阅读说明：本技术 一种集成电池冷却功能的车载空调系统 (Vehicle-mounted air conditioning system integrating battery cooling function ) 是由 李敬恩 许兵兵 韩贝贝 谭茂鑫 董帅 栾庆坤 佘凯 冯海艳 于 2020-12-25 设计创作，主要内容包括：本发明提供了一种集成电池冷却功能的车载空调系统,包括通过制冷管路连接的压缩机、冷凝器、蒸发器、节流阀及汽液分离器,在蒸发器和冷凝器处设置风机,由四通阀控制从压缩机出来的制冷剂的走向,在所述四通阀出口与汽液分离器的入口的制冷管路上,套装有给电池组降温用的套管换热器,在压缩机出口与四通阀出口之间设置常闭电磁阀,空调系统的控制器根据所述电池组的散热需求控制所述常闭电磁阀的开启状态。本发明提供的空调系统,不仅实现一台空调集成车厢空气温度调节功能和电池冷却液温度控制功能,而且空调制冷、制热模式下均能运行电池冷却液温度控制功能；尤其是不必在管路系统中增加单向阀和额外的节流装置,系统管路简单,紧凑,可靠性高。(The invention provides a vehicle-mounted air conditioning system integrating a battery cooling function, which comprises a compressor, a condenser, an evaporator, a throttle valve and a vapor-liquid separator which are connected through a refrigeration pipeline, wherein fans are arranged at the evaporator and the condenser, a four-way valve is used for controlling the direction of a refrigerant coming out of the compressor, a sleeve heat exchanger for cooling a battery pack is sleeved on the refrigeration pipeline between the outlet of the four-way valve and the inlet of the vapor-liquid separator, a normally closed electromagnetic valve is arranged between the outlet of the compressor and the outlet of the four-way valve, and a controller of the air conditioning system controls the opening state of the normally closed electromagnetic valve according to the heat dissipation requirement of. The air conditioning system provided by the invention not only realizes the air temperature adjusting function and the battery coolant temperature control function of an air conditioning integrated compartment, but also can operate the battery coolant temperature control function in the air conditioning refrigeration and heating modes; in particular, a one-way valve and an additional throttling device are not required to be added in a pipeline system, and the system has simple and compact pipeline and high reliability.)

1. The utility model provides an on-vehicle air conditioning system of integrated battery cooling function, includes compressor, condenser, evaporimeter, choke valve and vapour and liquid separator through the refrigeration tube coupling, sets up the fan in evaporimeter and condenser department, the trend of the refrigerant that comes out from the compressor by the four-way valve control, its characterized in that: a sleeve heat exchanger for cooling the battery pack is sleeved on a refrigerating pipeline between the outlet of the four-way valve and the inlet of the vapor-liquid separator, a normally closed electromagnetic valve is arranged between the outlet of the compressor and the outlet of the four-way valve, and a controller of the air conditioning system controls the opening state of the normally closed electromagnetic valve according to the heat dissipation requirement of the battery pack.

2. A vehicle air conditioning system integrating a battery cooling function according to claim 1, characterized in that: in a refrigeration mode of the air conditioning system, when the external environment temperature exceeds a preset value, the normally closed solenoid valve is opened, the high-temperature and high-pressure gas refrigerant which is branched out passes through the normally closed solenoid valve and then is mixed with the low-temperature and low-pressure gas-liquid two-phase refrigerant which is discharged from the four-way valve for heat exchange, and then flows through the double-pipe heat exchanger for heat exchange of the double-pipe heat exchanger.

3. A vehicle air conditioning system integrating a battery cooling function according to claim 1, characterized in that: when the battery pack cooling function needs to be operated independently in a refrigeration mode, the four-way valve is not powered, a high-temperature high-pressure gaseous refrigerant exchanges heat in the condenser and is condensed into a high-pressure liquid refrigerant, the high-pressure liquid refrigerant is throttled by the throttle valve and is reduced in pressure to become a low-temperature low-pressure vapor-liquid two-phase refrigerant, the low-temperature low-pressure vapor-liquid two-phase refrigerant flows through the evaporator, the refrigerant does not exchange heat sufficiently in the evaporator, the low-temperature low-pressure vapor-liquid two-phase refrigerant continuously flows through the four-way valve and then flows through the.

