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CN-224210865-U - Thermal management valve group module and vehicle comprising same

CN224210865UCN 224210865 UCN224210865 UCN 224210865UCN-224210865-U

Abstract

The application relates to the technical field of vehicle thermal management, and particularly provides a thermal management valve group module and a vehicle comprising the same. The heat management valve group module comprises a main body, a valve group and a wire harness, wherein the main body at least comprises a first split body, a second split body and a third split body, the first split body, the second split body and the third split body are in sealing connection and define a flow passage part, the flow passage part is arranged in a Z-direction in multiple layers, the valve group comprises a plurality of elements, the elements are arranged on the main body and distributed on the flow passage part, and the elements are in communication connection through the wire harness. In the application, the heat management valve group module integrates a plurality of valve group elements and flow channels, the elements are connected through the flow channel parts which are arranged in a plurality of layers in the main body, so that the circulation of the refrigerant is realized, the structure of the vehicle heat management system is simplified, the occupied space and the weight of the heat management valve group module are reduced, the valve group elements can be arranged in multiple surfaces, the space utilization rate of the integrated module is improved, and the integration degree is higher.

Inventors

  • SUN WENHUI
  • HU YAODONG
  • GUAN JIATUAN
  • LIANG YAN

Assignees

  • 北京经纬恒润科技股份有限公司

Dates

Publication Date
20260508
Application Date
20250527

Claims (10)

  1. 1. A thermal management valve block module, comprising a body (110), a valve block (120), and a wiring harness (130); The main body (110) at least comprises a first split body (111), a second split body (112) and a third split body (113), wherein the first split body (111), the second split body (112) and the third split body (113) are connected in a sealing mode and define a flow channel part (L), and the flow channel part (L) is arranged in multiple layers along the Z direction; The valve group (120) comprises a plurality of elements (121), the elements (121) are mounted on the main body (110) and distributed on the runner part (L), and the elements (121) are in communication connection through the wire harness (130).
  2. 2. The thermal management valve block module according to claim 1, wherein the flow path portion (L) includes a first flow path portion (L1), a second flow path portion (L2), a lateral flow path portion (L3), and an element flow path portion (L4), the first flow path portion (L1) and the second flow path portion (L2) are arranged in layers in the Z direction, the element flow path portion (L4) is mounted with the element (121), and the lateral flow path portion (L3) is distributed on a side of the element flow path portion (L4) in the Z direction and communicates the element flow path portion (L4) with the first flow path portion (L1) or the second flow path portion (L2).
  3. 3. The thermal management valve block module of claim 2, wherein the first split (111) has opposite A1 face and B1 face along a Z-direction, the A1 face being provided with a first mounting stage (1111), the B1 face being provided with a first flow path subsection (1112); The second split body (112) is provided with an A2 surface and a B2 surface which are opposite along the Z direction, the A2 surface is provided with a second flow passage subsection (1121), and the B2 surface is provided with a second mounting table (1122); The B1 surface is in sealing connection with the A2 surface, the first flow channel subsection (1112) and the second flow channel subsection (1121) are correspondingly buckled to form the first flow channel part (L1), part of the element flow channel part (L4) is distributed in the first mounting table (1111) and the second mounting table (1122) and is communicated with the first flow channel part (L1), and at least part of the elements (121) of the valve group (120) are mounted by the first mounting table (1111) and the second mounting table (1122).
  4. 4. A thermal management valve block module according to claim 3, wherein the third split (113) has opposite A3-side and B3-side along the Z-direction, the A3-side being provided with a fourth flow path subsection (1131), the B3-side being provided with a third mounting table (1132); The B2 surface is further provided with a third flow passage part (1123), the B2 surface is in sealing connection with the A3 surface, the third flow passage part (1123) is correspondingly buckled with the fourth flow passage part (1131) to form a second flow passage part (L2), a part of the element flow passage part (L4) is distributed in the third mounting table (1132) and is communicated with the second flow passage part (L2), and the third mounting table (1132) is used for mounting at least a part of the element (121) of the valve group (120).
  5. 5. The thermal management valve block module according to claim 4, wherein the first split body (111) is provided with a first reinforcement portion (1113), the first reinforcement portion (1113) being connected to each of the first mounting tables (1111); And/or, the second split body (112) is provided with a second reinforcing part (1124), and the second reinforcing part (1124) is connected with each second mounting table (1122); And/or, the third split body (113) is provided with a third reinforcing part, and the third reinforcing part is connected with each third mounting table (1132).
  6. 6. A thermal management valve block module according to any one of claims 1 to 5, wherein at least part of the elements (121) are provided on opposite sides of the body (110) in the Z-direction.
  7. 7. A thermal management valve block module according to any one of claims 1 to 5, wherein the flow conduit portion (L) has a curved section with a break angle θ of 90 ° < θ+≤180°.
  8. 8. A thermal management valve block module according to any one of claims 1 to 5, wherein the flow conduit portion (L) is circular or elliptical in radial cross-section.
  9. 9. The thermal management valve block module according to any one of claims 1 to 5, wherein mounting points (D) are respectively provided on both sides of the main body (110) in the Y direction, and the mounting points (D) are distributed in the Z direction; Wherein, Y is perpendicular with Z to the orientation.
  10. 10. A vehicle characterized by comprising a thermal management valve block module (100) according to any one of claims 1 to 9.

