CN206944774U - Fluid heat transfer component - Google Patents
Fluid heat transfer component Download PDFInfo
- Publication number
- CN206944774U CN206944774U CN201720597964.8U CN201720597964U CN206944774U CN 206944774 U CN206944774 U CN 206944774U CN 201720597964 U CN201720597964 U CN 201720597964U CN 206944774 U CN206944774 U CN 206944774U
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- Prior art keywords
- hole
- valve block
- fluid
- face
- heat transfer
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Classifications
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B60—VEHICLES IN GENERAL
- B60H—ARRANGEMENTS OF HEATING, COOLING, VENTILATING OR OTHER AIR-TREATING DEVICES SPECIALLY ADAPTED FOR PASSENGER OR GOODS SPACES OF VEHICLES
- B60H1/00—Heating, cooling or ventilating [HVAC] devices
- B60H1/00271—HVAC devices specially adapted for particular vehicle parts or components and being connected to the vehicle HVAC unit
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B60—VEHICLES IN GENERAL
- B60H—ARRANGEMENTS OF HEATING, COOLING, VENTILATING OR OTHER AIR-TREATING DEVICES SPECIALLY ADAPTED FOR PASSENGER OR GOODS SPACES OF VEHICLES
- B60H1/00—Heating, cooling or ventilating [HVAC] devices
- B60H1/00271—HVAC devices specially adapted for particular vehicle parts or components and being connected to the vehicle HVAC unit
- B60H1/00278—HVAC devices specially adapted for particular vehicle parts or components and being connected to the vehicle HVAC unit for the battery
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B60—VEHICLES IN GENERAL
- B60H—ARRANGEMENTS OF HEATING, COOLING, VENTILATING OR OTHER AIR-TREATING DEVICES SPECIALLY ADAPTED FOR PASSENGER OR GOODS SPACES OF VEHICLES
- B60H1/00—Heating, cooling or ventilating [HVAC] devices
- B60H1/32—Cooling devices
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F28—HEAT EXCHANGE IN GENERAL
- F28D—HEAT-EXCHANGE APPARATUS, NOT PROVIDED FOR IN ANOTHER SUBCLASS, IN WHICH THE HEAT-EXCHANGE MEDIA DO NOT COME INTO DIRECT CONTACT
- F28D9/00—Heat-exchange apparatus having stationary plate-like or laminated conduit assemblies for both heat-exchange media, the media being in contact with different sides of a conduit wall
- F28D9/0031—Heat-exchange apparatus having stationary plate-like or laminated conduit assemblies for both heat-exchange media, the media being in contact with different sides of a conduit wall the conduits for one heat-exchange medium being formed by paired plates touching each other
- F28D9/0037—Heat-exchange apparatus having stationary plate-like or laminated conduit assemblies for both heat-exchange media, the media being in contact with different sides of a conduit wall the conduits for one heat-exchange medium being formed by paired plates touching each other the conduits for the other heat-exchange medium also being formed by paired plates touching each other
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F28—HEAT EXCHANGE IN GENERAL
- F28D—HEAT-EXCHANGE APPARATUS, NOT PROVIDED FOR IN ANOTHER SUBCLASS, IN WHICH THE HEAT-EXCHANGE MEDIA DO NOT COME INTO DIRECT CONTACT
- F28D9/00—Heat-exchange apparatus having stationary plate-like or laminated conduit assemblies for both heat-exchange media, the media being in contact with different sides of a conduit wall
- F28D9/0093—Multi-circuit heat-exchangers, e.g. integrating different heat exchange sections in the same unit or heat-exchangers for more than two fluids
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F28—HEAT EXCHANGE IN GENERAL
- F28D—HEAT-EXCHANGE APPARATUS, NOT PROVIDED FOR IN ANOTHER SUBCLASS, IN WHICH THE HEAT-EXCHANGE MEDIA DO NOT COME INTO DIRECT CONTACT
- F28D9/00—Heat-exchange apparatus having stationary plate-like or laminated conduit assemblies for both heat-exchange media, the media being in contact with different sides of a conduit wall
- F28D9/04—Heat-exchange apparatus having stationary plate-like or laminated conduit assemblies for both heat-exchange media, the media being in contact with different sides of a conduit wall the conduits being formed by spirally-wound plates or laminae
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B60—VEHICLES IN GENERAL
- B60H—ARRANGEMENTS OF HEATING, COOLING, VENTILATING OR OTHER AIR-TREATING DEVICES SPECIALLY ADAPTED FOR PASSENGER OR GOODS SPACES OF VEHICLES
- B60H1/00—Heating, cooling or ventilating [HVAC] devices
- B60H1/00271—HVAC devices specially adapted for particular vehicle parts or components and being connected to the vehicle HVAC unit
- B60H2001/00307—Component temperature regulation using a liquid flow
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02T—CLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO TRANSPORTATION
- Y02T10/00—Road transport of goods or passengers
- Y02T10/80—Technologies aiming to reduce greenhouse gasses emissions common to all road transportation technologies
- Y02T10/88—Optimized components or subsystems, e.g. lighting, actively controlled glasses
Landscapes
- Engineering & Computer Science (AREA)
- Physics & Mathematics (AREA)
- Thermal Sciences (AREA)
- Mechanical Engineering (AREA)
- General Engineering & Computer Science (AREA)
- Valve Housings (AREA)
- Cooling Or The Like Of Electrical Apparatus (AREA)
Abstract
The utility model discloses fluid heat transfer component, including fluid control module and fluid heat transfer module, fluid control device includes Base body, valve hole part, Base body has installation cavity, valve hole part is at least partially disposed at installation cavity, valve hole part includes the first valve block, second valve block and transmission parts, first valve block, second valve block is located inside installation cavity, transmission parts and the fixed setting of the second valve block or spacing setting, and second valve block can be rotated with the transmission parts, first valve block is fixedly installed with Base body or spacing setting, second valve block rotates, installation cavity is turned on or is not turned on the second flow path of Base body, second flow path connects with fluid heat transfer module fluid passage.The utility model fluid heat transfer component reduces pipeline arrangement, overall structure compact.
Description
Technical field
It the utility model is related to fluid heat transfer field, more particularly to the fluid heat transfer portion applied to vehicle heat management system
Part.
Background technology
Vehicle heat management system is from the system integration and overall angle, plans as a whole heat, engine or battery and vehicle
Between relation, the system that heat transfer is controlled and optimized using comprehensive means, its can according to driving operating mode and environmental condition, from
Dynamic regulation intensity of cooling is to ensure that cooled object is operated in optimum temperature range, so as to optimize the environmental-protecting performance of vehicle and energy-conservation
Effect, while improve vehicle operational safety and driver comfort etc..But zero used at present in vehicle heat management system
Part is general and vehicle is separately installed, and each parts installing space takes greatly, and needs many pipelines.
Utility model content
The purpose of this utility model is to provide a kind of fluid heat transfer component, reduces pipeline and arrange, overall structure is compact tightly
Gather.
To achieve the above object, adopt the following technical scheme that:A kind of fluid heat transfer component, including fluid control module and stream
Body heat exchange module, the fluid control module and fluid heat transfer module fixed setting, the fluid heat transfer module are at least wrapped
Include first fluid connection chamber and connect chamber with second fluid, the first fluid connect chamber connected with the second fluid chamber mutually every
From and the first fluid connection cavity fluid can connect cavity fluid heat exchange with the second fluid;
The fluid control module includes Base body, valve hole part, and the Base body has installation cavity, the valve element
Part is at least partially disposed at the installation cavity, and the valve hole part includes the first valve block, the second valve block and transmission parts, and described
One valve block, the second valve block are located at the installation cavity, and the transmission parts are fixed with second valve block or spacing setting, and described
Second valve block can rotate with the transmission parts, and first valve block is fixed with the Base body or spacing setting;
The Base body comprises at least the import of fluid first, fluid first outlet, and the Base body comprises at least the
One stream, second flow path, the import of fluid first connect with the first flow path, the fluid first outlet and described second
Fluid communication, the fluid first outlet connect chamber connection with the first fluid;Second valve block can rotate, the peace
It behave affectedly and turns on or be not turned on the second flow path, or changes the flow into the fluid of second flow path;The fluid heat transfer group
Part comprises at least first fluid passage, and the first fluid passage includes the import of fluid first, first flow path, installation cavity, second
Stream, fluid first outlet, first fluid connection chamber.
