CN220500441U - Vehicle-mounted air conditioning system and vehicle - Google Patents

Abstract

The application provides a vehicle-mounted air conditioning system and vehicle, wherein, vehicle-mounted air conditioning system includes air conditioning box, refrigeration core, air-blower and heating core, and the air conditioning box includes installation department and the wind-guiding portion that communicates with the installation department, is equipped with the ventilation hole on the wind-guiding portion, realizes that this vehicle-mounted air conditioning system can carry out the simultaneous air supply to vehicle front row and back row in vehicle central authorities, reinforcing vehicle interior air conditioner's work efficiency. The refrigeration core sets up in the installation department, and the refrigeration core aligns with wind-guiding portion at least partially, and when the refrigeration core worked to when needs, with the liquid vaporization with around the produced air conditioning can be blown wind-guiding portion under the effect of air-blower, and then along with ventilation hole transmission to the vehicle is inside. The air outlet of the air blower faces the refrigeration core body and is at least partially aligned with the air guide part, when the heating core body works, hot air generated around can be blown to the air guide part under the action of the air blower, and then is transmitted to the inside of the vehicle along with the ventilation holes.

Description

Vehicle-mounted air conditioning system and vehicle

Technical Field

The application relates to the field of air conditioning circulation in automobiles, in particular to a vehicle-mounted air conditioning system and a vehicle.

Background

In order to solve the problem, a double-zone/three-zone or even four-zone air conditioning system is generally adopted in the existing vehicle, so that a rear passenger can feel comfort brought by an air conditioner immediately, but the multi-zone air conditioning system is adopted to greatly improve the complexity of the structure and the process of the air conditioning system and improve the manufacturing and connecting cost.

Disclosure of Invention

The application provides a vehicle-mounted air conditioning system and vehicle, through designing an air conditioning system who sets up in car cabin inside, through at central air supply, solved the unable problem of in time backward row air supply of air conditioning system.

In order to solve the technical problem, the vehicle-mounted air conditioning system provided by the application comprises an air conditioning box body, wherein the air conditioning box body comprises a mounting part and an air guide part communicated with the mounting part, the air guide part extends to the middle position in the vehicle, and a vent hole is formed in the air guide part. And the refrigeration core body is arranged in the mounting part and at least partially aligned with the air guide part. The air blower and the heating core body are also arranged in the installation part, wherein the air blower is positioned at one side of the refrigerating core body, which is opposite to the air guide part, and the heating core body is positioned between the refrigerating core body and the air guide part. The air outlet of the air blower faces the refrigeration core body and is at least partially aligned with the air guide part.

Specifically, the air guide part comprises a hollow air guide channel, and the ventilation holes are formed in the peripheral side wall of the air guide part and are communicated with the air guide channel. The air outlet of the blower and the refrigeration core are at least partially communicated or aligned with the air guide channel.

Specifically, the air guide part is cylindrical or prismatic, and the ventilation holes are formed in the lateral peripheral surface of the air guide part.

Specifically, the ventilation holes are provided in plurality, the ventilation holes are uniformly arranged in a matrix, and the matrix is arranged on the side circumferential surface along the direction of the central line surrounding the air guide channel.

Specifically, the ventilation holes are in an open ring shape, and the ventilation holes are arranged on the side peripheral surface along a central line surrounding the air guide channel.

Specifically, the air guide part is arranged above the installation part along the direction perpendicular to the gravity, and the heating core, the refrigerating core and the blower are sequentially stacked along the gravity direction.

Specifically, the air guide part is also provided with a folded plate, the folded plate comprises a plurality of foldable sub-plate bodies which are folded or unfolded, the sub-plate bodies at least partially cover the vent holes when unfolded, and the sub-plate bodies at least partially open the vent holes when folded.

Specifically, still include the rotor plate, the rotor plate swivelling joint is connected to the air conditioning box, the rotor plate can rotate to at least part cover or open the ventilation hole.

Specifically, the wind guiding portion comprises a first wind guiding portion and a second wind guiding portion, the first wind guiding portion is arranged in the air conditioning box body along the central line direction of the air conditioning box body, the second wind guiding portion is arranged around the periphery of the first wind guiding portion, and the first wind guiding portion is not communicated with the second wind guiding portion. The air exhaust device further comprises an air exhaust pipe, wherein an inlet of the air exhaust pipe is communicated with the first air guide part, and an outlet of the air exhaust pipe is communicated with a preset position of the vehicle.

