JP2014148245A - Battery cooling device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To perform operation control of a cooling fan and prevent a rise of battery temperature in a plug-in hybrid car comprising an air-cooled battery cooling mechanism.SOLUTION: A battery cooling device comprises: a battery; air blowing means for cooling the battery; battery temperature detection means; outside air temperature detection means for detecting the temperature of outside air blown by the air blowing means; and battery control means which stops the operation of the air blowing means when the temperature of the battery becomes equal to or lower than a set value. The air blowing means has a function of adjusting the amount of air flow it produces, and the battery control means performs control in such a manner that, while the air blowing means is operated, if the outside air temperature acquired by the outside air temperature detection means exceeds the battery temperature acquired by the battery temperature detection means, the amount of air flow produced by the air blowing means is made smaller than when the outside air temperature is equal to or lower than the battery temperature.

Description

  The present invention relates to a battery cooling device, and more particularly to a battery cooling device that controls the operation of a cooling fan according to the situation and prevents the battery temperature from rising.

Electric vehicles are equipped with large capacity batteries for driving.
This battery overheats when it is in use, but its deterioration is accelerated when the temperature exceeds a predetermined temperature.
Therefore, a cooling system such as air cooling is usually mounted so that the battery does not exceed a predetermined temperature, and control is performed at the time of plug-in charging from a charging facility (see JP 2004-80914 A).
However, in a vehicle that employs air cooling for battery cooling, the battery cannot be cooled if the temperature of the blown air is higher than the battery temperature.
In order to solve this problem, as disclosed in Patent Document 1, when the air temperature is higher than the battery temperature, air is not blown.
In addition, a sensor for measuring the temperature of the air blown is generally attached to the cooling air intake port of the battery pack, but in the state where no air is blown, the temperature of the air heated by the battery is measured. There was a possibility that the temperature of the cooling air could not be measured accurately.
Therefore, as described in Japanese Patent Application Laid-Open No. 2002-63946 (the purpose of this patent application is air replacement for preventing condensation), a method of intermittently operating the fan may be used.

JP 2001-130268 A

By the way, in a conventional battery cooling device, when plug-in charging a battery from household electric power or the like, in midsummer, high temperature air of 50 ° C. or more may be blown to the battery by direct sunlight or road surface radiation. There is sex.
At this time, in order to accurately measure the cooling air temperature, if the air cooling fan is intermittently operated as usual, there is a disadvantage that the battery temperature is rapidly increased.
Moreover, in an electric vehicle with an internal combustion engine (plug-in hybrid vehicle, range extender, etc.), when the battery cooling mechanism is an air cooling system that takes in outside air, an internal combustion engine, a muffler, etc. There is a case where the warmed air stays and winds around the intake port for the battery cooling air.
As a result, the air warmed by the internal combustion engine may become a high temperature of 60 ° C. or higher, and eventually the battery temperature is raised by the air blowing.

  An object of the present invention is to prevent an increase in battery temperature by controlling the operation of a cooling fan according to the situation in a plug-in hybrid vehicle including an air-cooled battery cooling mechanism.

  Therefore, in order to eliminate the above-mentioned inconvenience, the present invention provides a rechargeable battery, a blowing unit that blows outside air to the battery to cool the battery, a battery temperature detection unit that detects the temperature of the battery, Battery cooling provided with outside temperature detecting means for detecting the temperature of the outside air blown by the blowing means, and battery control means for stopping the operation of the blowing means when the temperature of the battery becomes a set value or less. In the apparatus, the air blowing means has a function of adjusting the amount of air to be blown, and the battery control means has an outside air temperature obtained by the outside air temperature detecting means when the air blowing means is being operated. When the temperature exceeds the battery temperature obtained by the battery temperature detection means, the air flow is greater than when the outside air temperature is equal to or lower than the battery temperature. And controlling so that the air volume of the stage is reduced.

According to the present invention, when the outside air temperature is higher than the battery temperature, it is possible to suppress the movement of the cooling fan of the blower means and eliminate the factor that accelerates the battery temperature rise.
In addition, an increase in battery temperature due to hot air being blown to the battery can be suppressed.

FIG. 1 is a flowchart for controlling the battery cooling device. (Example) FIG. 2 is a system configuration diagram of the battery cooling device. (Example)

  Embodiments of the present invention will be described below in detail with reference to the drawings.