Above-mentioned technical proposal of the present utility model includes fluid control module and fluid heat transfer module, fluid heat transfer component set
Into the function of having fluid communication and fluid heat transfer, pipeline arrangement is reduced, installing space that is compact-sized and taking is smaller.
Brief description of the drawings
Fig. 1 is a kind of dimensional structure diagram of embodiment of the utility model;
Fig. 2 is the perspective exploded view of structure shown in Fig. 1;
Fig. 3 is the dimensional structure diagram of fluid heat transfer module in Fig. 1;
Fig. 4 is the stereochemical structure decomposing schematic representation of fluid control module in Fig. 1;
Fig. 5 is the dimensional structure diagram of first fluid control device in Fig. 1;
Fig. 6 is the partial schematic sectional view of first fluid control device shown in Fig. 5;
Fig. 7 is the floor map and diagrammatic cross-section of first fluid control device in Fig. 1;
Fig. 8 is the schematic diagram of the first matrix part of first fluid control device in Fig. 1;
Fig. 9 is the perspective exploded view of the first valve hole part of first fluid control device in Fig. 1;
Figure 10 is the first valve block, the schematic diagram of the second valve block of the first valve hole part in Fig. 9;
Figure 11 is the partial schematic sectional view of second fluid control device in Fig. 1;
Figure 12 is another visual angle schematic diagram of second fluid control device in Fig. 1;
Figure 13 is the stereochemical structure decomposing schematic representation of another embodiment of fluid heat transfer module;
Figure 14-Figure 18 is the schematic top plan view under the first valve block and a kind of different conditions of embodiment of the second valve block;
Figure 19 is the structural representation of the another embodiment of valve hole part;
Figure 20 is the structural representation of another embodiment of valve hole part;
Figure 21 is the front schematic view of fluid heat transfer module in Fig. 1;
Figure 22 is along the schematic cross-sectional view in A-A faces in Figure 22;
Figure 23 is along the schematic cross-sectional view in B-B faces in Figure 22.
Embodiment
Reference picture 1- Fig. 4, Fig. 1 illustrate the schematic diagram of fluid heat transfer component 10.Fluid heat transfer component 10 can be used for vehicle
In heat management system, such as new-energy automobile, hybrid vehicle or fuel-engined vehicle.Fluid heat transfer component 10 controls including fluid
Module 2 and fluid heat transfer module 1, fluid control module 2 and the assembling of fluid heat transfer module 1 are fixed, such as are connected through a screw thread solid
Determine mode.Fluid control module can control the flow of outlet fluid and control the conducting of stream or block.
Fluid heat transfer module 1 includes at least one heat exchange core body 11 and at least one mounting blocks 13, heat exchange core body 11 and peace
Fill the assembling of block 13 to fix, such as fixed by welding manner.Mounting blocks 13 include the second installation sidepiece 135 and first and install sidepiece
136, heat exchange core body 11 includes the 3rd installation sidepiece 117, and fluid control module 1 includes connection sidepiece 218, the second installation sidepiece
135 and the 3rd install the assembling fixation of sidepiece 117, such as by being welded and fixed mode.First installation sidepiece 136 is with being connected sidepiece
218 assemblings are fixed, such as by welding, being threadedly coupled fixed or other fixed forms.Fluid heat transfer module 1 and fluid control mould
Block 2 integrates, more compact compact in structure, and the fluid entered from fluid control module 2 in fluid heat transfer module 1
Heat exchange can be carried out with fluid in fluid heat transfer module 1, fluid control module 2 can use the control of fluid flow in the inner.
With reference to Figure 21-Figure 23, fluid heat transfer module 1 includes first fluid first interface 131, first fluid second interface
111st, second fluid first interface 132 and second fluid second interface 112, first fluid first interface 131 may be disposed at installation
Block 13, first fluid second interface 111 may be disposed at heat exchange core body 11 or mounting blocks 13, and second fluid first interface 132 can
Mounting blocks 13 or heat exchange core body 11 are arranged at, second fluid second interface 112 may be disposed at mounting blocks 13 or heat exchange core body
11 (as shown in figure 13, Figure 13 shows the structural representation of fluid heat transfer module 1 ').Fluid heat transfer component 10 comprises at least first
Fluid passage 101, second fluid passage, the 3rd fluid passage 103, the first fluid passage 101 are at least partially disposed at institute
Fluid control module 2 is stated, the first fluid passage 101 is at least partially disposed at the fluid heat transfer module 1, the second
Body passage is at least partially disposed at the fluid control module 2, and the 3rd fluid passage 103 is at least partially disposed at the stream
Body heat exchange module 1.
As a kind of embodiment, fluid heat transfer module 1 includes a heat exchange core body 11, is described below for convenience, herein
Heat exchange core body is defined as the first heat exchange core body 11, and the first heat exchange core body 11 includes first fluid connection chamber 14 and connected with second fluid
It is mutually isolated that chamber 15, wherein first fluid connection chamber 14 connects chamber 15 with second fluid, in first fluid connection chamber 14, second
Fluid, which is connected with second fluid in chamber 15, in body connection chamber 15 in the case of fluid temperature (F.T.) difference, in first fluid connection chamber 14 flows
Heat exchange can be achieved in body in the first heat exchange core body 11.First fluid connection chamber 14 includes the first duct 113 and the second duct
114, the first duct 113 connects with the second duct 114, and second fluid connection chamber 15 includes the 3rd duct 115 and the 4th duct
116, the 3rd duct 115 connects with the 4th duct 116.Certainly, fluid heat transfer module may also include the second heat exchange core body, and first changes
Hot core body and the assembling of the second heat exchange core body are fixed.
First heat exchange core body 11 includes multiple plates being stacked, and each plate includes the first aperture 1101, the second hole
Mouthful the 1102, the 3rd aperture 1103 and the 4th aperture 1104, the first aperture 1101 alignment on each plate form the first duct 113,
The second aperture 1102 on each plate, which is alignd, forms the second duct 114, and the 3rd aperture 1103 alignment on each plate forms the 3rd
Duct 115, the 4th aperture 1104 alignment on each plate form the 4th duct 116, the first heat exchange core body 11 generally cuboid
Structure, the first duct 113, the second duct 114, the 3rd duct 115, the 4th duct 116 are located at the neighbouring of the first heat exchange core body 11
Corner location.
Mounting blocks 13 set the first fluid first interface 131, and the first heat exchange core body 11 sets the first fluid
Two interfaces 111, second fluid first interface 132 and second fluid second interface 112, wherein first fluid first interface 131 with
First duct 113 connects, and first fluid second interface 111 connects with the second duct 114, second fluid first interface 132 and
Three ducts 115 connect, and second fluid second interface 112 connects with the 4th duct 116.
Reference picture 2- Fig. 8, fluid control module 2 comprise at least first fluid control device 21, first fluid control device
21 (are described below, first fluid import herein is also known as the import of first fluid first for convenience including at least first fluid import
2162), first fluid first outlet 2163, first fluid control device 21 comprise at least first flow path 2165a, second flow path
2165b, the first import of first fluid 2162 connect with first flow path 2165a, first fluid first outlet 2163 and second flow path
2165b is connected, and first fluid first outlet 2163 connects with the first fluid first interface 131 of mounting blocks 13, in this way, first-class
Body passage 101 goes out including the first import of first fluid 2162, first flow path 2165a, second flow path 2165b, first fluid first
Mouth 2163, first fluid first interface 131, the first duct 113, the second duct 114, first fluid second interface 111.
