CN114789636A

CN114789636A - Thermal management assembly

Info

Publication number: CN114789636A
Application number: CN202110162081.5A
Authority: CN
Inventors: 不公告发明人
Original assignee: Zhejiang Sanhua Automotive Components Co Ltd
Current assignee: Zhejiang Sanhua Automotive Components Co Ltd
Priority date: 2021-01-24
Filing date: 2021-02-05
Publication date: 2022-07-26
Also published as: CN114789639A; CN114789638A; CN114789635A; CN114791183A; CN114789637A

Abstract

A heat management assembly is in surface contact with a communicating part through a mounting bracket, the mounting bracket is fixedly connected with the communicating part, the mounting bracket supports the communicating part, and mounting feet of the mounting bracket are fixedly connected with other components of a vehicle heat management system or a vehicle frame of a vehicle; the thermal management assembly is fixedly connected with a vehicle thermal management system, and the connection stability between the parts of the thermal management assembly is facilitated.

Description

Thermal management assembly

Technical Field

The present application relates to a vehicle part, in particular to a thermal management assembly.

Background

The vehicle thermal management system comprises a thermal management assembly, the thermal management assembly comprises a plurality of mounting components, communicating parts and other components, the communicating parts are provided with communicating channels, pipelines can be omitted by communicating the mounting components with the communicating parts, the structure is simpler and more compact, and how to fixedly connect the thermal management assembly with the vehicle thermal management system and how to ensure the connection stability between the components of the thermal management assembly is a technical problem.

Disclosure of Invention

The application aims to provide a thermal management assembly, which can meet the requirements of fixed connection between the thermal management assembly and a vehicle thermal management system and connection stability between parts of the thermal management assembly.

In order to achieve the purpose, the following technical scheme is adopted in the application: a thermal management assembly capable of being used in a vehicle thermal management system comprises a liquid storage device, a communication portion and a mounting component, wherein the liquid storage device is located on one side of the communication portion, the communication portion is provided with a communication channel, the communication portion comprises a mounting portion, the mounting component is connected with the mounting portion, the communication channel is communicated with an inner cavity of the mounting component, the thermal management assembly further comprises a mounting bracket, the mounting bracket is located on the other side of the communication portion, the side of the mounting bracket is different from the side where the liquid storage device is located, the mounting bracket comprises a main body portion and mounting feet which are integrally formed, the mounting feet protrude out of the end face of the main body portion, the communication portion is fixedly connected with the main body portion, and at least part of the communication portion is in surface contact with at least part of the main body portion; the mounting feet are used to fixedly attach the thermal management assembly to other components of the vehicle thermal management system or to the frame of the vehicle.

Thermal management subassembly like this, because the main part face contact of at least partial intercommunication portion and installing support, intercommunication portion and installing support fixed connection, be favorable to improving the installing support of thermal management subassembly and the connection stability between the intercommunication portion, stock solution device and installing support are located the different sides of intercommunication portion simultaneously, it is heavier that weight has the coolant liquid in the stock solution device, stock solution device is located the intercommunication portion top usually, be favorable to the coolant liquid to be located the bottom of stock solution device under the effect of gravity, the installing support is located circulation portion below, support stock solution device and intercommunication portion, be favorable to thermal management subassembly's overall stability.

Drawings

FIG. 1 is a schematic perspective view of a first embodiment of a thermal management assembly according to the present application;

FIG. 2 is a schematic illustration of an exploded view of the thermal management assembly of FIG. 1;

FIG. 3 is a schematic view of the combined structure of the connecting portion and the mounting bracket of the present application;

FIG. 4 is an exploded view of the channel and mounting bracket combination of the present application;

FIG. 5 is an exploded schematic view of the combination of the multi-way water valve and the communication and mounting bracket;

FIG. 6 is an exploded view of the first pump in combination with the communication portion and the mounting bracket;

FIG. 7 shows an exploded view of the second pump in combination with the communication portion and mounting bracket;

FIG. 8 is an exploded view of the coolant valve in combination with the communication portion and mounting bracket;

FIG. 9 shows an exploded view of one embodiment of the communication portion.

Detailed Description

The invention will be further described with reference to the following figures and specific examples:

referring to fig. 1, the thermal management assembly 100 may be used in a thermal management system of a vehicle, in this embodiment, the thermal management assembly is used on a water side of the thermal management system, or a working medium passing through the thermal management assembly is a coolant, and a main component of the coolant is water, but it is also possible that a part of the working medium passing through the thermal management assembly is a refrigerant, which will be described in detail below.