1 and 2 show an embodiment of the present invention.
In FIG. 2, reference numeral 1 denotes a battery cooling device mounted on, for example, a plug-in hybrid vehicle (also simply referred to as “vehicle”).
The battery cooling device 1 includes a rechargeable battery (also referred to as a “charger”) 2, a fan 3 that blows outside air to the battery 2 and cools the battery 2, and the battery 2. A battery temperature sensor 4 that is a battery temperature detecting means for detecting temperature, an outside air temperature detecting means that detects the temperature of the outside air blown by the fan 3 that is the blowing means, for example, a cooling air temperature sensor 5, and the battery 2 Battery control means (also referred to as “battery controller”) 6 is provided to stop the operation of the fan 3 that is the air blowing means when the temperature becomes lower than a set value.
That is, the battery 2 receives the plug-in charging signal from the battery control unit 6 and outputs a power limit signal to the battery control unit 6.
The fan 3 serving as the air blowing means receives a drive signal from the battery control means 6.
The battery temperature sensor 4 is provided in a number corresponding to the number of the batteries 2 and outputs a temperature signal of each battery 2 to the battery control means 6.
The outside air temperature detection means, for example, the cooling air temperature sensor 5 detects the temperature of the outside air blown by the fan 3 and outputs a temperature signal to the battery control means 6.
Further, as shown in FIG. 2, the battery cooling device 1 detects the ON / OFF state of an ignition switch (not shown), and outputs an IG-ON / OFF signal to the battery control means 6, An engine controller 8 that grasps an operation state (for example, engine rotation speed) of an engine (not shown) mounted on the vehicle and outputs an operation signal to the battery control means 6 is provided.

In the battery cooling device 1, the fan 3 serving as the blowing unit has a function of adjusting the amount of air to be blown, and the battery control unit 6 is configured to operate the fan 3 serving as the blowing unit during plug-in charging. If the outside air temperature obtained by the outside air temperature detecting means, for example, the cooling air temperature sensor 5, exceeds the battery temperature obtained by the battery temperature sensor 4 as the battery temperature detecting means, the outside air is detected. The fan 3 is controlled so that the air volume is smaller than when the temperature is equal to or lower than the battery temperature.
More specifically, the battery control means 6 compares the outside air temperature with the battery temperature, and when the outside air temperature exceeds the battery temperature, the outside air temperature is lower than the battery temperature, that is, more than the normal time. The fan 3 is controlled to reduce the air volume.
Thereby, when the outside air temperature exceeds the battery temperature, it is possible to suppress the movement of the fan 3 and eliminate a factor that accelerates the battery temperature rise.
Moreover, the battery temperature rise by hot air being sent by the battery 2 can be suppressed.

Further, the battery control means 6 operates the fan 3 as the air blowing means until a predetermined time (which can be referred to as “prohibited time”) Tsp elapses after the engine mounted on the vehicle is stopped. Control to stop.
That is, the battery control means 6 receives the IG-ON / OFF signal from the vehicle controller 7 and grasps the elapsed time after stopping the engine.
The elapsed time is compared with the predetermined time Tsp, and the battery control means 6 controls to stop the operation of the fan 3 until the predetermined time Tsp elapses.
The predetermined time Tsp described above can be changed based on the operating load of the engine as disclosed in Table 1 below, for example.
Thereby, the battery temperature rise by the engine heat immediately after driving | running | working can be suppressed.

Further, when the battery 2 is being externally charged and control is being executed, the battery control means 6 limits the charging power of the battery 2.
That is, by the battery control means 6,
(1) When the outside air temperature exceeds the battery temperature, control is performed so that the air volume of the fan 3 is smaller than when the outside air temperature is equal to or lower than the battery temperature, that is, normal.
(2) Control is performed so as to stop the operation of the fan 3 until the predetermined time Tsp elapses after the engine is stopped.
When any one of these controls is performed, the battery control means 6 limits the charging power of the battery 2.
At this time, when the battery 2 is being externally charged and the control is being executed, the battery control means 6 limits the charging power to a normal predetermined value or less.
The charge power can be rephrased as a charge limit power map (simply “power map” or “charge / discharge map”) composed of the maximum battery temperature (° C.) and the battery charge state SOC (%) disclosed in Table 2 below. .) Based on an example.
Thereby, at least when the output of the fan 3 is limited, an increase in battery temperature during charging can be suppressed.

The battery control means 6 causes the fan 3 to intermittently operate when the fan stop condition of the control for stopping the operation of the fan 3 described above is not established and released, and fan blowing is possible.
At this time, the time interval of the intermittent operation of the fan 3 is set to the control time interval Tlg longer than the normal time interval Tnorm when the outside air temperature exceeds the battery temperature.
When the outside air temperature becomes equal to or lower than the battery temperature, the time interval of the intermittent operation of the fan 3 is returned from the control time interval Tlg to the normal time interval Tnorm.
Then, until the battery 2 is fully charged, the control by the normal time interval Tnorm and the control by the control time interval Tlg are repeatedly performed with respect to the time interval of the intermittent operation of the fan 3.
Accordingly, it is possible to suppress an increase in the battery temperature without adding parts / mechanisms and to prevent excessive energy from being used for driving the fan.