Below by taking structure shown on scheming as an example, first fluid control device 21 includes first fluid import (for convenience of hereafter
Description, first fluid import herein is also known as the import 2162 of first fluid first), it is first fluid first outlet 2163, first-class
Body second outlet 2164, first fluid control device 21 comprise at least first flow path 2165a, second flow path 2165b, the 3rd stream
2165c, the first import of first fluid 2162 connect with first flow path 2165a, first fluid first outlet 2163 and second flow path
2165b is connected, and first fluid second outlet 2164 connects with the 3rd stream 2165c, first fluid first outlet 2163 and installation
The first fluid first interface 131 of block 13 connects, in this way, first fluid passage 101 includes the first import of first fluid 2162, the
One stream 2165a, second flow path 2165b, first fluid first outlet 2163, first fluid first interface 131, the first duct
113rd, the second duct 114, first fluid second interface 111;Second fluid passage includes the first import of first fluid 2162, first
Stream 2165a, the 3rd stream 2165c, first fluid second outlet 2164;3rd fluid passage 103 includes second fluid first
Interface 132, the 3rd duct 115, the 4th duct 116, second fluid second interface 112.Fluid can be with first fluid passage 101
Fluid carries out heat exchange in 3rd fluid passage 103, and fluid can be through first fluid control device 21 in first fluid passage 101
The adjustment control of flow in the conducting of progress stream, stream switching and stream.
Herein, first fluid control device 21 is metal material, in particular aluminum material, heat exchange core body and mounting blocks 13
For metal material, in particular aluminum material.With reference to reference picture 2, Fig. 4, the fluid heat transfer component 10 includes isolated part 3, the
Sealed set between one fluid control device 21 and mounting blocks 13, isolated part 3 connect aperture at least provided with connection aperture 33
33 connect with first fluid first interface 131, and connection aperture 33 connects with first fluid first outlet 2163, connection aperture 33
Size is more than or equal to first fluid first interface 131 and first fluid first outlet 2163, and such fluid is flowing through isolation part
, will not be because of isolated part and by larger resistance, so that influenceing fluid flow performance during part.
As a kind of embodiment, isolated part is structure as shown in Figure 2, first fluid control device 21 and mounting blocks 13
Between isolated by isolated part 3, at least part of a sidepiece 31 of isolated part 3 abuts setting, isolation part with mounting blocks 13
At least part of the other side 32 of part 3 abuts setting with first fluid control device 21.The setting of isolated part 3 can reduce
Fluid carries out heat exchange through fluid in first fluid control device 21 and heat exchange core body 11 in one fluid control device 21, avoids changing
Fluid does not reach desired temperature in hot core body, is advantageous to improve heat exchange efficiency.Specifically, isolated part 3 includes isolation part 36, every
The connection 33 weeks portions in aperture and at least part epitaxial region, isolation part 36 and first fluid control device and installation are arranged in from portion 36
Block sealed set, setting or isolation part 36 are abutted between isolation part 36 and first fluid control device 21 and is controlled with first fluid
Space is left between device 21, abuts between isolation part 36 and mounting blocks 13 and is stayed between setting or isolation part 36 and mounting blocks 13
There is space.Abut or also pass through it should be noted that isolated part can be adjacent to completely with first fluid control device or mounting blocks
Intermediate member is set to abut, isolated part can abut in whole or in part with first fluid control device, mounting blocks.Herein,
Abutting to set includes directly abutting and by setting other parts to abut indirectly, such as isolated part directly abuts with mounting blocks
Or by setting other parts to abut indirectly.
Isolated part 3 is high-low temperature resistant, ethylene glycol resistant medium, the material of dimensional stability, specifically, isolated part 3
Material may be selected from plastics, nylon, resin or other not at least one of Heat Conduction Materials.
The fluid control module 2 includes the first mounting hole 2168, and first mounting hole 2168 runs through the fluid control
Molding block 2, the isolated part 3 include the second mounting hole 34, and second mounting hole 34 runs through the isolated part 3, described
Mounting blocks 13 include the 3rd mounting hole 134, first mounting hole 2168, the second mounting hole 34, the position phase of the 3rd mounting hole 134
Corresponding, the fluid heat transfer component 10 includes fixture 5, and the fixture 5 stretches into first mounting hole 2168, second and installed
Hole 34, the 3rd mounting hole 134, and the assembling of the fluid control module 2, the isolated part 3, the mounting blocks 13 is fixed.Such as
This, the assembling such as fluid control module 2, isolated part 3, mounting blocks 13 is fixed, and can avoid welding the bad poor sealing brought
Situation.
Reference picture 1- Figure 10, first fluid control device 21 include matrix part 211, valve hole part 212 and control unit
213, matrix part 211 includes Base body 216 and lid 217, and Base body 216 has installation cavity 2161, installation cavity 2161
With construction opening 2161a, valve hole part 212 inserts the installation cavity 2161 from the construction opening 2161a, and at least partly receives
The installation cavity 2161 is dissolved in, at least a portion and the control unit 213 of valve hole part 212 mechanically connect;Pedestal described further
Main body 216 is respectively arranged with spiral shell with the phase of lid 217 assembling and sealed set, the specifically Base body 216 with lid 217
Mounting hole is followed closely, both can be assembled by screw elements and be relatively fixed setting, described matrix part 211 and control unit to realize
213 are assembled also by thread connecting mode.
Base body 216 sets first import of first fluid 2162, first fluid first outlet 2163, first fluid
Second outlet 2164, first flow path 2165a, second flow path 2165b and the 3rd stream 2165c, first flow path 2165a, second
Stream 2165b, the 3rd stream 2165c connect with installation cavity 2161.Valve hole part 212 includes the first valve block 2121, the second valve
Piece 2122 and transmission parts 9, Base body 216 have positioned at the first opening 2166a of the sidepiece of installation cavity 2161 and positioned at peace
Behave affectedly 2161 bottoms second opening 2166b and the 3rd opening 2166c, wherein first flow path 2165a with first opening 2166a company
Logical, second flow path 2165b connects with the second opening 2166b, and the 3rd stream 2165c connects with the 3rd opening 2166c, second flow path
Depth of the 2165b from the 3rd stream 2165c in Base body 216 is different.Second valve block 2122 turns on installation cavity 2161 and the
Two stream 2165b and/or the 3rd stream 2165c, i.e. second flow path 2165b can be connected with installation cavity 2161 by the second valve block 2122
Logical, the 3rd stream 2165c can be connected with installation cavity 2161 by the second valve block 2122, and including second flow path 2165b, the 3rd stream
The situation that road 2165c is connected simultaneously with installation cavity 2161.First opening 2166a is located at the one of the first valve block and/or the second valve block
Side, the second opening 2166b, the 3rd opening 2166c are located at the opposite side of the first valve block and/or the second valve block, and specifically, first opens
Mouth is located at the first face of the first valve block positioned at side where the fourth face of the second valve block, the second opening 2166b, the 3rd opening 2166c
Place side.At least one stream includes kink in second flow path 2165b, the 3rd stream 2165c.So so that first fluid
When control device is with fluid heat transfer module assembled, the interface of first fluid control device can avoid the structure of fluid heat transfer module,
So that the structure of fluid heat transfer component is more compact, structure is more succinct, subsequent structural is facilitated to install.
The substantially cylindrical of installation cavity 2161, the second opening 2166b, the 3rd opening 2166c are located at the bottom of installation cavity 2161,
First valve block 2121, the second valve block 2122 are with disc format.First valve block 2121, the second valve block 2122 are located in installation cavity 2161
Portion, and the first valve block 2121 includes the first face 2121d and the second face 2121e that are oppositely arranged, the first face 2121d and Base body
216 contact sealed sets or by setting seal and sealed set, the second face 2121e of the first valve block 2121 and the second valve block
2122 contacts are set.First valve block 2121 includes first through hole 2121a and the second through hole 2121b, first through hole 2121a and second
Be open 2166b connections, and first through hole 2121a sizes are more than or equal to the second opening 2166b, and the second through hole 2121b opens with the 3rd
Mouth 2166c connections, the second through hole 2121b sizes are more than or equal to the 3rd opening 2166c.Second valve block 2122 includes at least one
Intercommunicating pore 2122a, intercommunicating pore 2122a size are not more than first through hole 2121a, and intercommunicating pore 2122a size is not more than second
Through hole 2121b.First through hole 2121a, the second through hole 2121b shape are approximately semicircle, circular or other shapes.
As other alternatives, first valve block, the second valve block can be non-circular, the first valve block wall portion and peace
First through hole and the second through hole are provided between side wall of behaveing affectedly, first through hole and the second open communication, first through hole size are more than
Or equal to the second opening, the second through hole and the 3rd open communication, the second clear size of opening is more than or equal to the 3rd opening.It is used as other
Embodiment, reference picture 20, Figure 21, at least one connect is provided between the second valve block wall portion and the installation cavity side wall
Hole, the size of the intercommunicating pore are not more than first through hole, and the size of the intercommunicating pore is not more than the second through hole.In the second valve block
In rotary course, intercommunicating pore can be connected with first through hole, do not connected, and can also be connected with the second through hole, not connected.