Description

Thermal management valve group module and vehicle comprising same Technical Field The application relates to the technical field of vehicle thermal management, and particularly provides a thermal management valve group module and a vehicle comprising the same. Background Along with the accelerated development of new energy automobiles, the requirements of the market on the vehicle thermal management valve group module are also continuously improved. As an important component of the vehicle, the thermal management valve group module not only can adjust the temperature, the humidity and the wind speed of the passenger cabin to enable a user to obtain comfortable driving and riding environment, but also can heat and preserve heat or dissipate heat and cool parts of the whole vehicle to enable the whole vehicle to keep a good working state. The automobile thermal management valve group module generally comprises heat exchange elements such as a plate heat exchanger and an intermediate heat exchanger, fluid components such as a gas-liquid separator and a liquid storage drying tank, and valve elements such as an electromagnetic valve and an electronic expansion valve, wherein the components are independently arranged in the system and are mutually connected through pipelines to form a complex passage, and each functional component also needs to be independently installed with the outside. In the related technical scheme, in order to adjust the heat balance of a plurality of systems of the whole vehicle, the heat management elements are distributed in the vehicle body in a scattered way, so that the pipeline connection is extremely complex, the cruising and the heat management efficiency of the vehicle are seriously affected, and great challenges are brought to the layout space of the vehicle. Therefore, the distributed heat management valve group modules have the technical defects of complex pipeline arrangement, high space occupation, difficult maintenance, difficult assembly and the like. Disclosure of utility model In the related art, the heat management valve group module with the distributed layout has the technical defects of complex pipeline arrangement, high space occupation, difficult maintenance, difficult assembly and the like, and the aim of the application is to solve at least part of the technical problems, and the aim is realized by the following technical scheme: the application provides a thermal management valve group module which comprises a main body, a valve group and a wire harness, wherein the main body at least comprises a first split body, a second split body and a third split body, the first split body, the second split body and the third split body are in sealing connection and define a runner part, the runner part is arranged in a Z-direction in multiple layers, the valve group comprises a plurality of elements, the elements are mounted on the main body and distributed on the runner part, and the elements are in communication connection through the wire harness. In some embodiments the flow gate comprises a first flow gate, a second flow gate, a lateral flow gate and an element flow gate, the first flow gate and the second flow gate being arranged in layers in the Z-direction, the element flow gate being fitted with elements, the lateral flow gate being arranged laterally of the element flow gate in the Z-direction and communicating the element flow gate with the first flow gate or the second flow gate. In some embodiments, the first split body is provided with an A1 surface and a B1 surface which are opposite to each other along the Z direction, the A1 surface is provided with a first mounting table, the B1 surface is provided with a first flow channel subsection, the second split body is provided with an A2 surface and a B2 surface which are opposite to each other along the Z direction, the A2 surface is provided with a second flow channel subsection, the B1 surface is in sealing connection with the A2 surface and the first flow channel subsection is correspondingly buckled with the second flow channel subsection to form a first flow channel section, partial element flow channel sections are distributed in the first mounting table and the second mounting table and are communicated with the first flow channel section, and the first mounting table and the second mounting table mount at least partial elements of the valve group. In some embodiments, the third split body is provided with an A3 surface and a B3 surface which are opposite along the Z direction, the A3 surface is provided with a fourth flow passage part, the B3 surface is provided with a third mounting table, the B2 surface is also provided with a third flow passage part, the B2 surface is in sealing connection with the A3 surface, the third flow passage part and the fourth flow passage part are correspondingly buckled to form a second flow passage part, part of element flow passage parts are distributed in the third mounti