4. A vehicle air conditioning system integrating a battery cooling function according to claim 3, characterized in that: at this time, the fan for the evaporator is in a shutdown state.

5. A vehicle air conditioning system integrating a battery cooling function according to claim 1, characterized in that: when the battery pack cooling function needs to be operated independently in the heating mode, the four-way valve is powered on, high-temperature and high-pressure gaseous refrigerant flows into the evaporator, exchanges heat with indoor air and is condensed into high-pressure liquid refrigerant under the action of a fan for the evaporator, the high-pressure liquid refrigerant is throttled and reduced by the throttle valve to become low-temperature and low-pressure vapor-liquid two-phase refrigerant, the low-temperature and low-pressure vapor-liquid two-phase refrigerant enters the sleeve heat exchanger after passing through the four-way valve, the low-temperature and low-pressure vapor-liquid two-phase refrigerant exchanges heat with cooling liquid in the sleeve heat exchanger to absorb heat of the cooling liquid.

6. An on-vehicle air conditioning system integrating a battery cooling function according to claim 5, characterized in that: at this time, the fan for condensation is in a shutdown state.

7. A vehicle air conditioning system integrating a battery cooling function according to claim 1, characterized in that: when the air conditioning system simultaneously operates for refrigeration and the battery pack is cooled, the four-way valve is not powered, high-temperature and high-pressure gaseous refrigerant is condensed into high-pressure liquid refrigerant in the condenser, the high-temperature and high-pressure liquid refrigerant is throttled by the throttle valve and is reduced into low-temperature and low-pressure vapor-liquid two-phase refrigerant, the low-temperature and low-pressure vapor-liquid two-phase refrigerant exchanges heat in the evaporator under the action of the fan, the flow of the refrigerant is increased by increasing the opening of the throttle valve, most of the refrigerant exchanges heat and is gasified in the evaporator, then the low-temperature and low-pressure vapor-liquid two-phase refrigerant continuously flows through the four-way valve and flows into.

8. A vehicle air conditioning system integrating a battery cooling function according to claim 1, characterized in that: when the air conditioning system simultaneously runs for heating and the battery pack is cooled, the four-way valve is powered on, high-temperature and high-pressure gaseous refrigerant flows into the evaporator and exchanges heat with indoor air under the action of the fan for the evaporator to realize the heating function, the refrigerant in the evaporator is condensed into high-pressure liquid state for cooling, then the high-pressure liquid state is throttled and reduced in pressure by the throttle valve to become low-temperature and low-pressure vapor-liquid two-phase refrigerant, then the low-temperature and low-pressure vapor-liquid two-phase refrigerant flows through the condenser, the fan for the condenser is in an operating state at the moment, the refrigerant exchanges heat in the condenser, most of the refrigerant absorbs heat for gasification, and then the low-temperature and low-pressure vapor-liquid.

9. A vehicle air conditioning system integrating a battery cooling function according to claim 1, characterized in that: the double-pipe heat exchanger is provided with an inlet and an outlet of cooling liquid for cooling the battery pack, the cooling liquid is driven by a circulating water pump, and a controller of the air conditioning system controls the running and the stopping of the circulating water pump according to the heat dissipation requirement of the battery pack.

Technical Field

The invention relates to the technical field of pure electric passenger car air conditioning units, in particular to a vehicle-mounted air conditioning system integrating a battery cooling function.

Background

The pure electric bus or the passenger car not only needs to adjust the air temperature in the carriage, but also needs to control the temperature of the battery, particularly when the battery is charged, the heat productivity of the battery is large, generally, the air temperature in the carriage is adjusted by adopting an overhead air conditioner, the water of the battery cooling water is controlled by adopting an independent water chilling unit, namely, two sets of refrigeration systems are needed to respectively adjust the air temperature in the carriage and control the temperature of the battery cooling liquid. There are also few top-mounted air conditioning (hereinafter referred to as integrated air conditioning) solutions of integrated battery thermal management systems, but generally, the pipelines are heavy and complicated to control. The general integrated air conditioner can refrigerate the battery cooling liquid only in a refrigerating mode or only in a heating mode, and the battery cooling liquid cannot be cooled in the heating mode due to the fact that the battery thermal management system needs to operate for a long time in summer and the scheme of integrating the air conditioner refrigerating mode with the battery cooling is adopted generally, so that the defects exist. In addition, the top-mounted air conditioner with few integrated battery thermal management systems can operate the battery cooling function in the air conditioner cooling and heating modes, but a plurality of one-way valves and throttling devices are needed, so that the pipeline is complex and heavy, and the reliability is reduced. More importantly, the problem of frequent start and stop of a compressor when the battery thermal management system is operated independently cannot be solved by the existing overhead air conditioning scheme of the integrated battery thermal management system.