In a kind of specific embodiment, first fluid control device 21 includes diaphragm seal 214, the first valve block 2121
First face 2121d is contacted simultaneously with Base body 216 by the sealed set of diaphragm seal 214, diaphragm seal 214 with the bottom of installation cavity 2161
Sealed set, diaphragm seal 214 have isolation part 2141, third through-hole 2143 and fourth hole 2144, third through-hole the 2143, the 4th
Through hole 2144 is isolated by isolation part 2141, and third through-hole 2143 connects with the first opening 2166a, and the size of third through-hole 2143 is big
In the second opening 2166b, fourth hole 2144 connects with the 3rd opening 2166c, and the size of fourth hole 2144 is more than the 3rd opening
2166c.Third through-hole 2143 is alignd setting with first through hole 2121a, and fourth hole 2144 aligns with the second through hole 2121b to be set
Put.Wherein, third through-hole 2143, the shape of fourth hole 2144 are approximately semicircle, ellipse or other shapes.Certainly
Three through holes 2143, first through hole size are less than the second opening 2166b, and the second through hole, the size of fourth hole 2144 are opened less than the 3rd
It is also possible in the case of mouth 2166c.
For make diaphragm seal 214 the bottom position of installation cavity 2161 fix and with the registration of the first valve block 2121, sealing
Piece 214 has positioning through hole 2142, and positioning through hole 2142 is located at the region of isolation part 2141, and the first valve block 2121 has the first positioning
Hole 2121c, the first positioning hole 2121c position are corresponding with the position of positioning through hole 2142.Valve hole part 212 includes alignment pin
Nail 2124, shop bolt 2124 is located at the first positioning hole 2121c and positioning through hole 2142, so that the valve block of diaphragm seal 214 and first
2121 fix.
More specifically, Base body 216 has the second positioning hole 2160 positioned at the bottom of installation cavity 2161, the second positioning
The position of hole 2160 is corresponding with the position of positioning through hole 2142.Such as shown in figure 8, positioning through hole 2142 is two, second is fixed
Position hole 2160 is open for two and positioned at the second opening 2166b, the 3rd on 2166c line of symmetry or neighbouring symmetrical line position, institute
State shop bolt 2124 and be located at the first positioning hole 2121c, the positioning hole 2160 of positioning through hole 2142 and second.
Certainly, positioning through hole can also be one, in the case where positioning through hole shape is not for circle, a positioning through hole
Also the first valve block and Base body registration are may be such that, is not shifted.
The quantity of positioning through hole 2142 can be two or more, so that diaphragm seal 214, the first valve block 2121 and installation cavity
The fixation of 2161 bottoms is accurate, and ensures first through hole 2121a, the second through hole 2121b and the second opening 2166b, the 3rd opening
2166c position aligns.After being arranged such, the perforate of positioning through hole 2142 does not influence third through-hole on diaphragm seal 214 relatively
2143 are set with the size of fourth hole 2144 so that third through-hole 2143, the circulating face of fourth hole 2144 on diaphragm seal 214
Product is larger, is advantageous to maintain properties of product.
Second valve block 2122 includes the 3rd face 2122b and fourth face 2122c that are oppositely arranged, and the 3rd of the second valve block 2122 the
Face 2122b is contacted with the second face 2121e of the first valve block 2121 and sealed set, the 3rd face 2122b edges of the second valve block 2122
Second face 2121e of the first valve block 2121 is rotated, that is to say, that second valve block 2122 is movable valve block, relative to this
First valve block 2121 described in two valve blocks 2122 is as being relatively fixed valve block, and second valve block 2122 is along the of the first valve block 2121
Two face 2121e carry out gyration, the space required for can reducing operating position while ensureing and switching intercommunicating pore 2122a,
Be advantageous to small product size.3rd face 2122b of second valve block 2122 roughness is less than or equal to second valve block 2122
The second face 2121e, the first face 2121d of first valve block 2121 roughness is less than or equal to first valve block 2121
Second face 2121e, wherein the second face 2121e of the first valve block 2121, the 3rd face 2122b of the second valve block 2122 rub as contact
Wiping face, roughness requirements are of a relatively high, test by more secondary designs and repeatedly, the second face 2121e of first valve block 2121
Surface roughness be more than 0.03 μm and be less than 0.5 μm, and/or the 3rd face 2122b of second valve block 2122 rough surface
Degree be more than 0.03 μm be less than 0.5 μm, such as surface roughness be 0.03 μm, 0.04 μm, 0.05 μm, 0.06 μm, 0.07 μm, 0.08
μm, 0.09 μm, 0.1 μm, 0.2 μm, 0.3 μm, 0.4 μm, 0.45 μm, other any numbers in 0.485 μm or above range, can
Ensure to seal between the first valve block 2121, the second valve block 2122, such as to liquid communication media implementation interior sealing, prevent interior leakage and
Influence is controlled performance to circulation medium, relatively, the first face 2121d of the first valve block 2121, the of the second valve block 2122
Four sides 2122c is as non-rubbing surface, and roughness requirements are relatively low, to reduce manufacturing cost.
Specifically, valve hole part 212 includes locating shaft 2125, and locating shaft 2125 is independently arranged with transmission parts, the first valve
Piece 2121 includes the first spacing hole 2121f, and the second valve block 2122 includes the second spacing hole 2122d, the first spacing hole 2121f, the
At least one in two spacing hole 2122d is non-through hole, and locating shaft 2125 is at least partially disposed at the first spacing hole 2121f,
Locating shaft at least separately has part to be located at the second spacing hole 2122d.In this way, the first spacing hole 2121f, the second spacing hole 2122d
In it is at least one be non-through hole, such fluid is not easy to flow through from spacing hole, influences the efficiency of Flow-rate adjustment, and locating shaft
It is independently arranged with transmission parts, is easy to locating shaft to fabricate and causes the fixed setting or spacing of transmission parts and the second valve block
It is more accurate to set, and avoids the second valve block because of caused by transmission parts mismachining tolerance from coordinating not with installation cavity, the first valve block
When so that influenceing the Accurate Data Flow Control of volume control device.
As a kind of specific embodiment, as shown in Figure 10, the second valve block 2122 includes two intercommunicating pore 2122a, and two
Individual intercommunicating pore 2122a is symmetrical arranged with respect to the second spacing hole 2122d, and two intercommunicating pore 2122a sizes are identical, intercommunicating pore
2122a shapes may be configured as fan-shaped, circular, bar shaped or other are variously-shaped.Certainly, the intercommunicating pore on the second valve block 2122
2122a can be multiple, and multiple intercommunicating pore 2122a hole area sum is not more than first through hole 2121a hole area, multiple connections
Hole 2122a hole area sum is not more than the second through hole 2121b hole area, and when so can guarantee that switched path, energy will wherein
Certain shut/separate completely all the way.
First valve block 2121, the second valve block 2122 are ceramic valve plate or valve metal film, so each valve block wearability
It is high, fusing point is high, hardness is high, not oxidizable at high temperature, for example ceramic valve plate and there is anticorrosive energy well to acid, alkali, salt
Power, therefore, the Reusability under long-time different temperatures, ceramic valve plate or valve metal film can keep good sealing effectiveness, phase
It is not easy aging phenomenon occur for quality of rubber materials, it is ensured that volume control device performance.
Control unit 213 can provide driving force, and the driving force drives the spinning movement of transmission parts 9, specifically, driving section
Part 9 with respect to matrix part 211 can rotary motion, herein, transmission parts with respect to matrix part can rotary motion include biography
Dynamic component in matrix part clockwise or counterclockwise.Transmission parts 9 are fixedly installed with the second valve block 2122, that is, control
Part 213 drives the second valve block 2122 to act by transmission parts 9, and the second valve block 2122 rotates with transmission parts 9 and transported in other words
It is dynamic.The one end of transmission parts 9 mechanically connects with control unit 213, and with the sealed set of matrix part 211, the other end of transmission parts 9
It is relatively fixed and is connected with the second valve block 2122.Under the drive of transmission parts 9, the second valve block 2122 is opened, closes, adjusts first
First through hole 2121a, the second through hole 2121b aperture size on valve block 2121;So regulation import of first fluid first
2162 are assigned to the flow proportional of first fluid first outlet 2163 and first fluid second outlet 2164, specifically when described
One through hole 2121a, the second through hole 2121b are opened simultaneously, and during first through hole 2121a aperture increase, the second through hole 2121b's opens
Degree reduces, or the second through hole 2121b aperture increase when, first through hole 2121a aperture reduces.