Referring to fig. 1 and 2, the thermal management assembly 100 at least comprises a liquid storage device 10, a communication part 20, a mounting part 30 and a mounting bracket 40, wherein the communication part 20 comprises a mounting part 21, the mounting part 30 and the mounting part 21, the communication part 20 is provided with a communication channel, the communication part can be machined, die-cast or forged and welded, the mounting part 30 is connected with the mounting part 21, and the communication channel can be communicated with an inner cavity of the mounting part; the connecting liquid storage device 10 is positioned at one side of the communicating part 20, the mounting bracket 40 is positioned at the other side of the communicating part 20, at least part of the communicating part 20 is in surface contact with the mounting bracket 40, the communicating part 20 is fixedly connected with the mounting bracket 40, and the mounting bracket 40 is fixedly connected with other parts of the thermal management system or fixedly connects the thermal management assembly with a frame of a vehicle; because at least partial intercommunication portion 20 and the face contact of installing support 40 like this, intercommunication portion 20 and installing support 40 fixed connection, be favorable to improving the connection stability between the installing support 40 of thermal management subassembly and the intercommunication portion 20, stock solution device 10 and installing support 40 are located the different sides of intercommunication portion 20 simultaneously, it is heavier that there is the coolant liquid in the stock solution device 10 usually, can place the stock solution device in the intercommunication portion top, be favorable to the coolant liquid to be located the bottom of stock solution device 10 under the effect of gravity, installing support 40 is located circulation portion 20 below, support stock solution device 10 and intercommunication portion 20, be favorable to the overall stability of thermal management subassembly.

The liquid storage device 10 is located on one side of the communication portion 20, at least part of the mounting component 30 is located on the other side of the communication portion 20, and the mounting bracket 40 is located between the communication portion 20 and the mounting component 30, in this embodiment, the mounting component 30 includes a pump, a valve and a heat exchanger, the pump can provide circulating power for circulation of a working medium, the valve can distribute the working medium to a passage required by a system, and the working medium can exchange heat in the heat exchanger, for example, the working medium exchanges heat with air, or the working medium exchanges heat with a refrigerant in the heat exchanger; the number of the pumps is three, the pumps are divided into two types according to the installation mode, one type of the pumps is named as a first pump 31, the other type of the pumps is named as a second pump 32, the number of the valves is three, the pumps are divided into two types according to different circulating working media, the working media are cooling liquid and are named as water valves 33, in the embodiment, the number of the water valves 33 is 2, the water valves 33 are multi-way valves, and the water valves 33 are five-way valves in the application; the number of heat exchangers is three and can be named first heat exchanger 35, second heat exchanger 36 and third heat exchanger 37.

Referring to fig. 3 and 4, the mounting bracket 40 includes a main body portion 41 and mounting feet 42, the mounting feet 42 are disposed to protrude from the main body portion 41, the communication portion 20 is fixedly connected with the main body portion 41, in the present embodiment, the communication portion 20 is connected with the main body portion 41 by first screws 204, the number of the first screws is six, the communication portion 20 forms a through hole 205, the through hole 205 avoids the communication channel and prevents the sealing performance of the communication channel from being affected, the main body portion 41 forms a stud 206 or a threaded hole 207, at least part of the communication portion 20 is in surface contact with the main body portion 41, the main body portion 41 has a mating portion 411, and at least part of the mounting portion 21 is in contact with the mating portion 411; the mounting leg 42 is used for fixedly connecting the thermal management assembly with other components of the vehicle thermal management system or a frame of the vehicle, the mounting leg is provided with a through hole, a bolt passes through the through hole and is fixedly connected with the other components of the vehicle thermal management system or the frame of the vehicle through a nut, the mounting bracket 40 can further comprise a buffering component 43, the buffering component 43 has certain elasticity, the buffering component 43 is fixedly connected with the mounting leg, the buffering component 43 is positioned between the mounting leg and the other components of the vehicle thermal management system or the frame of the vehicle, the thermal management assembly is prevented from being in hard contact with the other components of the vehicle thermal management system or the frame of the vehicle, and noise is reduced, and assembly difficulty caused by hard matching is reduced.

The mounting portion 21 includes an accommodating cavity 211 and/or a connecting surface 212, the mounting component 30 is located in the accommodating cavity 211 and is fixedly connected to the mounting portion 21, or the mounting component 30 is hermetically connected to the connecting surface 212, the mounting bracket 40 has a hollow portion 44, and an opening of the accommodating cavity 211 and/or the connecting surface 212 exposes the mounting bracket 40 through the hollow portion 44.

