KR20130055179A - Charging system connection type apparatus and method for managing temperature of battery - Google Patents

Abstract

PURPOSE: A charging system connection type apparatus is provided to easily control temperature of a battery by using electricity supplied through an external charging system, without battery consumption. CONSTITUTION: A charging system connection type apparatus comprises a signal input and output part(100) which displays various information; a time/period setting part(200) transfers confirmation signal to a communication part at a specific set time or period; the communication part(300) which confirms whether charging of the battery is finished and collecting current temperature of a battery; and a temperature maintenance part(400) increasing and decreasing the battery temperature. [Reference numerals] (100) Signal input and output part; (20) Charger; (200) Time/period setting part; (300) Communication part; (400) Temperature maintenance part; (410) Temperature determination module; (420) Supply control module; (AA) Battery

Description

Charging system linked battery temperature management device and its method {CHARGING SYSTEM CONNECTION TYPE APPARATUS AND METHOD FOR MANAGING TEMPERATURE OF BATTERY}

The present invention relates to a battery temperature management apparatus and method for an electric vehicle, and more particularly, in the standby state associated with a charging system, the temperature of the battery is lowered to below zero due to environmental exposure, or is exposed to a high temperature environment of the battery. The present invention relates to a device and a method for raising or lowering the temperature of a battery to an appropriate level at a predetermined time or a predetermined period by using power supplied from an external charging system when the temperature is out of an appropriate range.

When an electric power is supplied from an external power system to charge an in-vehicle battery, such as an electric vehicle or a plug-in hybrid car, a long-time charging time may be increased when the in-vehicle battery is charged with AC power. It will cost. Therefore, it is common for a user to connect a vehicle to a charging stand or a wall-mounted charging control device for charging and to leave it unmanaged for a long time.

At this time, in a situation where the battery in the vehicle is being charged, a battery management system (hereinafter, referred to as 'BMS') may control the battery cooling system or the heating system so that the battery temperature is maintained within an appropriate range.

However, when the battery is not charged and the BMS enters the Off mode or the Sleep mode and is not operated, there is a concern that the battery temperature may be very low or very high beyond the proper range as the vehicle is exposed to the external environment for a long time. In addition, such a situation causes the battery to not properly express its performance when the user wants to operate the vehicle at a desired time or to operate the electronic device requiring high power.

Therefore, it is necessary to adjust the battery temperature that is too low or too high in the neglect situation after charging, in which the vehicle is exposed to the external environment for a long time, to be in an appropriate temperature range before the time when the user intends to use the vehicle.

On the other hand, with respect to the conventional battery temperature management device, a number of applications and publications other than Korea Patent Publication No. 10-1999-0043773 (hereinafter referred to as "prior literature") has been disclosed.

An apparatus according to the prior document comprises a tray; A main battery located in the tray and used as a power source of an electric vehicle; An air inlet for forming air in any one of both sides of the tray to introduce air into the tray; An air outlet port forming a hole on an opposite side of the air inlet port formed at one side of the tray to discharge air introduced into the tray; A cooling fan provided in the air outlet hole for forcibly discharging the air introduced into the tray; A temperature sensor detecting a temperature in the tray; A battery temperature control apparatus for an electric vehicle, comprising a control device for controlling an operation of the cooling fan according to a temperature detected by the temperature sensor, the apparatus comprising: a thermoelectric module configured to perform heating and cooling provided in the inlet hole; A controller which is configured by a relay to control the on / cooling state of the thermoelectric module and is controlled by a control signal output from the controller; An auxiliary battery for supplying power to the controller; It is made, including.

However, the prior art as in the prior art has a limitation in that a separate auxiliary battery for supplying power to the controller is provided therein.

The present invention has been made in view of the above problems, it is exposed to a low temperature environment for a long time in a state associated with an external charging system, the temperature of the battery is lower than the appropriate range, or exposed to a high temperature environment, the temperature of the battery is appropriate In the case of being increased beyond the range, it provides a device and method that can increase or decrease the battery temperature to an appropriate level according to the time when the user uses the electric vehicle by using the power supplied from the external charging system without consuming the battery power. The purpose is.