The operating position of the transmission parts 9 includes first position and the second place, and transmission parts 9 can be with respect to matrix part
211 rotary motions between the first location and the second location, specifically, the second valve block 2122 is relative to the first valve block 2121
Acted between one position and the second place, when the second valve block 2122 is located at first position, second valve block 2122 conducting first
Through hole 2121a, second flow path 2165b, and end the second through hole 2121b of conducting, the 3rd stream 2165c, when the second valve block
2122 when being located at the second place, and second valve block 2122 turns on the second through hole 2121b, the 3rd stream 2165c, and ends conducting
First through hole 2121a, second flow path 2165b.Further, in the action process of the second valve block 2122, when second valve block
2122 when arriving first position, and the first through hole 2121a is opened to maximum opening, the second through hole 2121b aperture is zero, now
First through hole 2121a circulation area reaches maximum, second through hole 2121b circulation area reaches minimum;When described
When two valve blocks 2122 arrive the second place, the aperture of the first through hole 2121a is zero, the second through hole 2121b is opened to most
Big aperture, now first through hole 2121a circulation area reaches minimum, the second through hole 2121b circulation area reaches maximum;When
When second valve block 2122 is acted between first, second position, the first through hole 2121a, the second through hole 2121b are simultaneously
Open, the aperture of the first through hole 2121a and the aperture sum of the second through hole 2121b are equal to first through hole 2121a's
The full gate (i.e. maximum opening) of full gate (i.e. maximum opening) or the second through hole 2121b, i.e. both circulation area sums etc.
In first through hole 2121a, the second through hole 2121b maximum flow areas of any one, so as to which the volume control device can
Realize and pro rate is carried out to working media, and sealed set between the first valve block 2121, the second valve block 2122, can high degree
Upper lifting product hermeticity energy, prevents working media from being revealed between the first valve block 2121, the second valve block 2122;With the first valve
The first through hole 2121a of piece 2121, the second through hole 2121b the increaseing or decreasing of circulation area during, working media flow
It is stepped up or reduces, in first through hole 2121a, the second through hole 2121b closing or opening procedure, can preferably makes fluid
The opening characteristic of control device keeps relatively uniform with closing property, in system operation, carries out performance during flow system flow regulation
It is relatively stable.
In present embodiment, fluid heat transfer component 10 comprises at least following working condition,
The first working condition:The first flow path 2165a does not connect with the second flow path 2165b, described first-class
Road 2165a connects with the 3rd stream 2165c;
Second of working condition:The first flow path 2165a connects with the second flow path 2165b, the first flow path
2165a does not connect with the 3rd stream 2165c;
The third working condition:The first flow path 2165a simultaneously with the second flow path 2165b, the 3rd stream 2165c
Connection.
It is worth noting that, only go out in first fluid control device including the import of first fluid first, first fluid first
In the case of mouth, first flow path, second flow path, the fluid heat transfer component comprises at least following working condition,
The first working condition:The first flow path does not connect with the second flow path;
Second of working condition:The first flow path connects with the second flow path, flows into fluid flow in second flow path
It is controlled and can be adjusted by the first valve hole part;
The third working condition:4th stream and the 5th fluid communication, flow into fluid flow in the 5th stream
It is controlled and can be adjusted by the second valve hole part;
4th kind of working condition:4th stream does not connect with the 5th stream.
Reference picture 14- Figure 18, under each working condition of fluid control device, the second valve block is made due to mechanism driven
With rotational motion, when it turns to diverse location, different working conditions will be formed, wherein, the valve shown in Figure 14-Figure 18
Piece is a kind of embodiment of the present utility model, is not considered as to limitation of the present utility model.Reference picture 14, the second valve block
Intercommunicating pore 2122a and the first through hole of the first valve block be correspondingly arranged, and intercommunicating pore 2122a connects with first through hole 2121a completely
It is logical so that fluid enters first through hole from after the 3rd opening 2166c enters installation cavity, from intercommunicating pore (i.e. 100% ratio) completely,
Herein, this state is also referred to as full gate, and now, first flow path 2165a connects with second flow path 2165b, first flow path
2165a does not connect with the 3rd stream 2165c, and first fluid passage 101 includes the import of fluid first, first flow path, installation cavity, company
Through hole, first through hole, second flow path, fluid first outlet, first fluid connection chamber, fluid in the first fluid passage 101
Cavity fluid heat exchange is connected with the second fluid;The second fluid passage includes the import of fluid first, installation cavity, and described the
Two fluid passages are blocked by second valve block, the second fluid passage not with the 3rd fluid communication.
Reference picture 15, the second valve block is with respect to the second valve block position in Figure 14 with about 30 ° of rotate counterclockwise, intercommunicating pore 2122a
A part (about 30%) connected with the second through hole, an intercommunicating pore 2122a part (about 70%) connects with first through hole, with reality
Now distributed from the 3rd opening into the fluid in proportions of installation cavity to first through hole, the second through hole, and and then from the first opening, the
Two openings are left, and now, first flow path 2165a connects with second flow path 2165b, the 3rd stream 2165c, but second flow path
The flow that 2165b, the 3rd stream 2165c are assigned to is different.Reference picture 16, the second valve block with respect to the second valve block position in Figure 15 with
During about 60 ° of rotate counterclockwise, it is logical that area that intercommunicating pore 2122a connects with first through hole is substantially equal to intercommunicating pore 2122a and second
The area of hole connection, in this way, respectively enteing first through hole from the 3rd opening into the fluid of installation cavity with the ratio of approximate equality
With the second through hole, i.e. the fluid that first through hole, the second through hole have 50% flow enters, now, first flow path 2165a and the
Two stream 2165b, the 3rd stream 2165c are connected, but the flow that second flow path 2165b, the 3rd stream 2165c are assigned to is not
Together.Reference picture 17, the second valve block continue with about 60 ° of rotate counterclockwise with respect to the second valve block position in Figure 16, and intercommunicating pore 2122a is about
70% area connects with the second through hole, and the areas of intercommunicating pore 2122a about 30% connect with first through hole, intercommunicating pore 2122a about 70%
Area connects with the second through hole, can so be entered from the 3rd opening into the fluid of installation cavity with 30%, 70% pro rate
First through hole, the second through hole, contribute to the control of flow, now, first flow path 2165a and second flow path 2165b, the 3rd stream
2165c is connected, but the flow that second flow path 2165b, the 3rd stream 2165c are assigned to is different.In this way, the first fluid leads to
Road 101 include the import of fluid first, first flow path, installation cavity, intercommunicating pore, first through hole, second flow path, fluid first outlet,
First fluid connects chamber, and the first fluid inner fluid passage connects cavity fluid heat exchange with the second fluid;Described second
Fluid passage includes the import of fluid first, installation cavity, intercommunicating pore, the second through hole, the 3rd stream, fluid second outlet, the company
Through hole becomes, the intercommunicating pore and described second with the area that the first through hole connects with the rotational angle of second valve block
The area of through hole connection becomes with the rotational angle of second valve block.
Reference picture 18, the second valve block continue with about 30 ° of rotate counterclockwise with respect to the second valve block position in Figure 17, now connected
The areas of hole 2122a about 100% are connected with the second through hole, i.e., intercommunicating pore 2122a is connected completely with the second through hole, or are referred to as complete
Aperture, the second through hole, now, first flow path are fully entered through intercommunicating pore 2122a from the 3rd opening into the fluid of installation cavity
2165a connects with the 3rd stream 2165c, and first flow path 2165a does not connect with second flow path 2165b, and first fluid passage 101 wraps
The import of fluid first, first flow path, installation cavity are included, the first fluid passage is blocked by second valve block, described first-class
Body passage does not connect chamber connection with the first fluid;The second fluid passage includes the import of fluid first, installation cavity, connection
Hole, the second through hole, the 3rd stream, fluid second outlet.
