CN218031652U - Valve assembly, connecting pipeline and thermal management system - Google Patents

Abstract

The utility model discloses a valve module, connecting line and thermal management system. The valve assembly comprises a valve seat, a valve body, a connecting pipeline and a heat exchanger. The valve seat is provided with a valve installation cavity, a connecting channel communicated with the valve installation cavity is formed inside the valve seat, an interface communicated with the connecting channel is formed on the valve seat, and the interface is structured to be multiple and comprises at least one first interface and at least one second interface. The utility model discloses form one or more valve installation cavity on the disk seat, the at least part of valve body is acceptd in the valve installation cavity. The utility model discloses a heat transfer interface connection on interface on connecting tube and the disk seat, the heat exchanger has realized the intercommunication between the different interfaces on the intercommunication of disk seat and heat exchanger and the disk seat, the structure manufacturing degree of difficulty and the manufacturing cost greatly reduced of disk seat, and the assembly and the maintenance of valve module are more convenient.

Description

Valve assembly, connecting pipeline and thermal management system

Technical Field

The utility model belongs to the technical field of the thermal management system technique and specifically relates to a valve module, connecting line and thermal management system are related to.

Background

In the related art, the valve seat is generally divided into a thicker main body and a thinner sealing plate, the internal channel of the main body of the valve seat is mostly formed with a groove by a die-casting process, and then the main body and the sealing plate are combined into a whole by a brazing process. The technology has the disadvantages of large leakage risk, high yield failure rate and high manufacturing cost.

SUMMERY OF THE UTILITY MODEL

The utility model discloses aim at solving one of the technical problem that exists among the prior art at least. To this end, it is an object of the present invention to provide a valve assembly for a thermal management system. The utility model discloses a heat transfer interface connection on interface on connecting tube and the disk seat, the heat exchanger has realized the intercommunication between the different interfaces on the intercommunication of disk seat and heat exchanger and the disk seat, the structure manufacturing degree of difficulty and the manufacturing cost greatly reduced of disk seat, and the assembly and the maintenance of valve module are more convenient.

The utility model discloses still provide a connecting line that is used for above-mentioned valve module.

The utility model discloses thermal management system who contains above-mentioned valve module is still provided.

The valve component for the heat management system comprises a valve seat, wherein a valve installation cavity is arranged on the valve seat, a connecting channel communicated with the valve installation cavity is formed inside the valve seat, an interface communicated with the connecting channel is formed on the valve seat, and the interface is constructed into a plurality of interfaces and comprises at least one first interface and at least one second interface; the valve body, at least part of the valve body is accommodated in the valve installation cavity; the heat exchanger is provided with a heat exchange interface; and the connecting pipelines are multiple in structure, one end of each connecting pipeline is connected with the first interface, and the other end of each connecting pipeline is connected with at least one of the second interface and the heat exchange interface.

The interface structure is a plurality of and includes at least one first interface, at least one second interface, and the connecting line structure is a plurality of, and one end and the first interface of every connecting line are connected, and the other end and the second interface of every connecting line, heat transfer interface in at least one are connected.

The utility model discloses an interface connection on connecting line and the disk seat has realized the intercommunication between the different interfaces on the intercommunication of disk seat and heat exchanger and the disk seat, and the degree of difficulty and the manufacturing cost greatly reduced are made to the structure of disk seat, and the assembly and the maintenance of valve module are more convenient. Compare in the disk seat of brazing process, the utility model discloses utilize connecting line to realize intercommunication between the different interfaces on the intercommunication of disk seat and heat exchanger and the disk seat, need not to utilize the method of brazing at the inside complicated runner of formation of disk seat, the utility model discloses a valve module assembly is more convenient with the maintenance, and the production is low with the manufacturing degree of difficulty.

According to an embodiment of the invention, at least two of the connecting lines are constructed as an integrally formed part.

According to the utility model discloses an embodiment, the connecting line constructs as integrated into one piece with at least one in disk seat, the heat exchanger.