In this embodiment, the mounting portion 21 includes at least one of a first pump mounting portion 213, a second pump mounting portion 214, a water valve mounting portion 215, and a heat exchanger mounting portion 216, the matching portion 411 includes at least one of a second pump matching portion and a heat exchanger matching portion, the hollow-out portion 44 includes at least one of a first hollow-out portion 441, a second hollow-out portion 442, a third hollow-out portion 443, and a fourth hollow-out portion 444, where the first pump mounting portion 213 passes through the first hollow-out portion 441, the second pump mounting portion 214 extends into the second hollow-out portion 442, the water valve mounting portion 215 is exposed from the third hollow-out portion 443, the first pump 31 is connected to the first pump mounting portion 213, the second pump 32 is connected to the second pump mounting portion 214, the water valve 33 is connected to the water valve mounting portion 215, the heat exchanger is connected to the heat exchanger mounting portion 216, and the heat exchanger mounting portion 216 is exposed from the fourth hollow-out, and the specific positional relationship will be described in detail later.

Referring to fig. 6, in the present embodiment, the mounting part includes a first pump 31, the mounting part 21 includes a first pump mounting part 213, the hollow part includes a first hollow part 441, the first pump mounting part 213 passes through the first hollow part 441 and protrudes out of the main body 41 of the mounting bracket, the first pump mounting part 213 forms a first accommodating cavity 2130, at least a pump head 311 of the first pump 31 is accommodated in the first accommodating cavity 2130, the pump head 311 has a first interface 312 and a second interface 313, the first interface 312 is located in an axial direction of the pump head, the first interface 312 is an inlet of the first pump, the second interface 313 is located in a radial direction of the pump head, and the second interface 313 is an outlet of the first pump; the first accommodating chamber 2130 includes a first interface part and a second interface part (not shown in the figure), the first interface 312 corresponds to the first interface part in position and is in matching communication, and the second interface 313 corresponds to the second interface part in position and is in matching communication. The thermal management assembly 100 further includes a second connection screw 314, the mounting portion 21 has a second connection stud 208, the second connection stud 208 is located on the outer periphery of the first accommodating cavity, the first pump has a second through hole 209, and the second connection screw 314 is in threaded connection with the second connection stud 208 through the second through hole 209, so that the first pump 31 is fixedly connected with the communication portion 20. In order to ensure the sealing performance between the first pump and the first pump mounting part, the heat management assembly 100 further includes a sealing ring 300, the sealing ring includes a first sealing ring and a second sealing ring, the first sealing ring has a sealing effect on the first interface, and the second sealing ring has a sealing effect on the second interface.

Referring to fig. 7, in the present embodiment, the mounting member includes the second pump 32, the mounting portion 21 includes the second pump mounting portion 214, the fitting portion 411 includes the second pump fitting portion 412, the second pump mounting portion 214 is an annular protrusion, the second pump 32 includes the pump head 320, the pump head 320 has a first connecting pipe 321 and a second connecting pipe 322, the first connecting pipe 321 is along an axial direction of the pump head, the second connecting pipe 322 is along a radial direction of the pump head 320, and the first connecting pipe 321 corresponds to and is in fitting communication with the annular protrusion; the second pump matching portion 412 comprises a first sleeve 413, a reinforcing rib 414 and a second sleeve 415, the reinforcing rib 414 is located between the first sleeve 413 and the second sleeve 415 and is connected with the first sleeve 413 and the second sleeve 415, a hollow-out portion is formed by the first sleeve 413 and is a second hollow-out portion 442, the first sleeve 413 is sleeved on the periphery of the annular protrusion, the annular protrusion is located in the second hollow-out portion 442, an interface of the annular protrusion is exposed out of the first sleeve 413, the communicating portion is provided with the mounting column 308, the mounting column 308 penetrates through the reinforcing rib 414 adjacent to the first sleeve 413, the second pump 32 comprises a third through hole 309, and the third connecting screw 307 penetrates through the third through hole 309 to be in threaded connection with the mounting column 308.