As other embodiment, fluid control module 2 includes first fluid control device 21 and second fluid control dress
Put 22, first fluid control device 21 and the split settings of second fluid control device 22, first fluid control device 21 and fluid
The assembling of heat exchange module 1 is fixed, and second fluid control device 22 is fixed with the assembling of fluid heat transfer module 1, such as is connected through a screw thread
Fixed form.Reference picture 2, first fluid control device 21 include connection sidepiece 218, the company of connection sidepiece 218 and mounting blocks 13
The assembling of sidepiece 136 is connect to fix.Second fluid control device 22 includes connection sidepiece, the connecting side of connection sidepiece and mounting blocks 13
The assembling of portion 136 is fixed.
Mounting blocks 13 set the first fluid first interface 131, second fluid first interface 132, the first heat exchange core body
11 set the first fluid second interface 111 and second fluid second interface 112, wherein first fluid first interface 131 with
First duct 113 connects, and first fluid second interface 111 connects with the second duct 114, second fluid first interface 132 and
Three ducts 115 connect, and second fluid second interface 112 connects with the 4th duct 116.
First fluid control device 21 is with reference to structure above.It is described below for convenience, herein first fluid control device 21
Including matrix part 211, valve hole part 212, other parts such as control unit 213 title before unified come titled with " first "
Signal difference.Unification illustrates area titled with " second " before the title of similar parts included by second fluid control device 22
Not, but for valve hole part 212, to avoid title excessively cumbersome, the subclass parts title of valve hole part 212 is not subject to area
Not.
Reference picture 11, Figure 12, second fluid control device 22 comprise at least second fluid import (be described below for convenience,
Second fluid import herein is also known as the import 2214 of second fluid first), second fluid first outlet 2215, the 4th stream,
Five streams 2218, second fluid the first import 2214 and the 4th fluid communication, the stream of second fluid first outlet 2215 and the 5th
2218 connections.By taking structure shown on scheming as an example, second fluid control device 22 includes second fluid second outlet 2216 and the 6th
Stream 2219, second fluid the first import 2214 and the 4th fluid communication, the stream of second fluid first outlet 2215 and the 5th
2218 connections, second fluid second outlet 2216 connect with the 6th stream 2219, second fluid first outlet 2215 and mounting blocks
13 second fluid first interface 132 connects, in this way, the 3rd fluid passage 103 includes the first import of second fluid the 2214, the 4th
Stream, the 5th stream 2218, second fluid first outlet 2215, second fluid first interface 132, the 3rd duct 115, the 4th hole
Road 116, second fluid second interface 112;4th fluid passage 104 includes the first import of second fluid 2214, the 4th stream, the
Six streams 2219, second fluid second outlet 2216.In this way, two fluid control devices integrate with fluid heat transfer module 1 simultaneously
Together, the working media from same import can be proportionally assigned to different outlets by first fluid control device, make into
Enter that the flow of the working media of fluid heat exchange module 1 is controllable, the work from same import can be situated between by second fluid control device
Matter is proportionally assigned to different outlets, makes the flow into the working media of fluid heat transfer module 1 controllable, so can be relatively smart
The really temperature for the fluid that control is left after fluid heat transfer module carries out heat exchange, flow.The embodiment can exchange heat to entering
Two kinds of fluids of core body carry out flow control simultaneously so that the heat exchange of the fluid in heat exchange core body is controllable, make its contribute to
The realization of its result that exchanges heat.It is same to be arranged at fluid heat transfer module for first fluid control device and second fluid control device simultaneously
Side so that pipe arrangement is more succinct, and overall structure is more compact and compact.
Second fluid control device 22 includes the second matrix part 221, the second valve hole part 222 and the second control unit
223, the second matrix part 221 includes the second Base body 2211 and the second lid 2212, and the second Base body 2211 has the
Two installation cavitys 2213, the second installation cavity 2213 have construction opening 2213a, and the second valve hole part 222 is opened from the described second installation
Mouth 2213a inserts second installation cavity 2213, and is at least partially housed in second installation cavity 2213, the second valve hole part 222
At least a portion mechanically connected with the second control unit 223;Second Base body 2211 described further and the described second lid
The phase of body 2212 assembles and sealed set, and specifically the lid 2212 of the second Base body 2211 and second is respectively arranged with screw
Mounting hole, both can be assembled by screw elements and be relatively fixed setting to realize, second matrix part 221 and second is controlled
Part 223 processed is assembled also by thread connecting mode.
Second Base body 2211 sets first import of second fluid 2214, second fluid first outlet 2215,
Two fluid second outlets 2216, the 4th stream, the 5th stream 2218 and the 6th stream 2219.Second valve hole part 222 includes
First valve block 2121, the second valve block 2122 and transmission parts 9, the second Base body 2212, which has, is located at the side of the second installation cavity 2213
4th opening in portion and the 5th opening 2220b and the 6th opening 2220c positioned at the bottom of the second installation cavity 2213, wherein the 4th
Stream and the 4th open communication, the 5th stream 2218 connect with the 5th opening 2220b, the 6th stream 2219 and the 6th opening
2220c is connected, and depth of the 4th stream from the 5th stream 2218 in the second Base body 2211 is different.Second valve block 2122 is led
Logical second installation cavity 2213 and the 4th stream and/or the 5th stream 2218, i.e. the 4th stream can pass through with the second installation cavity 2213
Second valve block 2122 is connected, and the 5th stream 2218 can be connected with the second installation cavity 2213 by the second valve block 2122, and including
The situation that four streams, the 5th stream 2218 connect simultaneously with the second installation cavity 2213.
It should be noted that:Above example is merely to illustrate the utility model and not limited described by the utility model
Technical scheme, such as isotropy defines to "front", "rear", "left", "right", " on ", " under ", although this specification reference
The above embodiments have been carried out being described in detail to the utility model, still, it will be understood by those within the art that,
Person of ordinary skill in the field still can be mutually combined to the utility model, be changed or equivalent substitution, and one
The technical scheme for not departing from spirit and scope of the present utility model and its improvement are cut, all should cover will in right of the present utility model
In the range of asking.
Claims (19)
1. a kind of fluid heat transfer component, including fluid control module and fluid heat transfer module, the fluid control module and described
Fluid heat transfer module is fixedly installed, and the fluid heat transfer module comprises at least first fluid connection chamber and connects chamber with second fluid,
First fluid connection chamber connect that chamber is mutually isolated with the second fluid and the first fluid connect cavity fluid can
Cavity fluid heat exchange is connected with the second fluid;
The fluid control module includes Base body, valve hole part, and the Base body has installation cavity, the valve hole part
The installation cavity is at least partially disposed at, the valve hole part includes the first valve block, the second valve block and transmission parts, first valve
Piece, the second valve block are located at the installation cavity, and the transmission parts are fixed with second valve block or spacing setting, and described second
Valve block can rotate with the transmission parts, and first valve block is fixed with the Base body or spacing setting;
The Base body comprises at least the import of fluid first, fluid first outlet, and the Base body comprises at least first-class
Road, second flow path, the import of fluid first connect with the first flow path, the fluid first outlet and the second flow path
Connection, the fluid first outlet connect chamber connection with the first fluid;Second valve block can rotate, the installation cavity
Turn on or be not turned on the second flow path, or change the flow into the fluid of second flow path;The fluid heat transfer component is extremely
Include first fluid passage less, the first fluid passage include the import of fluid first, first flow path, installation cavity, second flow path,
Fluid first outlet, first fluid connection chamber.