According to the utility model discloses an embodiment, the disk seat has first surface and second surface, and first surface sets up respectively in the ascending both sides of the thickness direction of disk seat with the second surface, and the valve installation cavity is formed with and opens mouthful on the first surface, and the second is provided with first interface and second interface on the surface.

According to the utility model discloses an embodiment, the heat exchanger is constructed two, and two heat exchanger intervals set up, and the heat transfer interface sets up between two heat exchangers and opens each other towards.

According to the utility model discloses an embodiment, the valve seat has the third surface at the lateral part, and the interface still includes the third interface, and the third interface sets up in the third surface and switches on with interface channel.

The connecting pipeline for the valve component comprises a pipeline body, wherein a pipeline channel suitable for conducting a medium is formed in the pipeline body; the first joint is arranged at one end of the pipeline body and is suitable for being connected with the first interface; the second joint is arranged at the other end of the pipeline body and is suitable for being communicated with the heat exchange interface; and the third joint is arranged on the pipeline body and is communicated with the pipeline channel, and the third joint is suitable for being communicated with the second interface.

According to the utility model discloses a connecting line for valve module still includes the lateral conduit, and the one end and the third of lateral conduit connect the intercommunication, and the other end connecting line body of lateral conduit switches on with pipeline channel.

According to the utility model discloses a connecting line for valve module, pipeline body, lateral conduit, first joint, second connect and the third connects the structure as integrated into one piece spare.

Additional aspects and advantages of the invention will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the invention.

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

fig. 1 is an exploded view of a valve assembly according to the present invention;

FIG. 2 is a first surface configuration view of a valve seat of a valve assembly according to the present invention;

FIG. 3 is a second surface block diagram of a valve seat of a valve assembly according to the present invention;

fig. 4 is a block diagram according to an embodiment of the present invention;

fig. 5 is a block diagram according to an embodiment of the present invention;

fig. 6 is a diagram of a heat exchanger connection structure according to an embodiment of the present invention;

fig. 7 is a diagram of a heat exchanger connection structure according to an embodiment of the present invention;

fig. 8 is a diagram of a connecting line structure according to an embodiment of the present invention.

Reference numerals are as follows:

a valve assembly 1;

the valve seat 11, the first port 111, the second port 112, the third port 113, and the valve installation cavity 114;

a valve body 12;

a connection pipe 13, a first joint 131, a second joint 132, a third joint 133, and a branch pipe 134;

heat exchanger 14, heat exchange interface 141;

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary only for the purpose of explaining the present invention, and should not be construed as limiting the present invention.

In the related art, the valve seat is generally divided into a thicker main body and a thinner sealing plate, the internal channel of the main body of the valve seat is mostly formed with a groove by a die-casting process, and then the main body and the sealing plate are combined into a whole by a brazing process. The technology has the disadvantages of large leakage risk, high yield failure rate and high manufacturing cost.

A valve assembly 1 according to an embodiment of the present invention is described below with reference to fig. 1-8.

The valve assembly 1 for a thermal management system according to the present invention comprises a valve seat 11, a valve body 12, a connecting line 13 and a heat exchanger 14.

Wherein, valve seat 11 is provided with valve installation cavity 114, and valve seat 11 is inside to be formed with the connecting channel who communicates with valve installation cavity 114, is formed with the interface that leads to with the connecting channel on the valve seat 11, and the interface is constructed a plurality ofly and includes at least one first interface 111, at least one second interface 112. The number of the valve installation cavities 114 may be plural, each valve installation cavity 114 corresponds to at least one port through a connection channel, any two or more valve installation cavities 114 may be communicated with each other, and each valve installation cavity 114 may be in an isolated state.