The present invention for achieving the technical problem relates to a battery temperature management device linked to the charging system, and receives various control signals of the user, including the operation signal, to the battery temperature management including information calculated and generated according to the control signal A signal input / output unit for displaying various kinds of information related to the information; A time / cycle setting unit configured to receive an operation cycle or an operation time of the device when the temperature management request signal is input through the signal input / output unit, and to transmit a confirmation signal to the communication unit when the operation cycle or operation time is reached; A communication unit configured to check whether the battery is normally connected to an external charging system at a set operation cycle or operation time according to the confirmation signal of the time / period setting unit, determine whether the battery is currently in a standby state, and collect current temperature information of the battery; And a temperature manager configured to determine whether to supply external power based on current temperature information of the battery collected through the communication unit, and supply or reduce the temperature of the battery. .

On the other hand, the present invention relates to a charging system linked battery temperature management apparatus method, (a) when the temperature management request signal is input through the signal input and output unit, the time / period setting unit is set to receive the operating cycle or operating time of the device Making; (b) the communication unit checks whether the communication unit is normally connected to the external charging system through the connection of the charging inlet and the charging connector at the set operation cycle or operation time according to the confirmation signal of the time / cycle setting unit, and is connected to the BMS and the OBC, Checking whether the battery is in a standby state in which charging is completed; (c) collecting, by the communication unit, current temperature information of a battery; (d) determining whether the current temperature of the battery collected through the communication unit exceeds a maximum value of an appropriate temperature range in a standby state in which charging is normally completed and normally connected to an external charging system; (e) As a result of the determination of step (d), if the current temperature of the battery exceeds the maximum value of the proper temperature range, the temperature manager determines that the abnormal situation, so that the power supply to the cooling system is performed BMS and OBC Operating by transmitting a command to and receiving power from the external charging system; And (f) lowering the temperature of the battery by operating the cooling system of the battery using the power supplied by the temperature management unit. .

According to the present invention as described above, when the temperature of the battery is lowered below zero due to environmental exposure in the standby state associated with the charging system, or when exposed to a high temperature environment the temperature of the battery is out of an appropriate range, Without consumption, by using the power supplied through the external charging system, the user can easily adjust the temperature of the battery to an appropriate level in advance in accordance with the point of time to use the vehicle.

1 is an overall configuration diagram conceptually showing a charging system linked battery temperature management apparatus according to the present invention.
2 is an overall flowchart of a charging system linked battery temperature management method according to the present invention.

Specific features and advantages of the present invention will become more apparent from the following detailed description based on the accompanying drawings. It is to be noted that the detailed description of known functions and constructions related to the present invention is omitted when it is determined that the gist of the present invention may be unnecessarily blurred.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will now be described in detail with reference to the accompanying drawings.

The charging system associated battery temperature management apparatus according to the present invention will be described with reference to FIG. 1 as follows.

1 is an overall configuration diagram conceptually showing a charging system associated battery temperature management apparatus (A) according to the present invention, as shown in the signal input and output unit 100, time / period setting unit 200, communication unit ( 300 and the temperature management unit 400.

The signal input / output unit 100 receives various control signals of a user including an operation signal and displays various information regarding battery temperature management, including information calculated and generated according to the control signal. That is, the signal input / output unit 100 according to the present invention may be a device including a touch screen, a speaker, etc., capable of inputting a key, or an input unit and an output unit may be separately configured.

When the temperature management request signal is input through the signal input / output unit 100, the time / period setting unit 200 receives and sets an operation cycle or an operation time of the device. When the set operation period or operation time is reached, the communication unit ( And transmits a confirmation signal.

At this time, the operation cycle or the operation time of the temperature management device is a point in time before the user wants to use the vehicle (a time required to increase or decrease the temperature of the battery), and the battery temperature management device does not always operate. By operating according to a set operating time or operating cycle, there is an advantage that can reduce unnecessary standby power.

The communication unit 300 normally connects to the charging inlet 30 and the charging connector 40 at the set operation cycle or operation time according to the confirmation signal of the time / period setting unit 200, and external charging system such as an external charging stand. Check that it is connected to (50).

