WO2013176379A1

WO2013176379A1 - System and method for aging battery unit of battery pack

Info

Publication number: WO2013176379A1
Application number: PCT/KR2013/001263
Authority: WO
Inventors: 박재홍; 양신현; 신한수
Original assignee: (주)피엠그로우
Priority date: 2012-05-25
Filing date: 2013-02-18
Publication date: 2013-11-28
Also published as: KR101338348B1; KR20130131859A

Abstract

The present invention relates to a method for maintaining and managing the battery of an electric vehicle, and more particularly, to a system and method for aging the battery unit of a battery pack that, in the event of a battery unit, such as a battery module or a battery cell, of the battery pack has decreased performance or is damaged, forcibly ages the battery unit to be replaced such that the performance of the battery unit to be replaced becomes similar to the performance of an existing battery unit so as to improve the entire performance of the battery pack even after the replacement of the battery unit. Since the replacement of individual battery units is possible in the battery pack, a usable battery cell in the same battery pack does not have to be discarded, and thus battery waste can be prevented so as to enable the efficient use of the battery. Also, the battery repair and maintenance costs can be reduced so as to increase the satisfaction of drivers of electric vehicles and increase the distribution of electric vehicles.

Description

Battery unit aging system and method of the battery pack

The present invention relates to a method of maintaining and managing a battery of an electric vehicle, and more particularly, when the performance of a battery unit such as a battery module or a battery cell of a battery pack is degraded or damaged, The present invention relates to a battery pack aging system and method of a battery pack for forcibly aging a battery unit to be replaced so that the performance of the battery unit to be replaced with that of the existing battery unit is improved to improve overall performance.

Recently, along with the demand for alternative energy due to the depletion of petroleum resources and environmental pollution, the demand for accumulators that can accumulate and use electric energy is spreading to various fields such as alternative energy storage systems such as fuel cells and electric vehicles.

In particular, for electric vehicles such as hybrid (HEV) vehicles, electric vehicles, electric bicycles, golf carts, and the like, high-density capacitors such as large-capacity lithium ion, lithium polymer, and nickel hydride batteries for the purpose of increasing driving speed and maximum driving distance Is commercialized.

In general, a battery for an electric vehicle includes a plurality of battery modules composed of a plurality of battery cells having a predetermined capacity and characteristics as a pack (hereinafter, referred to as a battery pack).

If the battery pack is configured to repeatedly charge and discharge according to the operation of the electric vehicle, the performance of the battery pack may be reduced in some battery units, such as battery cells or specific battery modules (hereinafter referred to as "battery units"). Is generated or broken, resulting in an imbalance between the battery units. As such, when the imbalance between the battery units occurs, the charge start voltage level and the charge end voltage level may be different, so that some battery units may not be fully charged or may be completely discharged, thereby degrading the performance of the battery pack. There was this.

In this case, conventionally, the entire existing battery pack should be discarded and replaced with a new battery pack.

Therefore, in the related art, when the battery breaks down, the entire battery pack needs to be replaced, so that the battery module and the battery cell that can be used are replaced, thereby causing a waste of the battery.

In addition, the electric vehicle driver has a problem that costs a lot because the entire battery pack must be replaced even for the failure of a specific battery unit.

As a result, electric vehicle drivers consume a lot of maintenance costs of the electric vehicle, and thus there is a problem that the activation and dissemination rate of the electric vehicle may be lowered.

Therefore, an object of the present invention is to replace the battery unit to replace the battery unit to improve the overall performance of the battery pack when the performance of the battery unit, such as battery module or battery cell of the battery pack is degraded or damaged, and the existing A battery pack aging system and method for a battery pack forcing the aging of a battery unit to be replaced so that the performance of the battery unit is similar.

The battery unit aging system of the battery pack according to the first embodiment of the present invention for achieving the above object is configured in a battery pack including a plurality of battery units, has a battery pack unique identification information, the battery A battery management system (BMS) for storing charge / discharge history of the unit; A battery life management server configured to receive battery pack identification information and charge / discharge history upon connection with the battery management system (BMS) and to manage each battery pack; And stores health state information for each battery unit type, which defines a health state according to the number of charge / discharge cycles for each battery unit type, receives identification information of a battery pack into which a battery unit is to be inserted, and receives the identification information from the battery life management server. After loading the charge / discharge history of the battery pack having a, obtain the number of forced charge-discharge cycles having the loaded charge-discharge history with reference to the health status information for each battery unit type, forcing the battery unit with the calculated number of forced charge-discharge cycles And a battery aging device for charging and discharging.

The health state information is at least one of the internal resistance and capacity of the battery unit, and the charge and discharge history is characterized in that at least one or more of the number of charge and discharge cycles, and the internal resistance and capacity of the battery unit.