Disclosure of Invention

The present invention has been made to solve the above problems and disadvantages, and an object of the present invention is to provide a vehicle air conditioning system integrated with a battery cooling function.

In order to achieve the purpose, the invention provides a vehicle-mounted air conditioning system integrating a battery cooling function, which adopts the technical scheme that:

the utility model provides an on-vehicle air conditioning system of integrated battery cooling function, includes compressor, condenser, evaporimeter, choke valve and vapour and liquid separator through the refrigeration tube coupling, sets up the fan in evaporimeter and condenser department, by the trend of the refrigerant that the cross valve control came out from the compressor on the refrigeration tube way of cross valve export and vapour and liquid separator's entry, the cover is equipped with the double-pipe heat exchanger of usefulness of cooling for the group battery, sets up normally closed solenoid valve between compressor export and cross valve export, air conditioning system's controller basis the heat dissipation demand control of group battery normally closed solenoid valve's the state of opening.

Further, in a refrigeration mode of the air conditioning system, when the external environment temperature exceeds a preset value, the normally closed solenoid valve is opened, the high-temperature and high-pressure gas refrigerant which is branched out flows through the normally closed solenoid valve, then is mixed with the low-temperature and low-pressure gas-liquid two-phase refrigerant which flows out of the four-way valve for heat exchange, and then flows through the double-pipe heat exchanger for heat exchange of the double-pipe heat exchanger.

Furthermore, when the battery pack cooling function needs to be operated independently in the cooling mode, the four-way valve is not powered, the high-temperature and high-pressure gaseous refrigerant exchanges heat in the condenser and is condensed into high-pressure liquid refrigerant, the high-pressure liquid refrigerant is throttled and reduced in pressure by the throttle valve and then becomes low-temperature and low-pressure vapor-liquid two-phase refrigerant, the low-temperature and low-pressure vapor-liquid two-phase refrigerant flows through the evaporator, the refrigerant does not exchange heat sufficiently in the evaporator, the low-temperature and low-pressure vapor-liquid two-phase refrigerant continuously flows through the four-way valve and then flows through the sleeve.

Further, the evaporator fan is in a shutdown state at this time.

Further, when the battery pack cooling function needs to be operated independently in the heating mode, the four-way valve is powered on, high-temperature and high-pressure gaseous refrigerant flows into the evaporator, exchanges heat with indoor air and is condensed into high-pressure liquid refrigerant under the action of a fan for the evaporator, the high-pressure liquid refrigerant is converted into low-temperature and low-pressure vapor-liquid two-phase refrigerant through throttling and pressure reduction of the throttle valve and then enters the condenser, the refrigerant does not exchange heat sufficiently in the condenser, the low-temperature and low-pressure vapor-liquid two-phase refrigerant enters the sleeve heat exchanger through the four-way valve and exchanges heat with cooling liquid in the sleeve heat exchanger to absorb heat of the cooling liquid, and.

Further, the fan for condensation is in a shutdown state at the moment.

Furthermore, when the air conditioning system simultaneously operates for refrigeration and the battery pack is cooled, the four-way valve is not powered, high-temperature and high-pressure gaseous refrigerant is condensed into high-pressure liquid refrigerant in the condenser, the high-temperature and high-pressure liquid refrigerant is throttled by the throttle valve and is reduced into low-temperature and low-pressure vapor-liquid two-phase refrigerant, the low-temperature and low-pressure vapor-liquid two-phase refrigerant exchanges heat in the evaporator under the action of the fan, the flow of the refrigerant is improved by improving the opening of the throttle valve, most of the refrigerant exchanges heat and is gasified in the evaporator, then the low-temperature and low-pressure vapor-liquid two-phase refrigerant continuously flows through the four-way valve and flows into the sleeve.