The other technical scheme that this application put forward is: there is provided a vehicle comprising an in-vehicle air conditioning system as claimed in any one of the preceding claims.

The beneficial effects of this application are: compared with the existing vehicle-mounted air conditioning system, the vehicle-mounted air conditioning system comprises an air conditioning box body, a refrigerating core body, a blower and a heating core body, wherein the air conditioning box body comprises a mounting portion and an air guide portion communicated with the mounting portion, the air guide portion extends to the middle position in a vehicle, and gas blown by the blower is transmitted from the air guide portion to the inside of the vehicle. The air guide part is provided with the ventilation holes, so that the vehicle-mounted air conditioning system can supply air to the front row and the rear row of the vehicle at the center of the vehicle at the same time, and the working efficiency of the air conditioner in the vehicle is enhanced. The refrigeration core sets up in the installation department, and the refrigeration core aligns with wind-guiding portion at least partially, and when the refrigeration core worked to when needs, with the liquid vaporization with around the produced air conditioning can be blown wind-guiding portion under the effect of air-blower, and then along with ventilation hole transmission to the vehicle is inside. The air blower and the heating core are also arranged in the installation part, wherein the air blower is positioned at one side of the refrigerating core, which is opposite to the air guiding part, and the heating core is positioned between the refrigerating core and the air guiding part, so that the refrigerating core can timely cool the heating core, the internal overheating of the vehicle-mounted air conditioning system is avoided, and the normal work of the vehicle-mounted air conditioning system is influenced. The air outlet of the air blower faces the refrigeration core body and is at least partially aligned with the air guide part, when the heating core body works, hot air generated around can be blown to the air guide part under the action of the air blower, and then is transmitted to the inside of the vehicle along with the ventilation holes.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings that are required to be used in the description of the embodiments will be briefly described below. It is obvious that the drawings in the following description are only some embodiments of the present application, and that other drawings may be obtained from these drawings without inventive effort to a person of ordinary skill in the art, in which:

FIG. 1 is a schematic diagram of an embodiment of a vehicle air conditioning system provided herein, the vehicle air conditioning system including an air conditioning case;

FIG. 2 is a schematic view of the interior of the air conditioning case of FIG. 1;

fig. 3 is a schematic structural view of an embodiment of a vehicle provided in the present application.

Detailed Description

The following description of the technical solutions in the embodiments of the present application will be made clearly and completely with reference to the accompanying drawings in the embodiments of the present application, and it is apparent that the described embodiments are only some embodiments of the present application, not all embodiments. All other embodiments, which can be made by one of ordinary skill in the art without undue burden from the present disclosure, are within the scope of the present disclosure.

In the description of the embodiments of the present application, it should be noted that, unless explicitly specified and limited otherwise, the terms "connected," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium. The specific meaning of the terms in the embodiments of the present application will be understood by those of ordinary skill in the art in a specific context.

In one aspect of the present application, a vehicle is provided, including an on-vehicle air conditioning system, please refer to fig. 1 and 3 in combination, fig. 1 is a schematic structural diagram of an embodiment of an on-vehicle air conditioning system provided in the present application; fig. 3 is a schematic structural view of an embodiment of a vehicle provided in the present application. Wherein the air conditioning box 1 of the vehicle-mounted air conditioning system is arranged in the middle of the vehicle, and the heating element 6 and the compressor 7 are arranged in the front end module of the vehicle and used for driving the vehicle-mounted air conditioning system to work. The structure of the vehicle-mounted air conditioning system is separately arranged at the front end of the vehicle and the center of the vehicle, the volume of a front end module of the vehicle is simplified, the space utilization rate is increased, the air conditioning box body is arranged in the middle of the vehicle, the front row and the rear row can sense the wind transmitted by the vehicle-mounted air conditioning system at the first time, and the effect of quickly shortening the cooling or heating time is achieved.