At least a portion of the valve body 12 is received within the valve mounting cavity 114 and is adapted to control the flow of media within the connecting passage. The valve body 12 may be configured as at least one of an expansion valve, a solenoid valve, and a check valve, and of course, the valve body 12 may also be configured as other types of valve structures, the number of the valve bodies 12 is set to be plural, and each valve body 12 is accommodated in the corresponding valve installation cavity 114. The medium flowing through the connecting channel can be refrigerant or water, the medium is conducted or blocked or pressure relief and the like after passing through the corresponding valve body 12, and the electromagnetic valve is electrified by controlling an inductance coil inside, so that whether the medium passing through the electromagnetic valve is conducted or blocked is controlled; the one-way valve can control the flow direction of the medium, and the medium in the control connecting channel can only flow in the preset direction, so that the medium is prevented from flowing in the reverse direction. Various valve bodies 12 can be used in a matched manner, so that a better heat exchange effect is achieved.

One end of the connecting pipeline 13 is communicated with a port on the valve seat 11, and a heat exchange port 141 is formed on the heat exchanger 14. The ports are configured in plurality and include a first port 111 and a second port 112, and the connection pipe 13 is configured in plurality, and the number of the connection pipes 13 is less than the number of the ports. One end of each connecting pipeline 13 is connected with the first interface 111, and the other end of each connecting pipeline 13 is connected with at least one of the second interface 112 and the heat exchange interface 141. Wherein, one end of the connecting pipeline 13 is communicated with the first interface 111, and when the other end of the connecting pipeline 13 is communicated with the heat exchange interface 141, the connecting pipeline 13 realizes the communication between the valve seat 11 and the heat exchanger 14; when one end of the connecting pipeline 13 is communicated with the first port 111 and the other end of the connecting pipeline 13 is communicated with the second port 112, the connecting pipeline 13 realizes the communication between different ports on the valve seat 11; when one end of the connecting pipeline 13 is communicated with the first port 111 and the other end of the connecting pipeline 13 is communicated with the heat exchange port 141 and the second port 112, the connecting pipeline 13 realizes the communication between the valve seat 11 and the heat exchanger 14 and the communication between different ports on the valve seat 11.

The utility model discloses a connecting line 13 is connected with interface, heat transfer interface 141 on the disk seat 11, has realized disk seat 11 and heat exchanger 14's intercommunication and disk seat 11 go up the intercommunication between the different interfaces, and the degree of difficulty and manufacturing cost greatly reduced are made to disk seat 11's structure, and valve module 1's assembly and maintenance are more convenient. Compare in the process of brazing disk seat 11's that compares, the utility model discloses utilize connecting line 13 to realize intercommunication between different interfaces on disk seat 11 and heat exchanger 14's the intercommunication and the disk seat 11, need not to utilize the method of brazing at the inside complicated runner of formation of disk seat 11, the utility model discloses a valve module 1 assembly is more convenient with the maintenance, and the production is low with the manufacturing difficulty.

According to an embodiment of the present invention, the at least two connecting lines 13 are configured as an integrally formed part. At least two connecting pipelines 13 are constructed into an integrated piece, so that the integration level of the valve component 1 can be improved, the number of parts is reduced, the assembly difficulty between the connecting pipelines 13 and the valve seat 11 and between the connecting pipelines 13 and the heat exchanger 14 can be reduced, the connecting pipelines 13 and the valve seat and the heat exchanger 14 are more convenient to connect, and the development and die sinking cost of the single connecting pipeline 13 are further reduced.