In addition, the communication unit 300 is connected to a battery management system (Battery Management System) (hereinafter referred to as 'BMS') 10 and the on-board charger (hereinafter referred to as 'OBC') 20, the BMS (10) and control signals to the OBC 20 are communicated.

Specifically, through communication between the BMS 10 and the OBC 20, it is checked whether the battery is currently in a charging state or a standby state in which charging is completed, and collects current temperature information of the battery.

At this time, when charging, the temperature management apparatus waits until the next operation cycle or operation time, and when the charging is completed and in the standby state, the operations of the BMS 10 and the OBC 20 are controlled.

On the other hand, when the current temperature information of the battery is not collected, the communication unit 300 determines that the BMS 10 is in the Sleep Mode state, operates the BMS 10 in the wake-up state, and collects the current temperature information. can do.

Normally connected to the external charging system, in the standby state in which the battery charging is completed, the temperature management unit 400 determines whether the external power supply based on the current temperature information of the battery collected through the communication unit 300, A function of supplying power to increase or decrease the temperature of the battery includes a temperature determination module 410 and a supply control module 420 as shown in FIG. 1.

The temperature determination module 410 compares the current temperature of the battery collected through the communication unit 300 with a value of an appropriate temperature range.

Specifically, the temperature determining module 410 determines whether the current temperature of the battery collected through the communication unit 300 exceeds the maximum value of the proper temperature range, and when the current temperature of the battery is less than or equal to the maximum value of the proper temperature range. In addition, it is determined whether the current temperature of the battery is less than the minimum value of the proper temperature range.

The supply control module 420 determines a normal situation or an abnormal situation according to a comparison of a current temperature of the battery and a value of an appropriate temperature range through the temperature determination module 410, and determines whether to supply power.

Specifically, when the current temperature of the battery exceeds the maximum value of the appropriate temperature range, the supply control module 420 determines that it is an abnormal situation, so that the power supply to the cooling system is performed by the BMS 10 and the OBC 20. By operating a command, and using the power supplied from the external charging system 50 to operate the cooling system of the battery, preferably a fan or a pump to lower the temperature of the battery, the battery input through the communication unit 300 If the current temperature information is within the proper temperature range, it is considered normal and cut off the power supply to the cooling system.

At this time, a fan for introducing external air at a relatively low temperature is operated by the air cooling method, and a cooling system is operated by using a pump.

In addition, when the current temperature of the battery is less than the minimum value of the appropriate temperature range, the supply control module 420 determines that it is an abnormal situation, and transmits a command to the BMS 10 and the OBC 20 to perform power supply to the heating system. By operating the heating system of the battery, preferably a fan and a heater or a pump and a heater, using the power supplied from the external charging system 50 to increase the temperature of the battery, and the battery input through the communication unit 300. If the current temperature information is within the proper temperature range, it is determined to be normal and cut off the power supply to the heating system.

On the other hand, when the current temperature of the battery is more than the minimum value of the appropriate temperature range, the supply control module 420 determines that the normal situation.

At this time, the fan (Fan) for introducing the air heated to a relatively high temperature by the heater in the air-cooled manner, and operates the pump (Pump) and the heater in the water-cooled manner.

In this embodiment, the supply control module 420 is set to supply power directly to the cooling system and the heating system by receiving power from the external charging system 50, the present invention is not limited to this, BMS ( 10) and the communication with the OBC 20 may be configured to transmit power to the cooling system and the heating system through the existing power supply path.

Hereinafter, a charging system linked battery temperature management method using the above-described device according to the present invention will be described with reference to FIG. 2.

FIG. 2 is a flowchart illustrating a method for managing a temperature system linked to a charging system according to an exemplary embodiment of the present invention. When a temperature management request signal is input through the signal input / output unit 100 as illustrated, the time / period setting unit 200 may be used. Sets and receives the operation cycle or operation time of the device (S10).

Subsequently, the communication unit 300 normally connects the charging inlet 30 and the charging connector 40 at the set operation cycle or operation time according to the confirmation signal of the time / period setting unit 200 to externally the external charging stand. Check whether it is connected to the charging system 50 (S20), connected to the BMS (10) and OBC (20), and checks whether the current battery charging is finished (S30), and collects the current temperature information of the battery (S40).