Further, when the air conditioning system simultaneously operates for heating and the battery pack cools, the four-way valve is powered on, high-temperature and high-pressure gaseous refrigerant flows into the evaporator, exchanges heat with indoor air under the action of the fan for the evaporator to realize the heating function, the refrigerant in the evaporator is condensed into high-pressure liquid state refrigeration, then is throttled and reduced in pressure through the throttle valve to become low-temperature and low-pressure vapor-liquid two-phase refrigerant, then flows through the condenser, the fan for the condenser is in an operating state at the moment, the refrigerant exchanges heat in the condenser, most of the refrigerant absorbs heat to be gasified, and then the low-temperature and low-pressure vapor-liquid two-phase refrigerant exchanges heat with cooling liquid flowing through the sleeve heat exchanger after flowing through the four-way valve.

Furthermore, an inlet and an outlet of cooling liquid for cooling the battery pack are arranged on the double-pipe heat exchanger, the cooling liquid is driven by a circulating water pump, and a controller of the air conditioning system controls the running and the stopping of the circulating water pump according to the heat dissipation requirement of the battery pack.

Furthermore, an inlet and an outlet of cooling liquid for cooling the battery pack are arranged on the double-pipe heat exchanger, the cooling liquid is driven by a circulating water pump, and a controller of the air conditioning system controls the running and the stopping of the circulating water pump according to the heat dissipation requirement of the battery pack.

In summary, compared with the conventional overhead air conditioning scheme of the integrated battery thermal management system, the vehicle-mounted air conditioning system with the integrated battery cooling function not only realizes one air conditioner, but also integrates the functions of adjusting the air temperature of the carriage and controlling the temperature of the battery coolant; the temperature control function of the battery cooling liquid can be operated under the refrigeration and heating modes of the air conditioner; particularly, a one-way valve and an additional throttling device are not required to be added in a pipeline system, and the system has simple and compact pipeline and high reliability; in addition, more importantly, the system solves the problem that the compressor of the common integrated air conditioner is frequently started and stopped, avoids the damage of the compressor caused by the frequent start and stop of the air conditioner, and improves the reliability of the system.

Description of the drawings:

FIG. 1: the invention provides a schematic diagram of a vehicle-mounted air conditioning system integrating a battery cooling function;

the system comprises a compressor 1, a normally closed solenoid valve 2, a four-way valve 3, a condenser 4, a throttle valve 5, an evaporator 6, a cooling liquid inlet and outlet pipe 7, a double-pipe heat exchanger 8, a vapor-liquid separator 9, a condensing fan 10 and an evaporating fan 10.

Detailed Description

The invention is described in further detail below with reference to the following figures and detailed description.

The invention provides a vehicle-mounted air conditioning system integrating a battery cooling function, which comprises a compressor 1, a condenser 4, an evaporator 6, a throttle valve 3 and a vapor-liquid separator 9 which are connected through a refrigeration pipeline, wherein fans are arranged at the evaporator 6 and the condenser 4, the trend of a refrigerant coming out of the compressor 1 is controlled by the four-way valve 3, a sleeve heat exchanger 8 for cooling a battery pack is sleeved on the refrigeration pipeline between the outlet of the four-way valve 3 and the inlet of the vapor-liquid separator 9, a normally closed electromagnetic valve 2 is arranged between the outlet of the compressor 1 and the outlet of the four-way valve 3, and a controller of the air conditioning system controls the opening state of the normally closed electromagnetic valve according to the heat dissipation.