In another aspect of the present application, an on-vehicle air conditioning system is provided, please refer to fig. 1 and fig. 2 in combination, and fig. 2 is a schematic structural diagram of an interior of the air conditioning case in fig. 1. In some embodiments, the vehicle-mounted air conditioning system comprises an air conditioning box 1, a refrigeration core 2, a blower 3 and a heating core 4, wherein the air conditioning box 1 comprises a mounting part 11 and an air guiding part 12 communicated with the mounting part 11, and the air guiding part 12 extends to an intermediate position in the vehicle and is used for transmitting air blown by the blower 3 from the air guiding part 12 to the interior of the vehicle. The ventilation holes 121 are formed in the air guide part 12, the ventilation holes 121 are distributed on the air guide part 12 in a surrounding mode, and therefore the vehicle-mounted air conditioning system can supply air to the front row and the rear row of a vehicle at the center of the vehicle at the same time, and the working efficiency of an air conditioner in the vehicle is improved. The refrigeration core 2 is disposed in the mounting portion 11, the refrigeration core 2 is at least partially aligned with the air guide portion 12, when the refrigeration core 2 is operated, and when needed, the compressor 7 delivers high-temperature and high-pressure cooling liquid gas to the pipeline and delivers liquefied cooling liquid to the refrigeration core 2, the refrigeration core 2 evaporates liquid to generate cool air around which can be blown to the air guide portion 12 under the action of the blower 3, and then delivered to the inside of the vehicle along with the vent hole 121. The air blower 3 and the heating core 4 are also arranged in the mounting part 11, wherein the air blower 3 is positioned on one side of the refrigerating core 2, which is opposite to the air guiding part 12, the heating core 4 is positioned between the refrigerating core 2 and the air guiding part 12, and the refrigerating core 2 can timely cool the heating core 4, so that the internal overheat of the vehicle-mounted air conditioning system is avoided, and the normal work of the vehicle-mounted air conditioning system is further influenced. The air outlet of the blower 3 faces the cooling core 2 and is at least partially aligned with the air guiding portion 12, and when the heating core 4 is operated, hot air generated around can be blown to the air guiding portion 12 by the blower 3, and then transferred to the vehicle interior along with the vent hole 121.

Specifically, the air guiding portion 12 includes a hollow air guiding passage 122, and a vent hole 121 is provided on a peripheral sidewall of the air guiding portion 12 and communicates with the air guiding passage 122, and hot air or cold air generated in the vehicle-mounted air conditioning system is blown into the air guiding passage 122 under the action of the blower 3, and is transmitted to the inside of the cabin through the vent hole 121. The air outlet of the air blower 3 and the refrigerating core 2 are at least partially communicated or aligned with the air guide channel 122, so that the air blower 3 can transmit cold air generated by the refrigerating core 2 to the air guide channel 122 at a higher frequency, the refrigerating efficiency of the whole vehicle-mounted air conditioning system to the interior of a vehicle is enhanced, and the functionality of the vehicle-mounted air conditioning system is improved.

Further, in some embodiments, the air guiding portion 12 is cylindrical or prismatic, the specific shape of the air guiding portion may be selected according to the actual requirement of the vehicle interior, the ventilation hole 121 is disposed on the side peripheral surface of the air guiding portion 12, and the wind energy transferred in the air guiding channel 122 can escape to the vehicle interior along the air guiding channel 122 and the ventilation hole 121, so that the air conditioning box 1 in the vehicle air conditioning system can realize omnidirectional air blowing, the vehicle interior can reach the required cooling or heating temperature more quickly, the performance of the vehicle air conditioning system is improved, and the energy consumption of the vehicle is further reduced.

It can be appreciated that in some embodiments, the plurality of ventilation holes 121 are provided, the plurality of ventilation holes 121 are uniformly arranged in a matrix shape, and the side circumferential surface 123 is arranged along the direction of the central line surrounding the air guiding channel 122 in a matrix shape, so that the vehicle-mounted air conditioning system can supply air in all directions as much as possible, the cooling or heating efficiency of the whole vehicle interior is improved, and the experience of drivers and passengers in the vehicle is enhanced.

In other embodiments, the vent hole 121 is in an open ring shape, and the vent hole 121 is disposed on the side circumferential surface 123 along the central line surrounding the air guiding channel 122, so that the wind energy transferred from the air guiding channel 122 can be more smoothly transferred from the vent hole 121, the air supply channel inside the vehicle air conditioning system is increased, the corresponding time for adjusting the temperature inside the vehicle to the vehicle air conditioning system is reduced, and the rapid cooling or heating of the vehicle is more facilitated.