According to an embodiment of the present invention, the connecting line 13 is constructed as an integral part with at least one of the valve seat 11 and the heat exchanger 14. When the connecting pipeline 13 and the valve seat 11 are constructed as an integrally formed piece, one end of the connecting pipeline 13 is integrally formed with at least one of the first connector 111 and the second connector 112, and the other end of the connecting pipeline 13 is connected with the heat exchange connector 141 to realize the connection between the heat exchanger 14 and the valve seat 11, so that a medium circularly flows between the valve seat 11 and the heat exchanger 14; when the connecting pipeline 13 and the heat exchanger 14 are constructed as an integrally formed part, the other end of the connecting pipeline 13 is directly and integrally formed with the heat exchange interface 141, and one end of the connecting pipeline 13 is selectively connected with at least one of the first interface 111 and the second interface 112 according to different heat management working conditions; when the connecting pipeline 13, the valve seat 11 and the heat exchanger 14 are constructed as an integral part, the connecting pipeline 13 is directly communicated with the valve seat 11 and the heat exchanger 14 respectively, and the assembly is convenient. The connecting line 13 is constructed as an integral part with at least one of the valve seat 11 and the heat exchanger 14, so that the valve assembly 1 for thermal management has higher integration, the number of parts of the valve assembly 1 is less, and the cost is further reduced.

According to the utility model discloses a valve module 1 for thermal management system, valve seat 11 has first surface and second surface, and first surface and second surface set up respectively in the ascending both sides of the thickness direction of valve seat 11, and valve installation cavity 114 is formed with and opens the mouth on the first surface, is provided with first interface 111 and second interface 112 on the second surface. The valve installation cavity 114 is provided with an open opening on the first surface, the valve body 12 is accommodated in the valve installation cavity 114 through the open opening, the valve body 12 is more convenient to assemble, the valve installation cavity 114 is easier to process, a connecting channel is not required to be arranged too complicated, the valve seat is matched with the connecting pipeline 13, the scheme that a die-casting process is adopted to form a groove in the valve seat 11 main body in the related technology is replaced, and the assembly of the valve assembly 1 and the valve body 12 is simpler and more convenient. The first port 111 and the second port 112 are arranged on the second surface, and the heat exchanger 14 is connected with the valve seat 11 through the connecting pipeline 13, so that the assembly is simple and the space is saved.

According to an embodiment of the present invention, the heat exchanger 14 is constructed as two, two the heat exchanger 14 is arranged at intervals, and the heat exchange interface 141 is arranged between the two heat exchangers 14 and is opened towards each other. Two heat exchangers 14 interval settings, heat transfer interface 141 sets up between two heat exchangers 14 and opens each other towards, and connecting line 13 connects the heat transfer interface 141 in-process, and connecting line 13 sets up between two heat exchangers 14, and according to the heat transfer operating mode of difference, connecting line 13 can be connected with different heat transfer interface 141, and heat exchanger 14 saves space with arranging of connecting line 13 more, and it is more convenient to maintain and change heat exchanger 14. And the connection pipe 13 is located between the two heat exchangers 14, the connection pipe 13 is not exposed to the outside, and the heat exchangers 14 can effectively protect the connection pipe 13.

According to an embodiment of the present invention, the valve seat 11 has a third surface at the side portion, the interface further includes a third interface 113, and the third interface 113 is arranged to be conducted with the third surface and with the connecting channel. Different heat exchange pipelines and heat exchange units are arranged in the heat management system, the third interface 113 is connected with different heat exchange pipelines and heat exchange units, different heat exchange working conditions can be met, the third interface 113 is arranged on a third surface of the side portion of the valve seat 11 and is communicated with the connecting channel, a medium flows between the valve body 12 and the valve seat 11, and when the third interface 113 is connected with different heat exchange pipelines and heat exchange units, the medium can conveniently flow in different heat exchange pipelines and heat exchange units to deal with different heat exchange working conditions. The third interface 113 may be configured as an interface for the valve assembly 1 to connect with other heat exchange units, which may be a cooling flow passage of a motor, a cooling flow passage of a battery module, an indoor air conditioner, and the like.

The connecting line 13 according to the invention is briefly described below.

The connecting line 13 according to the present invention is applied to the valve module 1 according to any one of the above embodiments. The connecting pipeline 13 comprises a pipeline body, and a pipeline channel suitable for conducting a medium is formed in the pipeline body; the first joint 131 is arranged at one end of the pipeline body, and the first joint 131 is suitable for being connected with the first interface 111; the second joint 132 is arranged at the other end of the pipeline body, and the second joint 132 is suitable for being communicated with the heat exchange interface 141; a third connector 133, the third connector 133 is disposed on the pipeline body and is communicated with the pipeline channel, and the third connector 133 is adapted to be communicated with the second port 112.

