CN109449537B - Battery thermal management system and control method thereof - Google Patents

Abstract

The invention discloses a high-efficiency energy-saving battery thermal management system and a control method thereof, which can meet the requirement of a battery system on working temperature, can provide cold and warm air sources and also can provide natural air sources, and realize reliable operation of a power battery system under different seasons and different climates. The air conditioner comprises a vehicle controller, a heater, an air conditioner, a power battery, an engine tail gas heater, a battery air inlet channel, an air conditioner air inducing channel, a water inlet valve, a heater water inlet pipe, a heater water outlet pipe and a water pump, wherein the heater is provided with an adjustable rotating speed fan, a radiator and an air inlet hole, the air conditioner is provided with an air conditioner evaporating fan, and the air conditioner air inducing channel is provided with an air door. The service life of the power battery is greatly influenced by the working environment temperature of the power battery, and if the temperature of the battery in working is ensured to be within the range of 20-45 ℃, the service life of the power battery can be ensured to reach the design life. The cold and warm air source is a simple and effective method for solving the problem.

Description

Battery thermal management system and control method thereof

Technical Field

The invention relates to a new energy bus power battery thermal management system and a control method thereof.

Background

At present, the application range of the power battery of the new energy automobile to the temperature is narrower, the optimum working temperature range of the power battery is 20-45 ℃, but the environment range of the vehicle operation is-40-55 ℃, and the power battery system is required to reliably work in the range, so that a battery thermal management system is needed. Battery thermal management systems can be categorized as natural cooling, liquid cooling, and air cooling. The air cooling is mainly applied to a hybrid electric vehicle, so that a good peripheral air source determines an important factor of whether the air cooling battery thermal management system can work well.

At present, most air-cooled battery thermal management systems are single in air source, some of the air-cooled battery thermal management systems only provide cold air source, some of the air-cooled battery thermal management systems only provide hot air source, even natural air source, and environmental changes of partial areas cannot be considered. In order to solve the problem, the invention designs a cold and hot double-air-source structure, and the intelligent control of the air source is realized according to the ambient temperature.

Disclosure of Invention

The invention provides a high-efficiency energy-saving battery thermal management system and a control method thereof, which can meet the requirement of a battery system on working temperature, can provide cold and warm air sources and also can provide natural air sources, and realize reliable operation of a power battery system under different seasons and different climates.

The battery thermal management system comprises a whole vehicle controller, a heater, an air conditioner, a power battery, an engine tail gas heater, a battery air inlet channel, an air conditioner air inlet channel, a water inlet valve, a heater water inlet pipe, a heater water outlet pipe and a water pump; the heater is provided with an adjustable rotating speed fan, a radiator and an air inlet, the air conditioner is provided with an air conditioner evaporation fan, and the air conditioner induced air channel is provided with an air door; the air conditioner is connected with a heater through an air conditioner induced air channel, the heater is connected with a power battery through a battery air inlet channel, the engine exhaust heater and a radiator of the heater are connected with a heater water inlet pipe and a heater water outlet pipe, a water inlet valve is arranged at the radiator end of the heater water inlet pipe close to the heater, and a water pump is arranged at the end of the heater tail gas heater close to the engine; the whole vehicle controller is electrically connected with the adjustable rotating speed fan, the air door, the water inlet valve, the power battery, the water pump and the air conditioner evaporation fan.

The battery thermal management system can perform heating control, air conditioner heat dissipation control and natural wind heat dissipation control to perform thermal management on the battery.

The invention also provides a control method of the battery thermal management system, wherein the system starts heating control when the vehicle is in an environment with the temperature lower than 10 ℃, the system starts air conditioner heat dissipation control when the vehicle is in an environment with the temperature higher than 30 ℃, and the system starts natural wind heat dissipation control when the vehicle is in an environment with the temperature between 15 and 25 ℃.

When the whole vehicle controller monitors that the internal temperature of the power battery exceeds 40 ℃ during heating control, the whole vehicle controller delays to control the closing delay time of the water inlet valve to be 5 seconds.

The beneficial effects are that: the working environment temperature of the power battery has a large influence on the service life of the power battery, and long-term experiments and use experience show that if the temperature of the power battery during working is ensured to be within the range of 20-45 ℃, the service life of the power battery can be ensured to reach the design service life. Without a good thermal management system, battery life may be severely reduced or dangerous accidents may occur due to battery abuse. The cold and warm air source of the invention is a simple and effective method for solving the problem.