Specifically, with continued reference to fig. 2, the air guiding portion 12 is disposed above the mounting portion 11 along a direction perpendicular to the gravitational force. Along gravity direction, heating core 4, refrigeration core 2 and air-blower 3 range upon range of setting in proper order, wherein, guaranteed that heating core 4 and refrigeration core 2 can contact with the inside air of air conditioning box 1 with great area, and the processing of the nearly all through heating core 4 and refrigeration core 2 of the gas that the air-blower 3 blown, and do not have the difference in temperature between the air that conveys to the vehicle inside through different ventilation holes 121, avoid because front and back row perceived temperature difference, lead to the driver to carry out unnecessary operation to vehicle-mounted air conditioning system, influence the energy consumption of whole vehicle, and further improved vehicle-mounted air conditioning system's performance.

In some embodiments, the ventilation holes 121 are independently provided with a plurality of ventilation holes, so that a driver can select the number of the ventilation holes to be opened according to needs, and then the air outlet quantity of front and rear rows in the vehicle is adjusted, so that the use feeling of the air conditioning system is improved. The plurality of ventilation holes 121 are circumferentially arranged on the shell of the air conditioning box body 1 and penetrate through the air conditioning box body 1, so that the air blown by the blower 3 can be completely transmitted to the air guide part 12 and is located by the ventilation holes 121, and the performance of the whole vehicle-mounted air conditioning system is enhanced.

Further, in order to adjust the amount of air delivered in the vehicle-mounted air conditioning system according to the needs of the driver, in some embodiments, a folded plate (not shown) is disposed on the ventilation hole 121, the folded plate includes a plurality of foldable sub-panels (not shown) that are folded or unfolded, at least part of the sub-panels cover the ventilation hole 121 when unfolded, and at least part of the sub-panels open the ventilation hole 121 when folded, so that in some situations, part of the ventilation hole 121 can be closed to reduce the ventilation amount, so as to improve the comfort of the driver.

In other embodiments, the vehicle-mounted air conditioning system further includes a rotating plate (not shown), the rotating plate is rotatably connected to the air conditioning case 1, the rotating plate can rotate to at least partially cover or open the vent hole 121, the size of a region of the vent hole 121, which is communicated with the air conditioning case 1, can be controlled by adjusting the relative position between the rotating plate and the vent hole 121, and then the amount of air passing through the vent hole 121 can be controlled under the region, so that the comfort and the use feeling of drivers and passengers are improved.

In some embodiments, the vehicle-mounted air conditioning system further comprises an electronic controller (not shown), wherein the electronic controller is connected with the refrigeration core 2 and the heating core 4, and the electronic controller controls the refrigeration core 2 or the heating core 4 to work according to the instruction. The compressor 7 is connected to the refrigeration core 2, and the heating element 6 is connected to the heating core 4, so as to achieve a refrigeration effect and a heating effect of the vehicle-mounted air conditioning system. The driver and the passenger control the electronic controller through the inside instruction of vehicle to control the compressor 7 or the work of heating piece 6 of vehicle front end through the electronic controller, the inside refrigeration core 2 of on-vehicle air conditioning system or heating core 4 work simultaneously, and then realize on-vehicle air conditioning system's normal work.

Further, the air guiding portion 12 includes a first air guiding portion (not shown) and a second air guiding portion (not shown), the first air guiding portion is disposed in the air conditioning case 1 along the central line direction of the air conditioning case 1, the second air guiding portion is disposed around the outer periphery of the first air guiding portion, and the first air guiding portion is not communicated with the second air guiding portion. The vehicle-mounted air conditioning system further comprises an exhaust pipe 5, an inlet of the exhaust pipe 5 is communicated with the first air guide part, an outlet of the exhaust pipe 5 is communicated with a preset position of the vehicle, when the vehicle-mounted air conditioning system is required, the blower 3 blows air into the exhaust pipe 5 through the first air guide part, the exhaust pipe 5 can be connected to a vehicle window, defrosting and demisting of the vehicle window are achieved, and driving safety of the vehicle in a normal driving process is guaranteed.

It will be appreciated that in other embodiments, the exhaust duct 5 may be connected to other desired locations so that the exhaust duct 5 may directly effect blowing towards the occupants, further enhancing the occupant's comfort in the vehicle.

It can be understood that the outlet of the refrigeration core 2 is communicated with the inlet of the air guide pipe or the air conditioning box 1 under the instruction of the electronic controller, so that different working modes of the vehicle-mounted air conditioning system can be selected according to different actual needs, and the energy consumption of the vehicle on the vehicle-mounted air conditioning system can be controlled more systematically, thereby saving the energy consumption of the vehicle to a certain extent.

