing in the 4th duct, the inner port in the 4th duct and described the The inner port in octal road is connected, and the external port closing in the octal road, the seven apertures in the human head road have external port, and the described 7th The external port in duct is connected with the communicating passage.

10. heat-exchanging component according to claim 3, it is characterised in that：4th interface and the 7th hole link, 4th duct and the 8th hole link, the 3rd interface are located at the one of the heat-exchanging component with the 4th interface Side；The heat-exchanging component is arranged and runs through first heat exchange core body, the communicating passage of the second heat exchange core body, the 4th interface with The seven apertures in the human head road is connected by the communicating passage, and the 4th duct has external port, inner port, the octal road There is external port, inner port, the external port closing in the 4th duct, the inner port in the 4th duct and the octal road Inner port be connected, the closing of the external port in the octal road, the seven apertures in the human head road have external port, the seven apertures in the human head road External port is connected with the communicating passage.

11. heat-exchanging components according to claim 4, it is characterised in that：4th interface and the 7th hole link, 4th duct and the 8th hole link, the 3rd interface are located at the one of the heat-exchanging component with the 4th interface Side；The heat-exchanging component is arranged and runs through first heat exchange core body, the communicating passage of the second heat exchange core body, the 4th interface with The seven apertures in the human head road is connected by the communicating passage, and the 4th duct has external port, inner port, the octal Road has external port, inner port, the external port closing in the 4th duct, the inner port in the 4th duct and the octal The inner port in road is connected, and the external port closing in the octal road, the seven apertures in the human head road have external port, the seven apertures in the human head road External port connect with the communicating passage.

12. heat-exchanging components according to claim 1 or 2 or 5 or 7 or 8 or 10 or 11, it is characterised in that：Described first changes Hot core body includes that multiple first plates, first plate are stacked and form first duct, the second duct, the 3rd hole Road and the 4th duct, first plate include the first top board positioned at the first heat exchange core body side, first top board Towards second heat exchange core body, first duct includes the inner port of relatively close second heat exchange core body, described Two ducts include that the inner port of relatively close second heat exchange core body, the 3rd duct include that relatively close described second changes The inner port of hot core body, first top board close the inner port in the first duct, inner port in second duct, described The inner port in the 3rd duct；

And/or second heat exchange core body includes that multiple second plates, second plate are stacked and form the described 5th Duct, the 6th duct, seven apertures in the human head road and octal road, second plate include positioned at the second heat exchange core body side Two top boards, towards first heat exchange core body, the 5th duct includes relatively close first heat exchange to second top board The inner port of core body, the 6th duct include the inner port of relatively close first heat exchange core body, the seven apertures in the human head road bag Include the inner port of relatively close first heat exchange core body, the inner port in the 5th duct, described closed by second top board The inner port in the 6th duct, the inner port in the seven apertures in the human head road.

13. heat-exchanging components according to claim 3, it is characterised in that：First heat exchange core body includes multiple first plates Piece, first plate are stacked and are formed first duct, the second duct, the 3rd duct and the 4th duct, and described One plate includes the first top board positioned at the first heat exchange core body side, and first top board is towards second heat exchange core Body, first duct include that the inner port of relatively close second heat exchange core body, second duct include relatively close The inner port of second heat exchange core body, the 3rd duct include the inner port of relatively close second heat exchange core body, institute State the first top board and close the inner port in first duct, the inner port in second duct, the inner port in the 3rd duct；

14. heat-exchanging components according to claim 4, it is characterised in that：First heat exchange core body includes multiple first plates Piece, first plate are stacked and are formed first duct, the second duct, the 3rd duct and the 4th duct, and described One plate includes the first top board positioned at the first heat exchange core body side, and first top board is towards second heat exchange core Body, first duct include that the inner port of relatively close second heat exchange core body, second duct include relatively close The inner port of second heat exchange core body, the 3rd duct include the inner port of relatively close second heat exchange core body, institute State the first top board and close the inner port in first duct, the inner port in second duct, the inner port in the 3rd duct；

15. heat-exchanging components according to claim 6, it is characterised in that：First heat exchange core body includes multiple first plates Piece, first plate are stacked and are formed first duct, the second duct, the 3rd duct and the 4th duct, and described One plate includes the first top board positioned at the first heat exchange core body side, and first top board is towards second heat exchange core Body, first duct include that the inner port of relatively close second heat exchange core body, second duct include relatively close The inner port of second heat exchange core body, the 3rd duct include the inner port of relatively close second heat exchange core body, institute State the first top board and close the inner port in first duct, the inner port in second duct, the inner port in the 3rd duct；