The connecting pipeline 13 is connected with the first interface 111 through the first connector 131 to realize communication with the valve seat 11, and is connected with the heat exchange interface 141 through the second connector 132 to realize communication with the heat exchanger 14, the connecting pipeline 13 realizes communication between the valve seat 11 and the heat exchanger 14 through the first connector 131 and the second connector 132 to realize the flow of media among the valve seat 11, the pipeline channel and the heat exchanger 14; the third joint 133 is arranged on the pipeline body and communicated with the pipeline channel, the third joint 133 is suitable for being communicated with the second port 112, the connecting pipeline 13 is connected with the first port 111 through the first joint 131 and is connected with the second port 112 through the third joint 133, and communication of media among different ports on the surface of the valve seat 11 is achieved.

According to the utility model discloses a connecting line 13 still includes branch pipeline 134, and the one end and the third of branch pipeline 134 connect 133 intercommunication, and the other end connecting line 13 body of branch pipeline 134 switches on with pipeline channel.

One end of the branch pipeline 134 is communicated with the third joint 133 and connected to the second interface 112, so that the medium flows between the second interfaces 112 on the surface of the valve seat 11, the other end of the branch pipeline 134 is connected to the pipeline 13 and communicated with the pipeline channel, the medium flows into the branch pipeline 134 through the second interface 112 and flows into the heat exchanger 14 through the pipeline channel to realize heat exchange, and the branch pipeline 134 provides more flow channels for medium circulation, so that a better heat exchange effect is realized.

According to the utility model discloses a connecting line 13, pipeline body, branch pipeline 134, first joint 131, second joint 132 and third joint 133 construct as an integrated piece. The pipe body of the connecting pipe 13, the branch pipe 134, the first joint 131, the second joint 132 and the third joint 133 are constructed as an integrated part, which improves the integration level and the structural strength of the connecting pipe 13, so that the connecting pipe 13 can be better connected with the valve seat 11 and the heat exchanger 14, the connecting pipe 13 is constructed as an integrated part, which also reduces the assembly procedure and the assembly complexity between the connecting pipe 13 and the valve seat 11, and improves the sealing performance of the connecting pipe 13 at each position.

A brief description of a thermal management system according to the present invention follows.

According to the utility model discloses a heat management system includes valve module 1 in any one of the above-mentioned embodiments, because according to the utility model discloses a be provided with any one of the above-mentioned embodiments in the heat management system valve module 1, consequently according to the utility model discloses a heat management system disk seat 11 need not to utilize brazed method at the inside complicated runner of formation of disk seat 11, the utility model discloses a valve module 1 assembly is more convenient with the maintenance, and the production is low with the manufacturing degree of difficulty. Therefore, the production cost of the thermal management system is reduced, and the sealing performance and the reliability of the thermal management system are improved.

A specific embodiment of the valve assembly 1 according to the invention is briefly described below.

The valve assembly 1 for a thermal management system according to the present invention comprises a valve seat 11, a valve body 12, a connecting line 13 and a heat exchanger 14. The valve seat 11 is provided with a valve installation cavity 114, a connection channel communicated with the valve installation cavity 114 is formed inside the valve seat 11, and at least part of the valve body 12 is accommodated in the valve installation cavity 114 and is suitable for controlling the medium flow in the connection channel. The number of the valve installation cavities 114 may be plural, each valve body 12 is accommodated in the corresponding valve installation cavity 114, any two or more valve installation cavities 114 may be communicated with each other, and each valve installation cavity 114 may be in a state of being isolated from each other.