Referring to fig. 5, in this embodiment, the mounting member includes the multichannel water valve 33, the mounting portion 21 includes the water valve mounting portion 215, the water valve mounting portion 215 includes the connection surface 212, the hollow portion 44 includes the third hollow portion 443, the water valve mounting portion 215 is exposed from the third hollow portion 443, a third sealing ring 330 is disposed between the multichannel water valve 33 and the connection surface 212, the third sealing ring is compressed between the multichannel water valve 33 and the connection surface 212, the connection surface 212 has a through hole 331, a passage of the multichannel water valve 33 corresponds to and communicates with the through hole 331 in position, the through hole 331 communicates with the passage of the multichannel water valve 33 and a communication passage of the communication portion, the thermal management assembly includes a fourth connection screw 401, the mounting portion 21 has a threaded hole 219, the multichannel water valve has a fourth through hole 333, and the fourth connection screw 401 passes through the fourth through hole 333 and is in threaded connection with the threaded hole 219 of the mounting portion 21.

Referring to fig. 7, the communicating portion 20 further includes the connecting pipe 28, the mounting bracket 40 includes an avoiding portion 48, the avoiding portion 48 is located at an outer edge of the mounting bracket, or the avoiding portion is recessed inward from the outer edge of the mounting bracket, the avoiding portion 48 is a notch, and at least a part of the connecting pipe 28 is located in the notch; therefore, the connecting pipe is located at the avoiding part, and the overall dimension of the heat management assembly is reduced.

Referring to fig. 9, the circulation part 20 includes a flow channel plate including a first plate 201 and a second plate 202, the first plate 201 and the second plate 202 are hermetically connected, a communication passage is formed between the first plate 201 and the second plate 202, a protrusion 203 is formed at least at one side of the first plate 201 or the second plate 202, a groove 204 is formed at the other side of the protrusion on the first plate or the second plate, the communication passage includes a groove 204, and the protrusion can be engaged with the mounting bracket.

To facilitate the formation of the connecting portion, the connecting portion 20 may be made of a non-metal material, and to ensure the connecting strength, the mounting bracket 40 may be made of a metal material.

Referring to fig. 8, the thermal management assembly further includes a refrigerant valve 34, and the working medium flowing through the refrigerant valve is a refrigerant; at least part of the refrigerant valve 34 and the liquid storage device 10 are located on the same side of the communication portion 20, the first pump 31, the second pump 32 and the multi-way water valve 33 are located on the other side of the communication portion 20 and are different from the liquid storage device 10, and the refrigerant valve 34 is fixedly connected with the mounting bracket 40 through a screw or a bolt and a nut.

The heat exchangers are connected with the heat exchanger mounting portions 216, each heat exchanger is communicated with two heat exchanger mounting portions, and the heat exchanger mounting portions 216 are exposed from the fourth hollowed-out portions 444. The heat management assembly comprises a fifth connecting screw 404, the mounting part 21 is provided with a threaded hole 210, the heat exchanger is provided with a fourth through hole 333, and the fifth connecting screw 401 penetrates through the fourth through hole 333 to be in threaded connection with the threaded hole 210 of the mounting part 21.

It should be noted that: although the present invention has been described in detail with reference to the above-mentioned embodiments, it should be understood by those skilled in the art that the present invention may be modified and equivalents may be substituted for those skilled in the art, and all technical solutions and modifications that do not depart from the spirit and scope of the present invention should be covered by the claims of the present invention.

Claims

1. A thermal management assembly, thermal management assembly can be used for vehicle thermal management system, thermal management assembly includes the liquid storage device, the intercommunication portion and installation component, the liquid storage device is located one side of intercommunication portion, the intercommunication portion has the intercommunication passageway, the intercommunication portion includes the installation part, the installation component with the installation part is connected, the intercommunication passageway with the inner chamber intercommunication of installation component, its characterized in that: the heat management assembly further comprises a mounting bracket, the mounting bracket is positioned on the other side of the communicating part, the side of the mounting bracket is different from the side of the liquid storage device, the mounting bracket comprises a main body part and a mounting foot which are integrally formed, the mounting foot is arranged to protrude out of the end face of the main body part, the communicating part is fixedly connected with the main body part, and at least part of the communicating part is in surface contact with at least part of the main body part; the mounting feet are used to fixedly attach the thermal management assembly to other components of the vehicle thermal management system or to the frame of the vehicle.

2. The thermal management assembly of claim 1, wherein: the installation component includes at least one of pump, valve and heat exchanger, at least partial installation component with stock solution device is located the different sides of intercommunication portion, the installation department is including holding chamber and/or connecting the face, part the installation component's part is located hold the chamber and with installation department fixed connection and/or part the installation component with connect face sealing connection, the installing support has fretwork portion, hold the opening in chamber and/or it passes through to connect the face the fretwork portion exposes the installing support.