16. heat-exchanging components according to claim 9, it is characterised in that：First heat exchange core body includes multiple first plates Piece, first plate are stacked and are formed first duct, the second duct, the 3rd duct and the 4th duct, and described One plate includes the first top board positioned at the first heat exchange core body side, and first top board is towards second heat exchange core Body, first duct include that the inner port of relatively close second heat exchange core body, second duct include relatively close The inner port of second heat exchange core body, the 3rd duct include the inner port of relatively close second heat exchange core body, institute State the first top board and close the inner port in first duct, the inner port in second duct, the inner port in the 3rd duct；

17. heat-exchanging components according to claim 1 or 2 or 5 or 7 or 8 or 10 or 11, it is characterised in that：First hole Road includes that the inner port of relatively close first plate, second duct include the interior of relatively close first plate Port, the 3rd duct include that the inner port of relatively close first plate, first plate close first hole The inner port in road, the inner port in second duct, the inner port in the 3rd duct；

And/or the 5th duct includes that the inner port of relatively close second plate, the 6th duct include relative leaning on The inner port of closely described second plate, the seven apertures in the human head road include the inner port of relatively close second plate, described second The inner port in plate closing the 5th duct, the inner port in the 6th duct, the inner port in the seven apertures in the human head road.

18. heat-exchanging components according to claim 3, it is characterised in that：First duct includes relatively close described The inner port of one plate, second duct include that the inner port of relatively close first plate, the 3rd duct include The inner port of relatively close first plate, first plate close the inner port in first duct, second hole The inner port in road, the inner port in the 3rd duct；

19. heat-exchanging components according to claim 4, it is characterised in that：First duct includes relatively close described The inner port of one plate, second duct include that the inner port of relatively close first plate, the 3rd duct include The inner port of relatively close first plate, first plate close the inner port in first duct, second hole The inner port in road, the inner port in the 3rd duct；

20. heat-exchanging components according to claim 6, it is characterised in that：First duct includes relatively close described The inner port of one plate, second duct include that the inner port of relatively close first plate, the 3rd duct include The inner port of relatively close first plate, first plate close the inner port in first duct, second hole The inner port in road, the inner port in the 3rd duct；

21. heat-exchanging components according to claim 9, it is characterised in that：First duct includes relatively close described The inner port of one plate, second duct include that the inner port of relatively close first plate, the 3rd duct include The inner port of relatively close first plate, first plate close the inner port in first duct, second hole The inner port in road, the inner port in the 3rd duct；

22. according to claim 1 or 2 or 5 or 7 or 8 or 10 or 11 or 13 or 14 or 15 or 16 or 18 or 19 or 20 or 21 Heat-exchanging component, it is characterised in that：The heat-exchanging component includes fluid control component, and the fluid control component includes that the 7th connects Mouth, the 8th interface, the 9th interface and the tenth interface, are connected with flow control between the 9th interface and the 7th interface Passage processed, the flow control channel and the first fluid channel connection；7th interface, the 8th interface are located at institute The same sidepiece of fluid control component is stated, the 9th interface and the tenth interface are located at the same of the fluid control component Sidepiece；7th interface is connected with the second interface, and the 8th interface is connected with the first interface.

23. heat-exchanging components according to claim 3, it is characterised in that：The heat-exchanging component includes fluid control component, institute Stating fluid control component includes the 7th interface, the 8th interface, the 9th interface and the tenth interface, the 9th interface and the described 7th Flow control channel is connected between interface, the flow control channel and the first fluid channel connection；Described Seven interfaces, the 8th interface are located at the same sidepiece of the fluid control component, the 9th interface and the tenth interface It is located at the same sidepiece of the fluid control component；7th interface is connected with the second interface, the 8th interface with The first interface connection.

24. heat-exchanging components according to claim 4, it is characterised in that：The heat-exchanging component includes fluid control component, institute Stating fluid control component includes the 7th interface, the 8th interface, the 9th interface and the tenth interface, the 9th interface and the described 7th Flow control channel is connected between interface, the flow control channel and the first fluid channel connection；Described Seven interfaces, the 8th interface are located at the same sidepiece of the fluid control component, the 9th interface and the tenth interface It is located at the same sidepiece of the fluid control component；7th interface is connected with the second interface, the 8th interface with The first interface connection.

25. heat-exchanging components according to claim 6, it is characterised in that：The heat-exchanging component includes fluid control component, institute Stating fluid control component includes the 7th interface, the 8th interface, the 9th interface and the tenth interface, the 9th interface and the described 7th Flow control channel is connected between interface, the flow control channel and the first fluid channel connection；Described Seven interfaces, the 8th interface are located at the same sidepiece of the fluid control component, the 9th interface and the tenth interface It is located at the same sidepiece of the fluid control component；7th interface is connected with the second interface, the 8th interface with The first interface connection.