2. fluid heat transfer component according to claim 1, it is characterised in that:The Base body includes fluid second outlet
With the 3rd stream, the fluid second outlet and the 3rd fluid communication, the installation cavity and the second flow path and/or institute
At least turning on all the way in the 3rd stream is stated, first valve block includes first through hole and the second through hole, or first valve
First through hole and the second through hole are provided between piece wall portion and the installation cavity side wall, second valve block includes at least one company
At least one intercommunicating pore, the intercommunicating pore are provided between through hole, or the second valve block wall portion and the installation cavity side wall
Size be not more than the first through hole, the size of the intercommunicating pore is not more than second through hole;Second valve block moves
Making position at least has first position and the second place, when second valve block is located at first position, the second valve block conducting
The first through hole, the second flow path, and end conducting second through hole, the 3rd stream, second valve block
During positioned at the second place, second valve block turns on second through hole, the 3rd stream, and ends conducting described first
Through hole, the second flow path;When second valve block is between the first position, the second place, the first through hole,
Two through holes are opened simultaneously, and the aperture of the first through hole and the aperture sum of second through hole are equal to the complete of the first through hole
The full gate of aperture or second through hole;The first fluid passage includes the import of fluid first, first flow path, installation
Chamber, intercommunicating pore, first through hole, second flow path, fluid first outlet, first fluid connection chamber.
3. fluid heat transfer component according to claim 2, it is characterised in that:The fluid heat transfer component includes second fluid
Passage, the first fluid passage and the second fluid channel separation, the fluid heat transfer component comprise at least following work
State:
The first working condition:Second valve block is located at the first position, the intercommunicating pore of second valve block and described
The first through hole of one valve block is correspondingly arranged, and the intercommunicating pore connects with first through hole completely, and the first fluid passage includes
The import of fluid first, first flow path, installation cavity, intercommunicating pore, first through hole, second flow path, fluid first outlet, first fluid
Chamber is connected, the first fluid inner fluid passage connects cavity fluid heat exchange with the second fluid;The second fluid passage
Including the import of fluid first, installation cavity, the second fluid passage is blocked by second valve block, and the second fluid passage is not
With the 3rd fluid communication;
Second of working condition:A part for the intercommunicating pore of second valve block connects with second through hole, the intercommunicating pore
A part connected with the first through hole, the first fluid passage include the import of fluid first, first flow path, installation cavity,
Intercommunicating pore, first through hole, second flow path, fluid first outlet, first fluid connection chamber, the first fluid inner fluid passage with
The second fluid connection cavity fluid heat exchange;The second fluid passage include the import of fluid first, installation cavity, intercommunicating pore,
Second through hole, the 3rd stream, fluid second outlet, the intercommunicating pore is with the area that the first through hole connects with second valve
The rotational angle of piece and become, the intercommunicating pore and the area that second through hole connects with the rotational angle of second valve block and
Become;
The third working condition:Second valve block is located at the second place, the intercommunicating pore of second valve block and described
Second through hole of one valve block is correspondingly arranged, and the intercommunicating pore connects with the second through hole completely, and the first fluid passage includes
The import of fluid first, first flow path, installation cavity, the first fluid passage are blocked by second valve block, the first fluid
Passage does not connect chamber connection with the first fluid;The second fluid passage includes the import of fluid first, installation cavity, connection
Hole, the second through hole, the 3rd stream, fluid second outlet.
4. the fluid heat transfer component according to Claims 2 or 3, it is characterised in that:The Base body has positioned at described
First opening of installation cavity sidepiece and the second opening and the 3rd opening positioned at the installation cavity bottom, wherein described first-class
Road and first open communication, the second flow path and second open communication, the 3rd stream are opened with the described 3rd
Mouth connection;The Base body includes connection sidepiece, and the connection sidepiece is fixed with the fluid heat transfer module and sealed set,
The fluid first outlet is located at the connection sidepiece, and the second flow path extends with the 3rd stream in the Base body
Depth it is different, at least one stream in the second flow path, the 3rd stream includes kink.
5. fluid heat transfer component according to claim 4, it is characterised in that:The first through hole size is more than or equal to institute
The first opening is stated, second clear size of opening is more than or equal to the described second opening, and first opening is located at first valve
The side of piece and/or the second valve block, second opening, the 3rd opening are positioned at the another of first valve block and/or the second valve block
Side;First valve block includes the first face and the second face being oppositely arranged, and first face contacts close with the Base body
Envelope sets or by setting seal to contact setting with second valve block and sealed set, the second face of first valve block.
6. fluid heat transfer component according to claim 5, it is characterised in that:The fluid control module includes diaphragm seal,
First face of first valve block has isolation with the Base body by the diaphragm seal sealed set, the diaphragm seal
Portion, positioning through hole, the positioning through hole are located at the isolation part region, and first valve block has the first positioning hole, and described
The position of a positioning hole is corresponding with the position of the positioning through hole, and the valve hole part includes shop bolt, the alignment pin
Nail is located at first positioning hole and the positioning through hole;The Base body has determines positioned at the second of the installation cavity bottom
Position hole, second position of positioning hole is corresponding with the position of the positioning through hole, and the shop bolt is fixed positioned at described first
Position hole, positioning through hole and the second positioning hole.
7. the fluid heat transfer component according to claim 5 or 6, it is characterised in that:The fluid control module includes sealing
Piece, the diaphragm seal have isolation part, third through-hole and fourth hole, and the third through-hole, the fourth hole pass through described
Isolation part isolates, and the third through-hole and first open communication, the third through-hole size are more than the described first opening, institute
State fourth hole and second open communication, the fourth hole size is more than the described second opening, the third through-hole with
First through hole alignment is set, and the fourth hole aligns setting with second through hole.
8. the fluid heat transfer component according to any one of claim 1-3 or 5 or 6, it is characterised in that:Second valve block
Including the 3rd face being oppositely arranged and fourth face, the 3rd face of second valve block contacts simultaneously with the second face of first valve block
Sealed set, the second face of the 3rd face of second valve block along first valve block rotate, the 3rd face of second valve block
Roughness be less than or equal to the second face of second valve block, the roughness in the first face of first valve block is less than or equal to should
Second face of the first valve block.
9. fluid heat transfer component according to claim 4, it is characterised in that:Second valve block includes the be oppositely arranged
Three faces and fourth face, the 3rd face of second valve block is contacted with the second face of first valve block and sealed set, and described the
Second face of 3rd face of two valve blocks along first valve block rotates, and the roughness in the 3rd face of second valve block is less than or waited
In the second face of second valve block, the roughness in the first face of first valve block is less than or equal to the second of first valve block
Face.
10. fluid heat transfer component according to claim 7, it is characterised in that:Second valve block includes what is be oppositely arranged
3rd face and fourth face, the 3rd face of second valve block is contacted with the second face of first valve block and sealed set, described
Second face of 3rd face of the second valve block along first valve block rotates, the roughness in the 3rd face of second valve block be less than or
Equal to the second face of second valve block, the roughness in the first face of first valve block is less than or equal to the second of first valve block
Face.
11. the fluid heat transfer component according to any one of claim 1-3 or 5 or 6 or 9 or 10, it is characterised in that:It is described
Valve hole part includes locating shaft, and the locating shaft is independently arranged with the transmission parts, and it is spacing that first valve block includes first
Hole, second valve block include the second spacing hole, and at least one in first spacing hole, the second spacing hole is non-through
Hole, the locating shaft are at least partially disposed at first spacing hole, and the another of the locating shaft has part positioned at the described second limit
Position hole.
12. fluid heat transfer component according to claim 4, it is characterised in that:The valve hole part includes locating shaft, described
Locating shaft is independently arranged with the transmission parts, and first valve block includes the first spacing hole, and second valve block includes second
Spacing hole, at least one in first spacing hole, the second spacing hole are non-through hole, at least part position of the locating shaft
In first spacing hole, the another of the locating shaft has part to be located at second spacing hole.
13. fluid heat transfer component according to claim 7, it is characterised in that:The valve hole part includes locating shaft, described
Locating shaft is independently arranged with the transmission parts, and first valve block includes the first spacing hole, and second valve block includes second
Spacing hole, at least one in first spacing hole, the second spacing hole are non-through hole, at least part position of the locating shaft
In first spacing hole, the another of the locating shaft has part to be located at second spacing hole.
14. fluid heat transfer component according to claim 8, it is characterised in that:The valve hole part includes locating shaft, described
Locating shaft is independently arranged with the transmission parts, and first valve block includes the first spacing hole, and second valve block includes second
Spacing hole, at least one in first spacing hole, the second spacing hole are non-through hole, at least part position of the locating shaft
In first spacing hole, the another of the locating shaft has part to be located at second spacing hole.