As shown in fig. 1, the present invention provides a schematic composition diagram of a vehicle air conditioning system with integrated battery cooling function, wherein the direction shown by the key head is the refrigerant running direction. The system is composed of a common vehicle-mounted air conditioner, and comprises a compressor 1, a four-way valve 3, a condenser 4 (an outdoor heat exchanger), a throttle valve 5, an evaporator (an indoor heat exchanger) 6 and a vapor-liquid separator 9 which are sequentially connected by a refrigeration pipeline to form a complete refrigeration/heating loop, wherein the four-way valve 3 controls the sequence of a refrigerant flowing through the condenser 4 and the evaporator 6 to change the refrigeration/heating capacity of an air conditioning unit, and fans are respectively arranged at the evaporator 6 and the condenser 4 to enable the energy generated by the condenser 4 and the evaporator 6 to rapidly exchange heat with the ambient air, such as a condensing fan 10 and an evaporating fan 11 shown in figure 1, in order to enhance the heat exchange and improve the heat exchange capacity of the evaporator 6 and the condenser 4. In order to enable the air conditioner to have the function of heat exchange for the battery pack, a double-pipe heat exchanger 8 is connected to a refrigerating pipeline between the outlet of the four-way valve 3 and the inlet of the vapor-liquid separator 9, and the double-pipe heat exchanger 8 can be a part of the refrigerating pipeline or sleeved with the refrigerating pipeline. The double-pipe heat exchanger 8 comprises a cooling liquid inlet pipe and a cooling liquid outlet pipe, the cooling liquid for heat exchange of the battery pack is cooled at the double-pipe heat exchanger 8, then flows through the battery pack to cool the battery pack, and the cooling liquid is driven by a circulating water pump to circularly operate to realize continuous cooling of the battery pack.

In order to enable the air conditioning unit to cool down the battery pack in both the cooling and heating modes, in this embodiment, a normally closed solenoid valve 2 is connected in parallel between an outlet of a compressor 1 and an outlet of a four-way valve 3, an outlet of the normally closed solenoid valve 2 is located between an outlet of the four-way valve 3 and an inlet of a casing heat exchanger 8, the normally closed solenoid valve 2 is connected with a controller of the air conditioning system, and the controller controls the opening state of the normally closed solenoid valve according to the actual operation condition, so that the system can independently realize the cooling and heating functions of air in a compartment and the cooling function of battery cooling liquid, and also starts to simultaneously realize the cooling of the air in the compartment and the cooling function of the battery cooling liquid, or the heating of the air in the compartment and the. Here, the air conditioning system provided by this embodiment includes the following operation modes:

a refrigeration mode:

the principle is the same as that of a common air conditioner, under the ventilation effect of a condensing fan 10, a high-temperature high-pressure gaseous refrigerant flows into a condenser 4 to exchange heat with outdoor air, is condensed into a high-pressure liquid refrigerant in the condenser 4, is throttled and reduced in pressure through a throttle valve 5 to become a low-temperature low-pressure vapor-liquid two-phase refrigerant, then flows through an evaporator 6, is gasified and absorbs heat in the evaporator 6, and under the ventilation effect of an evaporating fan 11, the heat exchange between the air in a carriage and the evaporator 6 is realized, so that the refrigeration function in a vehicle is realized. The compressor 1 drives the refrigerant to circulate in the pipeline and each heat exchanger flow passage, thereby continuously performing a refrigeration function. And an inlet and an outlet of cooling liquid for cooling the battery pack are arranged on the double-pipe heat exchanger 8, the cooling liquid is driven by a circulating water pump, and a controller of the air conditioning system controls the running and the stopping of the circulating water pump according to the heat dissipation requirement of the battery pack. Under the refrigeration mode, if need not to carry out the group battery when cooling, stop the circulating water pump of battery coolant liquid, make the coolant liquid no longer flow through double-pipe heat exchanger 8 to make double-pipe heat exchanger 8 lose heat transfer ability, avoid battery coolant liquid temperature further to reduce, guarantee the normal operating of group battery.

When the outdoor environment temperature is too high, the high pressure is larger, and the unit refrigeration load is larger, the controller controls the normally closed solenoid valve 2 to be opened, the refrigerant coming out of the compressor 1 is shunted, part of high-temperature and high-pressure gaseous refrigerant bypasses to the front of the sleeve heat exchanger 8 through the normally closed solenoid valve 2, and the high-temperature and high-pressure gaseous refrigerant and the low-temperature and low-pressure vapor-liquid two-phase refrigerant flowing into the sleeve heat exchanger 8 through the four-way valve 3 are mixed for heat exchange, so that the high pressure can be obviously reduced, the system load is reduced, the system is enabled to be recovered to the normal pressure range to operate, and the.