Further, the vehicle-mounted air conditioning system further comprises a purifying module (not shown), the purifying module is connected to the electronic controller, the electronic controller controls the switch of the purifying module, the purifying module can be opened when needed, and the surrounding ventilation holes 121 are used for rapidly purifying or sterilizing the air in the vehicle, so that the vehicle-mounted air conditioning system is more suitable for families with children, and the use feeling of drivers and passengers is further improved.

In the description of the present application, descriptions of the terms "some embodiments," "examples," "specific examples," or "some examples," etc., mean that a particular feature, mechanism, material, or characteristic described in connection with the embodiment or example is included in at least some embodiments or examples of the present application. In this specification, schematic representations of the above terms are not necessarily directed to the same embodiment or example. Furthermore, the particular features, mechanisms, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples. Furthermore, the different embodiments or examples described in this specification and the features of the different embodiments or examples may be combined and combined by those skilled in the art without contradiction.

The foregoing is only the embodiments of the present application, and not the patent scope of the present application is limited by the foregoing description, but all equivalent structures or equivalent processes using the contents of the present application and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the patent protection scope of the present application.

Claims (10)

1. A vehicle-mounted air conditioning system for a vehicle interior, comprising:

the air conditioner comprises an air conditioner box body, wherein the air conditioner box body comprises an installation part and an air guide part communicated with the installation part, the air guide part extends to the middle position in the vehicle, and the air guide part is provided with a vent hole;

a refrigeration core disposed within the mounting portion, the refrigeration core being at least partially aligned with the air guide portion;

the air blower and the heating core are also arranged in the mounting part, wherein the air blower is positioned at one side of the refrigeration core, which is opposite to the air guide part, and the heating core is positioned between the refrigeration core and the air guide part;

the air outlet of the air blower faces the refrigeration core body and is at least partially aligned with the air guide part.

2. The vehicle-mounted air conditioning system according to claim 1, wherein the air guide part comprises a hollow air guide channel;

the ventilation holes are arranged on the side wall of the periphery of the air guide part and are communicated with the air guide channel;

the air outlet of the blower and the refrigeration core are at least partially communicated or aligned with the air guide channel.

3. The vehicle-mounted air conditioning system according to claim 2, wherein the air guide portion is cylindrical or prismatic;

the ventilation holes are provided on the side peripheral surface of the air guide portion.

4. The vehicle-mounted air conditioning system according to claim 3, wherein the ventilation holes are provided in plurality, the plurality of ventilation holes are uniformly arranged in a matrix, and the matrix is arranged along a direction surrounding a center line of the air guide passage.

5. The vehicle-mounted air conditioning system according to claim 3, wherein the vent hole has an open annular shape, and the vent hole is provided on the side peripheral surface along a center line surrounding the air guide passage.

6. The vehicle-mounted air conditioning system according to any one of claims 1 to 5, wherein the air guide portion is provided above the mounting portion along a direction perpendicular to gravity;

along the gravity direction, the heating core body, the refrigerating core body and the air blower are sequentially stacked.

7. The vehicle-mounted air conditioning system according to claim 1, wherein the air guiding part is further provided with a folded plate, the folded plate comprises a plurality of foldable and foldable or unfolded sub-plate bodies, the sub-plate bodies at least partially cover the ventilation holes when unfolded, and the sub-plate bodies at least partially open the ventilation holes when folded.

8. The vehicle air conditioning system of claim 1, further comprising a rotating plate rotatably coupled to the air conditioning case, the rotating plate being rotatable to at least partially cover or uncover the vent.

9. The vehicle-mounted air conditioning system according to claim 1, wherein the air guiding part comprises a first air guiding part and a second air guiding part, the first air guiding part is arranged in the air conditioning box body along the central line direction of the air conditioning box body, the second air guiding part is arranged around the periphery of the first air guiding part, and the first air guiding part and the second air guiding part are not communicated;

the air exhaust device further comprises an air exhaust pipe, wherein an inlet of the air exhaust pipe is communicated with the first air guide part, and an outlet of the air exhaust pipe is communicated with a preset position of the vehicle.

10. A vehicle comprising an on-board air conditioning system as claimed in any one of claims 1 to 9.