3. The thermal management assembly of claim 2, wherein: the installation component includes the pump, the pump includes first pump, the installation department includes first pump installation department, fretwork portion includes first fretwork portion, first pump installation department passes through first fretwork portion and protrusion in the main part of installing support, first pump installation department forms first interface part, second interface part and the first chamber that holds, at least the pump head of first pump hold in first chamber that holds, the pump head has first interface and second interface, first interface is located the axial of pump head, the second interface is located the radial of pump head, first interface with first interface part position corresponds and cooperates the intercommunication, the second interface with second interface part position corresponds and cooperates the intercommunication.

4. The thermal management assembly of claim 2 or 3, wherein: the pump comprises a second pump having a first port and a second port, the first port being located axially of the pump head, the second port being located radially of the pump head; the mounting part comprises a second pump mounting part, the main part comprises a matching part, the matching part comprises a second pump matching part, the second pump mounting part is an annular protrusion, the second pump comprises a pump head, the pump head is provided with a first connecting pipe and a second connecting pipe, the first connecting pipe is arranged along the axial direction of the pump head, the second connecting pipe is arranged along the radial direction of the pump head, and the first connecting pipe corresponds to and is communicated with the annular protrusion in a matching way; the second pump cooperation portion includes sleeve pipe and strengthening rib, the strengthening rib is located the sleeve pipe with connect between the main part the sleeve pipe with the main part, the sleeve pipe overlap in the protruding periphery of annular, fretwork portion includes second fretwork portion, the annular arch stretches into second fretwork portion, the bellied interface of annular is higher than sheathed tube terminal surface, the intercommunication portion has the erection column, the erection column with the second pump passes through screwed connection, the bellied interface of annular does the connection face of second pump installation department, the first interface of second pump with the bellied interface position of annular corresponds and cooperates the intercommunication.

5. The thermal management assembly of claim 2, wherein: the valve includes the multichannel water valve, the installation department includes the water valve installation department, fretwork portion includes third fretwork portion, the water valve installation department is including connecting the face, the connection face of water valve installation department passes through third fretwork portion and protrusion in installing support's main part, the multichannel water valve with connect and have the sealing washer between the face, the sealing washer compress tightly in the multichannel water valve with connect between the face, it has the through-hole to connect the face, the passageway of multichannel water valve with the through-hole position corresponds and feeds through the setting, the through-hole intercommunication the passageway of multichannel water valve with the intercommunication passageway of intercommunication portion.

6. The thermal management assembly of claim 5, wherein: the heat management assembly further comprises a refrigerant valve, at least part of the refrigerant valve and the liquid storage device are located on the same side of the communicating portion, the refrigerant valve is fixedly connected with the mounting support through a screw or a bolt and a nut, and the refrigerant valve is not communicated with the communicating portion.

7. The thermal management assembly of any of claims 1-6, wherein: the mounting component further comprises heat exchangers, the mounting parts comprise heat exchanger mounting parts, the heat exchangers are connected with the heat exchanger mounting parts, each heat exchanger is communicated with two heat exchanger mounting parts, the hollow parts comprise fourth hollow parts, and the heat exchanger mounting parts are exposed from the fourth hollow parts; the heat management assembly comprises a fifth connecting screw, the mounting part is provided with a threaded hole, the heat exchanger is provided with a fourth through hole, and the fifth connecting screw penetrates through the fourth through hole to be in threaded connection with the threaded hole of the mounting part.

8. The thermal management assembly of claim 7, wherein: the communicating part further comprises a connecting pipe, the mounting support comprises an avoiding part, the avoiding part is located at the outer edge of the mounting support, the avoiding part is a notch, and at least part of the connecting pipe is located in the notch.

9. The thermal management assembly of claim 8, wherein: the runner plate comprises a first plate and a second plate, the first plate is connected with the second plate in a sealing mode, the communication channel is formed between the first plate and the second plate, at least, a protrusion is formed on one side of the first plate or the second plate, a groove is formed in the other side of the first plate or the second plate, the communication channel comprises the groove, and the protrusion is in contact with the mounting support in a matched mode.

10. The thermal management assembly of claim 9, wherein: the communicating part is made of a non-metal material, the mounting bracket is made of a metal material, the thermal management assembly comprises a screw, the mounting bracket is provided with a threaded hole, the communicating part is provided with a through hole, and the screw penetrates through the through hole and is in threaded connection with the threaded hole; or the thermal management assembly comprises a bolt and a nut, the communication part and the mounting bracket are respectively provided with a through hole, the bolt penetrates through the through hole, and the communication part and the mounting bracket are connected through the bolt and the nut.