26. heat-exchanging components according to claim 9, it is characterised in that：The heat-exchanging component includes fluid control component, institute Stating fluid control component includes the 7th interface, the 8th interface, the 9th interface and the tenth interface, the 9th interface and the described 7th Flow control channel is connected between interface, the flow control channel and the first fluid channel connection；Described Seven interfaces, the 8th interface are located at the same sidepiece of the fluid control component, the 9th interface and the tenth interface It is located at the same sidepiece of the fluid control component；7th interface is connected with the second interface, the 8th interface with The first interface connection.

27. heat-exchanging components according to claim 12, it is characterised in that：The heat-exchanging component includes fluid control component, The fluid control component includes the 7th interface, the 8th interface, the 9th interface and the tenth interface, the 9th interface with described Flow control channel is connected between 7th interface, the flow control channel and the first fluid channel connection；Institute State the same sidepiece of the 7th interface, the 8th interface positioned at the fluid control component, the 9th interface and the described tenth Interface is located at the same sidepiece of the fluid control component；7th interface is connected with the second interface, and the described 8th connects Mouth is connected with the first interface.

28. heat-exchanging components according to claim 17, it is characterised in that：The heat-exchanging component includes fluid control component, The fluid control component includes the 7th interface, the 8th interface, the 9th interface and the tenth interface, the 9th interface and described Flow control channel is connected between seven interfaces, the flow control channel and the first fluid channel connection；Described 7th interface, the 8th interface are located at the same sidepiece of the fluid control component, and the 9th interface and the described tenth connects Mouth is located at the same sidepiece of the fluid control component；7th interface is connected with the second interface, the 8th interface Connect with the first interface.

29. heat-exchanging components according to claim 22, it is characterised in that：The fluid control component includes valve body and installation Block, the valve body include that two positioning apertures, the mounting blocks include the second positioning boss corresponding with the positioning aperture, Each second positioning boss described with each positioning aperture be engaged, and by arrange sealing ring sealed, the valve body and It is bolted between the mounting blocks；

During the distance between center line of center line and the tenth interface of 9th interface is less than first duct The distance between heart line and the center line in second duct, the 7th interface are strip, and the 7th interface is along length One end on direction connects the 9th interface, and the other end connection described second that the 7th interface is gone up along its length connects Mouthful；The flow control channel is tortuous passageway, and the flow control channel includes the first bonding pad, the second bonding pad and section Stream area, first bonding pad and the 9th orifice, second bonding pad and the 7th orifice, the section Stream area connects first bonding pad and second bonding pad, and the channel sized of the choke zone can change；Or institute State choke zone and intercept first bonding pad and second bonding pad.

30. heat-exchanging components according to any one of claim 23-28, it is characterised in that：The fluid control component bag Valve body and mounting blocks are included, the valve body includes two positioning apertures, and the mounting blocks include corresponding with the positioning aperture Second positioning boss, each second positioning boss described are engaged with each positioning aperture, and are carried out by setting sealing ring close Envelope, is bolted between the valve body and the mounting blocks；

31. heat-exchanging components according to claim 22, it is characterised in that：The fluid control component includes body, line Circle portion and mounting blocks, the coil portion are enclosed within the outside of the body, and the mounting blocks also include accommodating hole, the body Portion is at least partially disposed at the accommodating hole, and the body stretches into a part for the accommodating hole, and to form the flow control logical The part in road, the mounting blocks arrange the 7th interface, the 8th interface, the 9th interface and the tenth interface；The flow control Passage processed is tortuous passageway, and the flow control channel includes the first bonding pad, the second bonding pad and choke zone, described first Bonding pad and the 9th orifice, second bonding pad and the 7th orifice, the choke zone connection are described First bonding pad and second bonding pad, and the channel sized of the choke zone can change；Or the choke zone intercepts First bonding pad and second bonding pad.

32. heat-exchanging components according to any one of claim 23-28, it is characterised in that：The fluid control component bag Body, coil portion and mounting blocks are included, the coil portion is enclosed within the outside of the body, and the mounting blocks also include accommodating Hole, the body are at least partially disposed at the accommodating hole, and the body stretches into a part for the accommodating hole and form institute A part for flow control channel is stated, the mounting blocks arrange the 7th interface, the 8th interface, the 9th interface and the tenth and connect Mouthful；The flow control channel is tortuous passageway, and the flow control channel includes the first bonding pad, the second bonding pad and section Stream area, first bonding pad and the 9th orifice, second bonding pad and the 7th orifice, described Choke zone connects first bonding pad and second bonding pad, and the channel sized of the choke zone can change；Or The choke zone intercepts first bonding pad and second bonding pad.