  Next, the operation will be described along the control flowchart of the battery cooling device 1.

When the control program of the battery cooling device 1 is started (also referred to as “plug-in charge start”) (101), the process proceeds to a determination (102) as to whether or not plug-in charge has ended.
In the determination (102) of whether or not the plug-in charging is completed, if the determination (102) is YES, the process proceeds to the end (112) of the control program for the battery cooling device 1 described later.
If the determination whether the plug-in charging has ended (102) is NO, the routine proceeds to a determination (103) whether a predetermined time Tsp has elapsed since the engine was stopped.
In this determination (103), after the battery control means 6 inputs the IG-ON / OFF signal from the vehicle controller 7 and grasps the elapsed time after stopping the engine, this elapsed time and the predetermined time Comparison with Tsp.
In the determination (103) of whether or not the predetermined time Tsp has elapsed since the engine was stopped (NO), if the determination (103) is NO, the power limit value is set to a predetermined value and transmitted (104) Then, the process returns to the determination (102) of whether or not the plug-in charging described above has been completed.
If the determination (103) whether or not the predetermined time Tsp has elapsed since the engine was stopped is YES, the process proceeds to determination (105) whether or not plug-in charging has ended.
If the determination (105) is YES in the determination (105) as to whether or not the plug-in charging has ended, the process proceeds to the end (112) of the control program for the battery cooling device 1.
If the determination (105) on whether or not the plug-in charging is completed is NO, the process proceeds to a process (106) for transmitting the power limit value based on the power map.
In this process (106), the charging power is controlled based on an example of a charge limiting power map composed of the maximum battery temperature (° C.) and the battery charging state SOC (%) disclosed in Table 2.
Then, the process proceeds to the process (107) for driving the fan 3.
In this process (107), the battery control means 6 outputs a drive signal to the fan 3.
At this time, the process proceeds to determination (108) of whether or not the outside air temperature is equal to or lower than the battery temperature.
In the determination (108) of whether or not the outside air temperature is equal to or lower than the battery temperature, if the determination (108) is NO, the outside air temperature exceeds the battery temperature, so that the control time interval longer than the normal time interval Tnorm The process proceeds to processing (109) for setting Tlg.
If the determination (108) on whether or not the outside air temperature is equal to or lower than the battery temperature is YES, the outside air temperature is equal to or lower than the battery temperature, so that the setting is returned from the control time interval Tlg to the normal time interval Tnorm. The process proceeds to (110).
Then, after setting the time interval of the intermittent operation of the fan 3 to the control time interval Tlg in the above process (109) or the normal time interval Tnorm in the above process (110), the fan 3 3 is transferred to the intermittent operation (111), and then the process returns to the determination (105) of whether or not the plug-in charging is completed.

  The present invention is not limited to the above-described embodiments, and various application modifications are possible.

  For example, in the embodiment of the present invention, the engine speed described in Table 1 is described as an example of the engine load. However, a special configuration using other factors such as fuel consumption may be used. It is.

1 battery cooling device 2 battery (also referred to as “charger”)
3 Fan 4 Battery temperature sensor 5 Cooling air temperature sensor 6 Battery control means (also referred to as “battery controller”)
7 Vehicle controller 8 Engine controller

1 and 2 show an embodiment of the present invention.
In FIG. 2, 1 is a battery cooling device mounted on, for example, a plug-in hybrid vehicle (also simply referred to as “vehicle”), and 2 is a charger .
The battery cooling device 1 includes a rechargeable battery (not shown) , a fan 3 that blows outside air to cool the battery, and a battery temperature detecting means that detects the temperature of the battery. When the temperature of the battery temperature sensor 4 and the outside air temperature detecting means for detecting the temperature of the outside air blown by the fan 3 as the blowing means, for example, the cooling air temperature sensor 5, and the temperature of the battery become a set value or less. And battery control means (also referred to as “battery controller”) 6 for stopping the operation of the fan 3 as the air blowing means.
That is, the charger 2, the outputs plug charging signal to the battery control unit 6 inputs the power limit signal from the battery control unit 6.
The fan 3 serving as the air blowing means receives a drive signal from the battery control means 6.
The battery temperature sensor 4 is provided in a number corresponding to the number of the batteries, and outputs a temperature signal of each battery to the battery control means 6.
The outside air temperature detection means, for example, the cooling air temperature sensor 5 detects the temperature of the outside air blown by the fan 3 and outputs a temperature signal to the battery control means 6.
Further, as shown in FIG. 2, the battery cooling device 1 detects the ON / OFF state of an ignition switch (not shown), and outputs an IG-ON / OFF signal to the battery control means 6, An engine controller 8 that grasps an operation state (for example, engine rotation speed) of an engine (not shown) mounted on the vehicle and outputs an operation signal to the battery control means 6 is provided.