Thereafter, the battery is normally connected to an external charging system, and in a standby state in which battery charging is completed, the temperature determination module 410 of the temperature management unit 400 may determine that the current temperature of the battery collected through the communication unit 300 is an appropriate temperature. It is determined whether or not the maximum value of the range is exceeded (S50).

As a result of the determination in step S50, when the current temperature of the battery exceeds the maximum value of the appropriate temperature range, the supply control module 420 of the temperature management unit 400 determines that the abnormal situation, power supply to the cooling system is performed. The BMS 10 and the OBC 20 are transmitted to operate as much as possible (S60), and the electric power is supplied from the external charging system 50 (S70).

Thereafter, the supply control module 420 lowers the temperature of the battery by operating the cooling system of the battery, preferably a fan or a pump using the supplied power (S80), and the current temperature of the battery input through the communication unit 300. When the information enters within the appropriate temperature range it is determined that the normal situation and cut off the power supply to the cooling system (S90).

On the other hand, when the determination result of step S50, when the current temperature of the battery is less than the maximum value of the appropriate temperature range, the temperature determination module 410 determines whether the current temperature of the battery is less than the minimum value of the appropriate temperature range (S100).

As a result of the determination in step S100, when the current temperature of the battery is less than the minimum value of the appropriate temperature range, the supply control module 420 determines that the abnormal situation, so that the power supply to the heating system is performed to the BMS 10 and the OBC 20 In operation (S110), and receives power from the external charging system (50) (S120).

Then, the supply control module 420 increases the temperature of the battery by operating the heating system of the battery, preferably the fan and the heater or the pump and the heater by using the supplied power (S130), input through the communication unit 300 When the current temperature information of the battery enters the proper temperature range, it is determined to be in a normal situation and cuts off the power supply (S140).

On the other hand, when the determination result of step S100, when the current temperature of the battery is more than the minimum value of the appropriate temperature range, the supply control module 420 determines that the normal situation.

While the present invention has been particularly shown and described with reference to preferred embodiments thereof, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. It will be appreciated by those skilled in the art that numerous changes and modifications may be made without departing from the invention. Accordingly, all such appropriate modifications and changes, and equivalents thereof, should be regarded as within the scope of the present invention.

A: Battery temperature management system linked to charging system
100: signal input / output unit 200: time / period setting unit
300: communication unit 400: temperature management unit
410: temperature determination module 420: supply control module
10: Battery Management System (BMS)
20: On-board Charger (OCC)
30: charging inlet 40: charging connector
50: external charging system

Claims (12)