Heating mode:

the principle is the same as that of a common air conditioner, during heating, the four-way valve 3 is powered on, and becomes a high-temperature high-pressure gaseous refrigerant after being compressed by the compressor 1, the gaseous refrigerant is cooled in the evaporator 6 to release heat, and under the ventilation action of the evaporation fan, the heat exchange between the carriage air and the evaporator 6 is realized, so that the heating function of the air in the vehicle is realized, and under the ventilation action of the condensation fan 10, the low-temperature low-pressure gas-liquid two-phase refrigerant in the condenser 4 is gasified in the condenser 4 and exchanges heat with the air flowing through the condenser 3, and the low-temperature low-pressure gas. The compressor 1 drives the refrigerant to circulate in the pipe and the heat exchanger flow passage, thereby continuously performing a heating function. Under the heating mode, if too low because of ambient temperature, when need not to carry out the group battery cooling, air conditioning system's controller control circulating water pump stop work makes the coolant liquid no longer flow through double-pipe heat exchanger to make double-pipe heat exchanger lose the heat transfer ability of coolant liquid, avoid the coolant liquid temperature to further reduce, guarantee the normal operating of group battery.

The air conditioning system operates the battery cooling function mode alone:

when the air conditioner operates the battery cooling function independently, the air conditioner is divided into a refrigerating season and a heating season:

when the ambient temperature is high, namely, when the battery pack cooling function is operated in a cooling season, the controller controls the circulating water pump to be in an operating state, the four-way valve 3 is not powered, high-temperature and high-pressure gaseous refrigerant flows into the condenser 4 to exchange heat with outdoor air, the high-temperature and high-pressure gaseous refrigerant is condensed into high-pressure liquid refrigerant in the condenser 4, the high-pressure liquid refrigerant is throttled and reduced in pressure through the throttle valve 5 to become low-temperature and low-pressure vapor-liquid two-phase refrigerant, the low-temperature and low-pressure vapor-liquid two-phase refrigerant flows through the evaporator 6, the evaporation fan 11 is in a stop state at the moment, the refrigerant is insufficient in the evaporator 6 to exchange heat, most of the refrigerant cannot exchange heat and gasify, the low-temperature and low-pressure vapor-liquid two-phase refrigerant continuously. The compressor 1 drives the refrigerant to circulate in the pipe and the heat exchanger flow passage, thereby continuously performing the battery pack cooling function.

When the ambient temperature is low, namely when the battery pack air conditioner function is operated in a heating season, the controller controls the circulating water pump to be in a running state, the four-way valve 3 is powered on, high-temperature and high-pressure gaseous refrigerant flows into the evaporator 6 to exchange heat with indoor air under the action of the evaporation fan 11, the high-pressure gaseous refrigerant is condensed into high-pressure liquid refrigerant in the evaporator 6, the high-pressure liquid refrigerant is throttled and depressurized through the throttle valve 5 to become low-temperature and low-pressure gas-liquid two-phase refrigerant, the low-temperature and low-pressure gas-liquid two-phase refrigerant flows through the condenser 4, the condensing fan 10 is in a shutdown state at the moment, most of the refrigerant cannot exchange heat and gasify in the condenser 4, the low-temperature and low-pressure gas-liquid two-phase refrigerant continuously flows through. The compressor 1 drives the refrigerant to circulate in the pipe and the heat exchanger flow passage, thereby continuously performing refrigeration. The circulation not only realizes the refrigeration of the battery pack cooling liquid, but also utilizes the heat released by the battery cooling liquid to heat the air in the vehicle, realizes the heating in the vehicle and achieves two purposes.

Furthermore, because the heat productivity of the battery is closely related to the working current or the charging current of the battery, the refrigeration load of the battery cooling liquid is not a constant value, when the cooling load of the battery pack is far smaller than the rated refrigeration capacity of the unit, the refrigerant cannot be completely gasified in the sleeve heat exchanger 8, and the low-pressure is low, so that the normal operation of the system is affected, at the moment, the normally closed battery valve 2 between the exhaust pipe and the sleeve heat exchanger 8 is opened, so that part of the high-temperature high-pressure gaseous refrigerant bypasses the sleeve heat exchanger through the normally closed electromagnetic valve 2, and the high-temperature high-pressure gaseous refrigerant is mixed with the low-temperature low-pressure gas-liquid two-phase refrigerant flowing into the sleeve heat exchanger 8 through the four-way valve 3 for heat exchange, so that the refrigerant in.