15. the fluid heat transfer component according to any one of claim 1-3 or 5 or 6 or 9 or 10 or 12 or 13 or 14, its
It is characterised by:First valve block includes two companies with disc format, second valve block with disc format, second valve block
Through hole, second valve block include the second spacing hole, and second spacing hole is located at the home position of second valve block, two
Relatively described second spacing hole of intercommunicating pore is symmetrical arranged, and described two intercommunicating pore sizes are identical;
Or second valve block includes multiple intercommunicating pores, first valve block includes first through hole and the second through hole, described more
The hole area sum of individual intercommunicating pore is not more than the hole area of the first through hole, and the hole area sum of the multiple intercommunicating pore is little
In the hole area of second through hole.
16. fluid heat transfer component according to claim 4, it is characterised in that:First valve block is with disc format, described
Second valve block is with disc format, and second valve block includes two intercommunicating pores, and second valve block includes the second spacing hole, described
Second spacing hole is located at the home position of second valve block, and relatively described second spacing hole of two intercommunicating pores is symmetrical arranged, and
Described two intercommunicating pore sizes are identical;
Or second valve block includes multiple intercommunicating pores, first valve block includes first through hole and the second through hole, described more
The hole area sum of individual intercommunicating pore is not more than the hole area of the first through hole, and the hole area sum of the multiple intercommunicating pore is little
In the hole area of second through hole.
17. fluid heat transfer component according to claim 7, it is characterised in that:First valve block is with disc format, described
Second valve block is with disc format, and second valve block includes two intercommunicating pores, and second valve block includes the second spacing hole, described
Second spacing hole is located at the home position of second valve block, and relatively described second spacing hole of two intercommunicating pores is symmetrical arranged, and
Described two intercommunicating pore sizes are identical;
Or second valve block includes multiple intercommunicating pores, first valve block includes first through hole and the second through hole, described more
The hole area sum of individual intercommunicating pore is not more than the hole area of the first through hole, and the hole area sum of the multiple intercommunicating pore is little
In the hole area of second through hole.
18. fluid heat transfer component according to claim 8, it is characterised in that:First valve block is with disc format, described
Second valve block is with disc format, and second valve block includes two intercommunicating pores, and second valve block includes the second spacing hole, described
Second spacing hole is located at the home position of second valve block, and relatively described second spacing hole of two intercommunicating pores is symmetrical arranged, and
Described two intercommunicating pore sizes are identical;
Or second valve block includes multiple intercommunicating pores, first valve block includes first through hole and the second through hole, described more
The hole area sum of individual intercommunicating pore is not more than the hole area of the first through hole, and the hole area sum of the multiple intercommunicating pore is little
In the hole area of second through hole.
19. fluid heat transfer component according to claim 11, it is characterised in that:First valve block is with disc format, institute
State the second valve block includes two intercommunicating pores with disc format, second valve block, and second valve block includes the second spacing hole, institute
The home position that the second spacing hole is located at second valve block is stated, relatively described second spacing hole of two intercommunicating pores is symmetrical arranged,
And described two intercommunicating pore sizes are identical;
Or second valve block includes multiple intercommunicating pores, first valve block includes first through hole and the second through hole, described more
The hole area sum of individual intercommunicating pore is not more than the hole area of the first through hole, and the hole area sum of the multiple intercommunicating pore is little
In the hole area of second through hole.
Priority Applications (7)
Application Number | Priority Date | Filing Date | Title |
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JP2019520357A JP6828151B2 (en) | 2016-11-09 | 2017-11-09 | Fluid heat exchange assembly and vehicle heat management system |
KR1020197010089A KR102206182B1 (en) | 2016-11-09 | 2017-11-09 | Vehicle fluid heat exchange assembly and thermal management system |
PCT/CN2017/110106 WO2018086553A1 (en) | 2016-11-09 | 2017-11-09 | Fluid heat exchange assembly, and heat management system of vehicle |
US16/337,092 US11285781B2 (en) | 2016-11-09 | 2017-11-09 | Fluid heat exchange assembly, and heat management system of vehicle |
PL17870379.9T PL3540352T3 (en) | 2016-11-09 | 2017-11-09 | Fluid heat exchange assembly, and heat management system of vehicle |
CN201780074652.1A CN110073164B (en) | 2016-11-09 | 2017-11-09 | Fluid heat exchange assembly and vehicle thermal management system |
EP17870379.9A EP3540352B1 (en) | 2016-11-09 | 2017-11-09 | Fluid heat exchange assembly, and heat management system of vehicle |
Applications Claiming Priority (2)
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CN201610986790 | 2016-11-09 | ||
CN2016109867904 | 2016-11-09 |
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CN201720597974.1U Active CN207449579U (en) | 2016-11-09 | 2017-05-26 | Fluid heat transfer component |
CN201710382932.0A Active CN108068576B (en) | 2016-11-09 | 2017-05-26 | Fluid heat exchange assembly |
CN201720597964.8U Active CN206944774U (en) | 2016-11-09 | 2017-05-26 | Fluid heat transfer component |
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CN201710382932.0A Active CN108068576B (en) | 2016-11-09 | 2017-05-26 | Fluid heat exchange assembly |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110411261A (en) * | 2018-04-28 | 2019-11-05 | 浙江三花汽车零部件有限公司 | Fluid heat exchanger and thermal management unit |
CN112240404A (en) * | 2019-07-18 | 2021-01-19 | 浙江三花汽车零部件有限公司 | Control valve |
Families Citing this family (3)
Publication number | Priority date | Publication date | Assignee | Title |
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CN113970268A (en) * | 2020-07-25 | 2022-01-25 | 浙江三花汽车零部件有限公司 | Heat exchange assembly and vehicle thermal management system |
CN115218564A (en) * | 2021-04-16 | 2022-10-21 | 浙江三花汽车零部件有限公司 | Connecting device and integrated assembly |
CN113883747B (en) * | 2021-10-12 | 2023-03-28 | 艾泰斯热系统研发(上海)有限公司 | Refrigerant heat exchange device and indirect heat pump system |
Family Cites Families (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP3953377B2 (en) * | 2002-07-16 | 2007-08-08 | トヨタ自動車株式会社 | Air conditioner |
FR2943774B1 (en) * | 2009-03-24 | 2013-12-20 | Valeo Systemes Thermiques | CONDENSER HAVING TWO HEAT EXCHANGE BLOCKS FOR AIR CONDITIONING CIRCUIT |
CN102667276B (en) * | 2009-10-22 | 2014-03-12 | 大金工业株式会社 | Air conditioner |
CN104296422B (en) * | 2013-07-19 | 2018-04-20 | 浙江三花汽车零部件有限公司 | Heat exchanger integrated package |
CN202885112U (en) * | 2012-10-30 | 2013-04-17 | 杭州三花研究院有限公司 | Air conditioning system assembly component |
CN109737778B (en) * | 2014-08-27 | 2020-10-27 | 浙江三花汽车零部件有限公司 | Heat exchanger |
CN205373470U (en) * | 2016-03-03 | 2016-07-06 | 杭州三花研究院有限公司 | Heat -exchanging unit |
-
2017
- 2017-05-26 CN CN201720597974.1U patent/CN207449579U/en active Active
- 2017-05-26 CN CN201710382932.0A patent/CN108068576B/en active Active
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110411261A (en) * | 2018-04-28 | 2019-11-05 | 浙江三花汽车零部件有限公司 | Fluid heat exchanger and thermal management unit |
CN112240404A (en) * | 2019-07-18 | 2021-01-19 | 浙江三花汽车零部件有限公司 | Control valve |
WO2021008279A1 (en) * | 2019-07-18 | 2021-01-21 | 浙江三花汽车零部件有限公司 | Control valve |
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CN108068576B (en) | 2020-09-25 |
CN207449579U (en) | 2018-06-05 |
CN108068576A (en) | 2018-05-25 |
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Effective date of registration: 20210107 Address after: 312500 Zhejiang Shaoxing Xinchang County Qixing street Liquan Patentee after: ZHEJIANG SANHUA INTELLIGENT CONTROLS Co.,Ltd. Address before: 310018 no.289-2, No.12 street, Xiasha Economic Development Zone, Hangzhou City, Zhejiang Province Patentee before: Hangzhou Sanhua Research Institute Co.,Ltd. |