In the charging system linked battery temperature management device,
A signal input / output unit 100 which receives various control signals of a user including an operation signal and displays various information on battery temperature management including information calculated and generated according to the control signal;
When the temperature management request signal is input through the signal input / output unit 100, an operation cycle or an operation time of the device is input and set, and when a set operation cycle or operation time is reached, a confirmation signal is transmitted to the communication unit 300. A time / cycle setting unit 200;
At the set operation cycle or operation time according to the confirmation signal of the time / cycle setting unit 200, check whether the battery is normally connected to the external charging system 50, check whether the battery is currently in the standby state, and the current state of the battery Communication unit 300 for collecting the temperature information; And
A temperature manager 400 that determines whether to supply external power based on current temperature information of the battery collected through the communication unit 300, and supplies an external power to increase or decrease the temperature of the battery; Charging system linked battery temperature management device comprising a.
The method of claim 1,
The communication unit 300,
Charging system linked battery temperature management device, characterized in that the connection between the charging inlet 30 and the charging connector 40 to check whether the connection with the external charging system (50).
The method of claim 1,
The communication unit 300,
Standby state connected with the Battery Management System (BMS) 10 and On-board Charger (OBC) 20 to terminate the current battery charge. Charging system linked battery temperature management device, characterized in that the check.
The method of claim 1,
The temperature management unit 400,
A temperature determination module 410 that is normally connected to an external charging system and compares a current temperature of a battery collected through the communication unit 300 with a value of an appropriate temperature range in a standby state in which battery charging is completed; And
A supply control module 420 for determining a normal situation or an abnormal situation and determining whether to supply power according to a comparison between a current temperature of the battery and a value of an appropriate temperature range through the temperature determining module 410; Charging system linked battery temperature management device comprising a.
The method of claim 4, wherein
The temperature determination module 410,
It is determined whether the current temperature of the battery collected by the communication unit 300 exceeds the maximum value of the proper temperature range, and if the current temperature of the battery is less than or equal to the maximum value of the proper temperature range, the current temperature of the battery is the appropriate temperature range. Charging system linked battery temperature management device, characterized in that determining whether or not below the minimum value.
The method of claim 4, wherein
The supply control module 420,
If the current temperature of the battery exceeds the maximum value of the proper temperature range, it is determined that the abnormal situation, and operates by sending a command to the BMS (10) and OBC (20) to perform the power supply to the cooling system, the external charging Charging system linked battery temperature management device, characterized in that to lower the temperature of the battery by operating the cooling system of the battery using the power supplied from the system (50).
The method of claim 4, wherein
The supply control module 420,
If the current temperature of the battery is less than the minimum value of the appropriate temperature range, it is determined that the abnormal situation, and operates by transmitting a command to the BMS (10) and OBC (20) to perform the power supply to the heating system, the external charging system (50) Charging system-associated battery temperature management device, characterized in that to increase the temperature of the battery by operating the heating system of the battery using the power supplied from.
The method of claim 4, wherein
The supply control module 420,
If the current temperature information of the battery input through the communication unit 300 enters the proper temperature range, the charging system linked battery temperature management device, characterized in that it is determined to be a normal situation to cut off the power supply.
In the charging system linked battery temperature management apparatus method,
(a) when the temperature management request signal is input through the signal input / output unit 100, the time / period setting unit 200 receiving and setting an operation cycle or an operation time of the device;
(b) The communication unit 300 normally connects the charging inlet 30 and the charging connector 40 at a set operation cycle or operation time according to the confirmation signal of the time / period setting unit 200, and then performs an external charging system ( Checking whether it is connected to 50) and connected to the BMS 10 and the OBC 20 to determine whether the battery is currently in a standby state in which battery charging is completed;
(c) the communication unit 300 collecting current temperature information of a battery;
(d) Normally connected to the external charging system, in the standby state in which the battery charging is completed, the current temperature of the battery collected by the temperature management unit 400 through the communication unit 300 exceeds the maximum value of the appropriate temperature range Determining whether or not;
(e) As a result of the determination of step (d), when the current temperature of the battery exceeds the maximum value of the proper temperature range, the temperature management unit 400 determines that the abnormal situation, so that the power supply to the cooling system is performed. Operating by transmitting a command to the BMS 10 and the OBC 20, and receiving power from the external charging system 50; And
(f) lowering the temperature of the battery by operating the cooling system of the battery using the power supplied by the temperature manager 400; Charging system linked battery temperature management apparatus comprising a.
The method of claim 9,
After the step (f)
(g) when the current temperature information of the battery input through the communication unit 300 enters an appropriate temperature range, determining that the temperature management unit 400 is in a normal state to cut off power supply; Charging system linked battery temperature management apparatus comprising a.
The method of claim 9,
(h) when the current temperature of the battery is less than or equal to the maximum value of the proper temperature range as a result of the determination of step (d), the temperature manager 400 determines whether the current temperature of the battery is less than the minimum value of the proper temperature range. ;
(i) As a result of the determination in step (h), when the current temperature of the battery is less than the minimum value of the proper temperature range, the temperature management unit 400 determines that the abnormal situation, so that the BMS (10) to supply power to the heating system is performed. ) Operating by transmitting a command to the OBC 20 and receiving power from the external charging system 50; And
(j) increasing the temperature of the battery by operating the heating system of the battery using the power supplied by the temperature management unit 400; Charging system linked battery temperature management apparatus comprising a.
The method of claim 11,
After step (j),
(k) when the current temperature information of the battery input through the communication unit 300 enters an appropriate temperature range, determining that the temperature management unit 400 is in a normal state to cut off power supply; Charging system linked battery temperature management apparatus comprising a.

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