Drawings

Fig. 1: a battery thermal management system schematic;

in the figure: 1. the air conditioner comprises a battery air inlet channel, 2, an air conditioner, 3, an air conditioner air induction channel, 4, a heater, 5, a water inlet valve, 6, a heater water inlet pipe, 7, a heater water outlet pipe, 8, a power battery, 9, a whole vehicle controller, 10, an air conditioner evaporation fan, 11, an engine tail gas heater, 12, a water pump, 13, an air conditioner air door, 14, an adjustable rotation speed fan, 15, a radiator, 16 and an air inlet hole.

Detailed Description

For further details of the battery thermal management system and the control method thereof according to the present invention, the following is a further description with reference to the accompanying drawings, wherein the broken lines represent the electrical connections between the components, and the arrows in the lines indicate the direction of water flow.

As shown in fig. 1, the battery thermal management system of the invention comprises a whole vehicle controller 9, a heater 4, an air conditioner 2, a power battery 8, an engine tail gas heater 11, a battery air inlet channel 1, an air conditioner air inlet channel 3, a water inlet valve 5, a heater water inlet pipe 6, a heater water outlet pipe 7 and a water pump 12; the heater 4 is provided with an adjustable rotating speed fan 14, a radiator 15 and an air inlet 16; the air conditioner 2 is provided with an air conditioner evaporation fan 10, and the air conditioner induced draft channel 3 is provided with an air door 13; the air conditioner 2 is connected with a heater 4 through an air conditioner induced air channel 3, the heater 4 is connected with a power battery 8 through a battery air inlet channel 1, the engine exhaust heater 11 and a radiator 15 of the heater 4 are connected with a heater water inlet pipe 6 and a heater water outlet pipe 7, a water inlet valve 5 is arranged at the end of the heater water inlet pipe 6 close to the radiator 15, and a water pump 12 is arranged at the end of the heater water inlet pipe close to the engine exhaust heater 11; the whole vehicle controller 9 is electrically connected with the adjustable rotating speed fan 14, the air door 13, the water inlet valve 5, the power battery 8, the water pump 12 and the air conditioner evaporation fan 10.

Heating control: when the vehicle is in an environment lower than 10 ℃, the whole vehicle controller 9 monitors the internal temperature of the power battery 8, if the internal temperature of the power battery 8 is lower than 20 ℃, the whole vehicle controller 9 controls the water inlet valve 5 to be opened, then the whole vehicle controller 9 controls the water pump 12 to start working, hot water of the engine exhaust heater 11 enters the radiator 15 of the heater 4 through the heater water inlet pipe 6, air enters the heater through the air inlet hole 16 of the heater 4, the hot water flows through the radiator 15 to heat the air in the heater 4, and then the hot water flows back to the engine exhaust heater 11 through the heater water outlet pipe 7. Meanwhile, the whole vehicle controller 9 controls the adjustable speed fan 14 inside the heater 4 to start and work at the maximum wind speed, and warm air generated in the heater 4 enters the power battery box 8 through the battery air inlet channel 1 to heat the power battery box. When the whole vehicle controller 9 monitors that the internal temperature of the power battery 8 exceeds 40 ℃, the whole vehicle controller 9 firstly controls the water pump 12 to be turned off, after time delay is 5S, the whole vehicle controller 9 controls the water inlet valve 5 to be turned off, and at the moment, hot water of the engine tail gas heater 11 does not enter the heater 4 any more. Meanwhile, the whole vehicle controller 9 controls the adjustable speed fan 14 inside the heater 4 to work at the minimum wind speed, blows off the residual temperature inside the heater 4, and turns off the adjustable speed fan 14 after working for 1 minute. As the temperature of the power battery 8 decreases, the heating operation is repeated again when the temperature decreases to 20 ℃.

And (3) heat dissipation control of an air conditioner: when the vehicle is in an environment with the temperature higher than 30 ℃, the whole vehicle controller 9 monitors the internal temperature of the power battery 8, and if the temperature is higher than 40 ℃, the whole vehicle controller 9 controls the water inlet valve 5 and the water pump 12 to be in a closed state. Subsequently, the whole vehicle controller 9 controls the air conditioner 2 to be started, the air conditioner temperature is set to 25 ℃, the air conditioner evaporation fan 10 is started to work, the air conditioner 2 starts to refrigerate, the whole vehicle controller 9 starts the air conditioner air door 13, and cold air generated by the air conditioner 2 is introduced into the heater 4 through the air conditioner induced air channel 3. Meanwhile, the whole vehicle controller 9 controls the adjustable speed fan 14 inside the heater 4 to work at the maximum wind speed, and the adjustable speed fan 14 enters cold wind into the power battery box 8 through the battery air inlet channel 1 to dissipate heat. When the internal temperature of the power battery 8 is lower than 28 ℃, the whole vehicle controller 9 controls the adjustable speed fan 14 in the heater 4 to stop working, and closes the air conditioner air door 13. As the temperature increases, when the temperature of the power battery 8 increases to 40 ℃, the air conditioner heat radiation operation is repeated again.