In the battery cooling device 1, the fan 3 serving as the blowing unit has a function of adjusting the amount of air to be blown, and the battery control unit 6 is configured to operate the fan 3 serving as the blowing unit during plug-in charging. If the outside air temperature obtained by the outside air temperature detecting means, for example, the cooling air temperature sensor 5, exceeds the battery temperature obtained by the battery temperature sensor 4 as the battery temperature detecting means, the outside air is detected. The fan 3 is controlled so that the air volume is smaller than when the temperature is equal to or lower than the battery temperature.
More specifically, the battery control means 6 compares the outside air temperature with the battery temperature, and when the outside air temperature exceeds the battery temperature, the outside air temperature is lower than the battery temperature, that is, more than the normal time. The fan 3 is controlled to reduce the air volume.
Thereby, when the outside air temperature exceeds the battery temperature, it is possible to suppress the movement of the fan 3 and eliminate a factor that accelerates the battery temperature rise.
Moreover, the battery temperature rise by hot air being sent by the said battery can be suppressed.

Further, when the charger 2 is being externally charged and the control is being executed, the battery control means 6 limits the charging power of the charger 2 .
That is, by the battery control means 6,
(1) When the outside air temperature exceeds the battery temperature, control is performed so that the air volume of the fan 3 is smaller than when the outside air temperature is equal to or lower than the battery temperature, that is, normal.
(2) Control is performed so as to stop the operation of the fan 3 until the predetermined time Tsp elapses after the engine is stopped.
When any one of these controls is performed, the battery control means 6 limits the charging power of the charger 2 .
At this time, the battery control means 6 limits the charging power to be equal to or less than a normal predetermined value when the charger 2 is being externally charged and the control is being executed.
The charge power can be rephrased as a charge limit power map (simply “power map” or “charge / discharge map”) composed of the maximum battery temperature (° C.) and the battery charge state SOC (%) disclosed in Table 2 below. .) Based on an example.
Thereby, at least when the output of the fan 3 is limited, an increase in battery temperature during charging can be suppressed.

The battery control means 6 causes the fan 3 to intermittently operate when the fan stop condition of the control for stopping the operation of the fan 3 described above is not established and released, and fan blowing is possible.
At this time, the time interval of the intermittent operation of the fan 3 is set to the control time interval Tlg longer than the normal time interval Tnorm when the outside air temperature exceeds the battery temperature.
When the outside air temperature becomes equal to or lower than the battery temperature, the time interval of the intermittent operation of the fan 3 is returned from the control time interval Tlg to the normal time interval Tnorm.
Then, until the battery is fully charged, the control by the normal time interval Tnorm and the control by the control time interval Tlg are repeatedly performed with respect to the time interval of the intermittent operation of the fan 3.
Accordingly, it is possible to suppress an increase in the battery temperature without adding parts / mechanisms and to prevent excessive energy from being used for driving the fan.

DESCRIPTION OF SYMBOLS 1 Battery cooling device 2 Charger 3 Fan 4 Battery temperature sensor 5 Cooling air temperature sensor 6 Battery control means (it is also called "battery controller")
7 Vehicle controller 8 Engine controller

Claims (3)

  A rechargeable battery, a blowing means for blowing the outside air to the battery to cool the battery, a battery temperature detecting means for detecting the temperature of the battery, and an outside air for detecting the temperature of the outside air blown by the blowing means In the battery cooling device comprising temperature detecting means and battery control means for stopping the operation of the air blowing means when the temperature of the battery becomes equal to or lower than a set value, the air blowing means controls the amount of air to be blown. The battery control means has an adjustable function, and the battery control means, when the operation of the air blowing means is executed, the outside air temperature obtained by the outside air temperature detection means exceeds the battery temperature obtained by the battery temperature detection means. When the outside air temperature is lower than the battery temperature, the air flow of the blowing means is controlled to be smaller than when the outside air temperature is lower than the battery temperature. That battery cooling device.   2. The battery according to claim 1, wherein the battery control unit performs control to stop the operation of the air blowing unit until a predetermined time elapses after the engine mounted on the vehicle is stopped. Cooling system.   3. The battery cooling device according to claim 1, wherein when the battery is being externally charged and the control is being executed, the battery control unit limits the charging power of the battery.