A heat exchange port 141 is formed in the heat exchanger 14, a port communicating with the connection passage is formed in the valve seat 11, and one end of the connection pipe 13 communicates with the port. The connection pipe 13 is configured in plurality, and includes a first connection port 111 and a second connection port 112, one end of each connection pipe 13 is connected to the first connection port 111, and the other end of each connection pipe 13 is connected to at least one of the second connection port 112 and the heat exchange port 141.

The utility model discloses form one or more valve installation cavity 114 on disk seat 11, disk seat 11 is inside to be formed with the interface channel who communicates with valve installation cavity 114, and at least part of valve body 12 is acceptd in valve installation cavity 114, has changed the condition through die casting process at the inside runner that forms of disk seat 11 among the correlation technique, the utility model discloses an interface and connecting line 13 that form on the disk seat 11 and that the interface that interface channel switches on have realized intercommunication between different interfaces on disk seat 11 and heat exchanger 14 and the disk seat 11, have reduced the process of brazing, and assembly and maintenance are more convenient.

According to an embodiment of the present invention, the at least two connecting lines 13 are configured as an integrally formed part.

At least two connecting pipeline 13 structures are integrated into one piece spare, can improve valve module 1's integrated level, reduce the quantity of spare part, can reduce the assembly degree of difficulty between connecting pipeline 13 and disk seat 11 and the heat exchanger 14 simultaneously, and connecting pipeline 13 is more convenient with being connected of valve block and heat exchanger 14, and the development and the die sinking cost of single connecting pipeline 13 also further reduce. According to an embodiment of the present invention, the connecting pipeline 13 and at least one of the valve seat 11 and the heat exchanger 14 are constructed as an integrally formed part.

According to an embodiment of the present invention, the connecting line 13 is constructed as an integral part with at least one of the valve seat 11 and the heat exchanger 14. The connecting pipe 13 and at least one of the valve seat 11 and the heat exchanger 14 are constructed as an integral molding piece, so that the valve assembly 1 for thermal management has higher integration degree, the number of parts of the valve assembly 1 is less, and the cost is further reduced.

According to an embodiment of the present invention, the valve seat 11 has a first surface and a second surface, the first surface and the second surface are respectively disposed on both sides of the valve seat 11 in the thickness direction, the valve installation cavity 114 is formed with an open opening on the first surface, and the second surface is provided with the first interface 111 and the second interface 112.

The valve installation cavity 114 is provided with an open opening on the first surface, the valve body 12 is accommodated in the valve installation cavity 114 through the open opening, the valve body 12 is more convenient to assemble, the valve installation cavity 114 is easier to process, a connecting channel is not required to be arranged too complicated, the valve seat is matched with the connecting pipeline 13, the scheme that a die-casting process is adopted to form a groove in the valve seat 11 main body in the related technology is replaced, and the assembly of the valve assembly 1 and the valve body 12 is simpler and more convenient. The first port 111 and the second port 112 are arranged on the second surface, and the heat exchanger 14 is connected with the valve seat 11 through the connecting pipeline 13, so that the assembly is simple and the space is saved.

According to an embodiment of the present invention, the heat exchanger 14 is two, the two heat exchangers 14 are spaced apart, and the heat exchange interface 141 is disposed between the two heat exchangers 14 and opens toward each other.

The two heat exchangers 14 are arranged at intervals, the heat exchange interface 141 is arranged between the two heat exchangers 14 and is opened towards each other, the arrangement of the heat exchangers 14 and the connecting pipeline 13 is more space-saving, and the maintenance and the replacement of the heat exchangers 14 are more convenient. And the connection pipe 13 is located between the two heat exchangers 14, the connection pipe 13 is not exposed to the outside, and the heat exchangers 14 can effectively protect the connection pipe 13.

According to an embodiment of the present invention, the valve seat 11 has a third surface at the side portion, the interface further includes a third interface 113, and the third interface 113 is arranged to be conducted with the third surface and with the connecting channel.