Natural wind heat dissipation control: when the vehicle is in an environment of 15-25 ℃, the temperature of the battery system is at a proper temperature, in order to save energy, the whole vehicle controller 9 can control the air conditioner 2 to be not in operation, the water inlet valve 5 and the water pump 12 to be closed, the power battery 8 basically does not need cold air of the air conditioner 2 for heat dissipation, and the environment air is used. Along with the use of the power battery 8, the temperature of the power battery is continuously increased, but because the ambient temperature is lower, the ambient air in the carriage enters the interior of the heater 4 through the air inlet hole 16 of the heater 4, and then is sent into the battery air inlet channel 1 through the speed-adjustable fan 14 in the heater 4, so that the power battery 8 is taken as an air source, and the battery is subjected to heat dissipation. When the internal temperature of the power battery 8 is lower than 20 ℃, the whole vehicle controller 9 controls the heater 4 to adjust the wind speed of the rotating speed fan 14 to be reduced to the minimum or stop the fan, and when the temperature of the power battery 8 is increased to 40 ℃ along with the increase of the temperature, the heat of the power battery is dissipated again.

The working environment temperature of the power battery has a large influence on the service life of the power battery, and long-term experiments and use experience show that if the temperature of the power battery during working is ensured to be within the range of 20-45 ℃, the service life of the power battery can be ensured to reach the design service life. Without a good thermal management system, battery life may be severely reduced or dangerous accidents may occur due to battery abuse.

Claims (3)

1. The battery thermal management system is characterized by comprising a whole vehicle controller (9), a heater (4), an air conditioner (2), a power battery (8), an engine tail gas heater (11), a battery air inlet channel (1), an air conditioner air induction channel (3), a water inlet valve (5), a heater water inlet pipe (6), a heater water outlet pipe (7) and a water pump (12); the heater (4) is provided with an adjustable rotating speed fan (14), a radiator (15) and an air inlet (16); the air conditioner (2) is provided with an air conditioner evaporation fan (10); the air conditioner induced air channel (3) is provided with an air door (13); the air conditioner (2) is connected with the heater (4) through the air conditioner induced air channel (3), the heater (4) is connected with the power battery (8) through the battery air inlet channel (1), the engine exhaust heater (11) is connected with the radiator (15) of the heater (4) with the heater water inlet pipe (6) and the heater water outlet pipe (7), the water inlet valve (5) is arranged at the end of the heater water inlet pipe (6) close to the radiator (15), the water pump (12) is arranged at the end of the engine exhaust heater (11), hot water of the engine exhaust heater (11) enters the radiator (15) of the heater (4) through the heater water inlet pipe (6), air enters the heater through the air inlet hole (16) of the heater (4), the hot water flows through the radiator (15) to heat the air in the heater (4), and then the hot water flows back to the engine exhaust heater (11) through the heater water outlet pipe (7); the whole vehicle controller (9) is electrically connected with the adjustable speed fan (14), the air door (13), the water inlet valve (5), the power battery (8), the water pump (12) and the air conditioner evaporation fan (10); the control method comprises the following steps:

the system turns on the heating control when the vehicle is operating in an environment below 10 ℃:

the whole vehicle controller (9) monitors the internal temperature of the power battery (8), if the internal temperature of the power battery (8) is lower than 20 ℃, the whole vehicle controller (9) controls the water inlet valve (5) to be opened, then, the whole vehicle controller (9) controls the water pump (12) to start working, hot water of the engine tail gas heater (11) enters the radiator (15) of the heater (4) through the heater water inlet pipe (6), air enters the heater through the air inlet hole (16) of the heater (4), the hot water flows through the radiator (15) to heat the air in the heater (4), and then, the hot water flows back to the engine tail gas heater (11) through the heater water outlet pipe (7); meanwhile, the whole vehicle controller (9) controls the adjustable speed fan (14) in the heater (4) to start to work at the maximum wind speed, when the whole vehicle controller (9) monitors that the temperature in the power battery (8) exceeds 40 ℃, the whole vehicle controller (9) firstly controls the water pump (12) to be closed, the delay control water inlet valve (5) is closed, meanwhile, the whole vehicle controller (9) controls the adjustable speed fan (14) in the heater (4) to work at the minimum wind speed, the adjustable speed fan (14) is closed after working for 1 minute, and when the temperature of the power battery (8) is reduced to 20 ℃, the heating control is repeated again;

when the vehicle is in an environment working higher than 30 ℃, the system starts the air conditioner heat dissipation control:

the whole vehicle controller (9) monitors the internal temperature of the power battery (8), if the temperature is higher than 40 ℃, the whole vehicle controller (9) controls the water inlet valve (5) and the water pump (12) to be in a closed state, then the whole vehicle controller (9) controls the air conditioner (2) to be opened, the air conditioner temperature is set to 25 ℃ and the air conditioner evaporation fan (10) is started to work, the whole vehicle controller (9) starts the air conditioner air door (13), meanwhile, the whole vehicle controller (9) controls the adjustable speed fan (14) in the heater (4) to work at the maximum wind speed, when the internal temperature of the power battery (8) is lower than 28 ℃, the whole vehicle controller (9) controls the adjustable speed fan (14) in the heater (4) to stop working, and closes the air conditioner air door (13), and when the temperature of the power battery (8) is increased to 40 ℃, the air conditioner heat dissipation work is repeated again;

when the vehicle is in an environment of 15-25 ℃, the system starts natural wind heat dissipation control:

the whole vehicle controller (9) controls the air conditioner (2), the water inlet valve (5) and the water pump (12) to be closed, controls the adjustable speed fan (14) in the heater (4) to work, controls the air speed of the adjustable speed fan (14) of the heater (4) to work according to the internal temperature of the power battery (8), and when the temperature of the power battery (8) is lower than 20 ℃, the adjustable speed fan (14) stops working, and when the temperature of the power battery (8) rises to 40 ℃, natural wind heat dissipation work is repeated again.

2. A control method of a battery thermal management system, characterized in that the control method comprises the following steps:

the system turns on the heating control when the vehicle is operating in an environment below 10 ℃:

the whole vehicle controller (9) monitors the internal temperature of the power battery (8), if the internal temperature of the power battery (8) is lower than 20 ℃, the whole vehicle controller (9) controls the water inlet valve (5) to be opened, then, the whole vehicle controller (9) controls the water pump (12) to start working, hot water of the engine tail gas heater (11) enters the radiator (15) of the heater (4) through the heater water inlet pipe (6), air enters the heater through the air inlet hole (16) of the heater (4), the hot water flows through the radiator (15) to heat the air in the heater (4), and then, the hot water flows back to the engine tail gas heater (11) through the heater water outlet pipe (7); meanwhile, the whole vehicle controller (9) controls the adjustable speed fan (14) in the heater (4) to start to work at the maximum wind speed, when the whole vehicle controller (9) monitors that the temperature in the power battery (8) exceeds 40 ℃, the whole vehicle controller (9) firstly controls the water pump (12) to be closed, the delay control water inlet valve (5) is closed, meanwhile, the whole vehicle controller (9) controls the adjustable speed fan (14) in the heater (4) to work at the minimum wind speed, the adjustable speed fan (14) is closed after working for 1 minute, and when the temperature of the power battery (8) is reduced to 20 ℃, the heating control is repeated again;

when the vehicle is in an environment working higher than 30 ℃, the system starts the air conditioner heat dissipation control:

the whole vehicle controller (9) monitors the internal temperature of the power battery (8), if the temperature is higher than 40 ℃, the whole vehicle controller (9) controls the water inlet valve (5) and the water pump (12) to be in a closed state, then the whole vehicle controller (9) controls the air conditioner (2) to be opened, the air conditioner temperature is set to 25 ℃ and the air conditioner evaporation fan (10) is started to work, the whole vehicle controller (9) starts the air conditioner air door (13), meanwhile, the whole vehicle controller (9) controls the adjustable speed fan (14) in the heater (4) to work at the maximum wind speed, when the internal temperature of the power battery (8) is lower than 28 ℃, the whole vehicle controller (9) controls the adjustable speed fan (14) in the heater (4) to stop working, and closes the air conditioner air door (13), and when the temperature of the power battery (8) is increased to 40 ℃, the air conditioner heat dissipation work is repeated again;

when the vehicle is in an environment of 15-25 ℃, the system starts natural wind heat dissipation control:

the whole vehicle controller (9) controls the air conditioner (2), the water inlet valve (5) and the water pump (12) to be closed, controls the adjustable speed fan (14) in the heater (4) to work, controls the air speed of the adjustable speed fan (14) of the heater (4) to work according to the internal temperature of the power battery (8), and when the temperature of the power battery (8) is lower than 20 ℃, the adjustable speed fan (14) stops working, and when the temperature of the power battery (8) rises to 40 ℃, natural wind heat dissipation work is repeated again.

3. The control method of a battery thermal management system according to claim 2, wherein: when the whole vehicle controller (9) monitors that the internal temperature of the power battery (8) exceeds 40 ℃ during heating control, the whole vehicle controller (9) delays to control the closing delay time of the water inlet valve (5) to be 5 seconds.