The air conditioning system simultaneously operates the compartment air cooling and battery air conditioning cooling modes:

when the air conditioning system simultaneously operates the carriage air refrigeration and the battery air conditioning refrigeration, the controller controls the circulating water pump to be in a running state, the four-way valve 3 is not electrified, the high-temperature and high-pressure gaseous refrigerant flows into the condenser 4 to exchange heat with the outdoor air, condensed into high-pressure liquid refrigerant in the condenser 4, then throttled and decompressed by the throttle valve 5 to become low-temperature and low-pressure gas-liquid two-phase refrigerant, then flows through the evaporator 6, the evaporation fan 11 is in a running state at this time, the flow rate of the refrigerant is increased by increasing the opening degree of the throttle valve 5, most of the refrigerant is subjected to heat exchange and gasification in the evaporator 6, then the low-temperature low-pressure gas-liquid two-phase refrigerant continuously flows through the four-way valve 3 and then flows into the double-pipe heat exchanger 8, the heat of the cooling liquid is absorbed by exchanging heat with the cooling liquid flowing through the double-pipe heat exchanger 8 in the double-pipe heat exchanger 8, so that the cooling function of the battery pack cooling liquid and the cooling function of air in the vehicle are realized. The compressor 1 drives the refrigerant to circulate in the pipe and the heat exchanger flow passage, thereby continuously performing refrigeration.

The air conditioning system operates the cabin air heating and battery air conditioning cooling modes simultaneously:

when the air conditioning system simultaneously operates the air heating of the carriage and the cooling of the battery air conditioner, the controller controls the circulating water pump to be in a running state, the four-way valve 3 is electrified, the high-temperature and high-pressure gaseous refrigerant flows into the evaporator 6, the heat exchange with the indoor air is carried out under the action of the evaporation fan 11, the heating function in the vehicle is realized, the refrigerant is condensed into high-pressure liquid refrigerant in the evaporator 6, then the refrigerant is throttled and decompressed by a throttle valve 5 to become a low-temperature and low-pressure gas-liquid two-phase refrigerant, then the refrigerant flows through a condenser 4, a condensing fan 10 is in a running state at the moment, the refrigerant exchanges heat with outdoor air in the condenser 4, most of the refrigerant absorbs heat and is gasified, then the low-temperature low-pressure gas-liquid two-phase refrigerant continuously flows through the four-way valve 2 and then flows into the double-pipe heat exchanger 8, the heat of the cooling liquid is absorbed by exchanging heat with the cooling liquid flowing through the double-pipe heat exchanger 8 in the double-pipe heat exchanger 8, so that the cooling function of the battery pack cooling liquid and the heating function of air in the vehicle are realized. The compressor 1 drives the refrigerant to circulate in the pipeline and the heat exchanger flow passage, thereby continuously realizing the functions of cooling the battery cooling liquid and heating the air conditioner in the vehicle. The battery cooling liquid refrigeration is realized, and the heating capacity and the energy efficiency ratio of the unit are greatly improved by utilizing the heat of two heat sources, namely the battery cooling liquid and the outdoor air.

In the above various working modes, the controller can control the working mode and working state of the whole air conditioning system according to the ambient temperature, the control temperature, the temperature in the vehicle, the temperature of the battery pack or other conditions, and the control conditions and the control mode can adopt the prior art or any technology which may appear in the future. When the battery pack cooling mode or the combined control mode needs to be performed alone, the control conditions can be obtained according to a large number of experimental overall results, and are not required or limited herein.

In summary, compared with the conventional overhead air conditioning scheme of the integrated battery thermal management system, the vehicle-mounted air conditioning system with the integrated battery cooling function not only realizes one air conditioner, but also integrates the functions of adjusting the air temperature of the carriage and controlling the temperature of the battery coolant; the temperature control function of the battery cooling liquid can be operated under the refrigeration and heating modes of the air conditioner; particularly, a one-way valve and an additional throttling device are not required to be added in a pipeline system, and the system has simple and compact pipeline and high reliability; in addition, more importantly, the system solves the problem that the compressor of the common integrated air conditioner is frequently started and stopped, avoids the damage of the compressor caused by the frequent start and stop of the air conditioner, and improves the reliability of the system.

Similar solutions can be derived as described above in connection with the given solution content. However, any simple modification, equivalent change and modification of the above embodiments according to the technical essence of the present invention are within the scope of the technical solution of the present invention.