The third interface 113 is connected with different heat exchange pipelines and heat exchange units, so that different heat exchange working conditions can be met, the third interface 113 is arranged on the third surface of the side part of the valve seat 11 and is communicated with the connecting channel, a medium flows between the valve body 12 and the valve seat 11, and when the third interface 113 is connected with different heat exchange pipelines and heat exchange units, the medium can conveniently flow in different heat exchange pipelines and heat exchange units to deal with different heat exchange working conditions.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", "axial", "radial", "circumferential", and the like, indicate the orientation or positional relationship based on the orientation or positional relationship shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.

In the description of the present invention, "the first feature" and "the second feature" may include one or more of the features.

In the description of the present invention, "a plurality" means two or more.

In the description of the present invention, the first feature "on" or "under" the second feature may include the first and second features being in direct contact, and may also include the first and second features being in contact with each other not directly but through another feature therebetween.

In the description of the invention, the first feature being "on", "above" and "above" the second feature includes the first feature being directly above and obliquely above the second feature, or merely indicating that the first feature is at a higher level than the second feature.

In the description herein, references to the description of the term "one embodiment," "some embodiments," "an illustrative embodiment," "an example," "a specific example," or "some examples" or the like mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

While embodiments of the present invention have been shown and described, it will be understood by those of ordinary skill in the art that: various changes, modifications, substitutions and alterations can be made to the embodiments without departing from the principles and spirit of the invention, the scope of which is defined by the claims and their equivalents.

Claims (10)

1. A valve assembly for a thermal management system, comprising:

the valve seat is provided with a valve installation cavity, a connecting channel communicated with the valve installation cavity is formed inside the valve seat, a plurality of interfaces communicated with the connecting channel are formed on the valve seat, and each interface is constructed to comprise at least one first interface and at least one second interface;

the valve body is at least partially accommodated in the valve mounting cavity;

the heat exchanger is provided with a heat exchange interface;

the connecting pipeline is multiple in structure, one end of each connecting pipeline is connected with the first interface, and the other end of each connecting pipeline is connected with at least one of the second interface and the heat exchange interface.

2. The valve assembly for a thermal management system of claim 1, wherein at least two of the connecting conduits are configured as an integrally formed piece.

3. The valve assembly for a thermal management system of claim 1, wherein the connecting line is configured as an integral piece with at least one of the valve seat, the heat exchanger.

4. The valve assembly for a thermal management system of claim 1, wherein the valve seat has a first surface and a second surface, the first surface and the second surface being respectively provided on both sides in a thickness direction of the valve seat, the valve mounting cavity being formed with an open opening on the first surface, the second surface being provided with the first port and the second port.

5. The valve assembly for a thermal management system of claim 4, wherein the heat exchangers are configured in two, the two heat exchangers being spaced apart, the heat exchange interface being disposed between the two heat exchangers and open toward each other.

6. The valve assembly for a thermal management system of claim 4, wherein the valve seat has a third surface on a side, the port further comprising a third port disposed on the third surface and in communication with the connecting passage.

7. A connecting line for a valve assembly according to any one of claims 1 to 6, wherein the connecting line is used in the valve assembly, and comprises:

the pipeline comprises a pipeline body, wherein a pipeline channel suitable for conducting a medium is formed in the pipeline body;

the first joint is arranged at one end of the pipeline body and is suitable for being connected with the first interface;

the second joint is arranged at the other end of the pipeline body and is suitable for being communicated with the heat exchange interface;

and the third joint is arranged on the pipeline body and is communicated with the pipeline channel, and the third joint is suitable for being communicated with the second interface.

8. The connecting line according to claim 7, further comprising: and one end of the branch pipeline is communicated with the third joint, and the other end of the branch pipeline is connected with the pipeline body and communicated with the pipeline channel.

9. The connecting line of claim 8, wherein the line body, the branch line, the first fitting, the second fitting, and the third fitting are configured as an integral piece.

10. A thermal management system comprising the valve assembly of any of claims 1-6.

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