The battery aging device may include a battery unit characteristic information storage unit configured to store health state information for each battery unit type that defines a health state according to the number of charge / discharge cycles for each battery unit type, and a charge / discharge history for each battery unit of the battery pack. A storage including a reference battery unit performance storage; A communication unit for performing data communication with the battery life management server; A battery unit charger supplying a charging current to the battery unit; A battery unit discharging unit for discharging power of the battery unit; And after receiving the identification information of the battery pack into which the battery unit is to be inserted from the battery life management server through the communication unit, loading the charge / discharge history of the battery pack having the identification information from the battery life management server, Obtaining the number of virtual charge / discharge cycles having a health state corresponding to the loaded charge / discharge history with reference to state information, and forcibly charging and discharging the battery unit by controlling the unit charging unit and the unit discharge unit by the obtained number of virtual charge / discharge cycles. It characterized in that it comprises a control unit.

The battery management system further measures and stores a battery unit charge / discharge environment for each charge / discharge cycle number, and further provides the battery unit charge / discharge environment information when the battery life management server is connected, and the battery aging device includes: A battery unit aging box configured to allow the battery unit to be inserted therein, an environmental composition unit for adjusting an environment inside the battery unit aging box, and a battery unit aging box for measuring and outputting an environment inside the battery unit aging box The apparatus further includes an environment measuring unit, wherein the controller of the battery aging device further receives the environment information from the battery life management server, and measures the environment information and the aging box environment measuring unit in real time. The environment creation part with reference to the environment After adjustment to correspond to a control by the battery unit receiving the aging of the environment inside the box environment information it is characterized in that charging and discharging force for the battery unit to the number of the charging and discharging cycle.

The environmental composition unit is characterized in that it comprises a humidifier for controlling the humidity inside the battery unit aging box.

The environmental composition unit may include at least one of a heater for increasing a temperature inside the battery unit aging box, an air conditioner for lowering a temperature inside the battery unit aging box, and fans for introducing and discharging air into the battery unit aging box. It characterized in that it further comprises.

The battery pack further measures and stores a battery unit charge / discharge environment for each charge / discharge cycle number, and provides a charge / discharge history further including the battery unit charge / discharge environment information when the battery life management server is connected. The battery unit characteristic information storage unit stores health state information for each battery unit type that defines the number of charge / discharge cycles for each battery unit and a health state according to a battery environment, and the controller of the battery aging device is configured to store the environment from the battery life management server. Receives the charge and discharge history further comprising information, obtains the number of virtual charge and discharge cycles having a health state corresponding to the charge and discharge history including the environmental information, and the unit charging unit and the unit discharge unit by the number of virtual charge and discharge cycles obtained To control charging and discharging the battery unit It features.

The battery pack further stores whether the battery unit is charged or discharged at the time of charging or discharging, in the battery unit charging / discharging history, and the battery aging device stores the battery unit according to the information on whether the charging or discharging is rapid or slow charging / discharging. It is characterized by performing a rapid or slow charge and discharge.

The battery aging apparatus further includes a battery unit aging measuring unit for measuring a health state of the battery unit to be inserted into the battery pack, wherein the control unit reflects the health state of the battery unit measured by the battery unit aging measuring unit And estimating the number of forced charge and discharge cycles.

The battery unit aging system of the battery pack according to the second embodiment of the present invention for achieving the above object, is configured inside the battery pack has a unique identification information, comprises a plurality of battery units, the battery unit A battery management system for storing a charge / discharge history of the battery; And a means for connecting the battery pack with the battery management system, storing health state information for each battery unit, which defines a state of health according to the number of charge / discharge cycles for each battery unit type, and inserts an arbitrary battery unit. After the charging and discharging history is loaded from the battery pack when the battery management system is connected, the number of virtual charging and discharging cycles corresponding to the loaded charging and discharging history is obtained by referring to the health state information for each battery unit type. And a battery aging device for forcibly charging and discharging the battery unit at a number of charge and discharge cycles.

The health state information is at least one of an internal resistance and a capacity of the battery unit, and the charge and discharge history is characterized in that at least one or more of the number of charge and discharge cycles, and the internal resistance and capacity of the battery unit.

The battery aging device may include a battery unit characteristic information storage unit configured to store health state information for each battery unit type that defines a health state according to the number of charge / discharge cycles for each battery unit type, and to store health state information for each battery unit of the battery pack. A storage unit including an existing battery unit performance storage unit; A communication unit connected through the battery pack connection unit to perform data communication with the battery pack; A battery unit charger supplying a charging current to the battery unit; A battery unit discharging unit for discharging power of the battery unit; And load the charge / discharge history of the battery pack from the battery pack through the communication unit with the identification information of the battery pack into which the battery unit is to be inserted, and refer to the health state information for each battery unit type to correspond to the loaded charge / discharge history. And a controller for obtaining the number of virtual charge / discharge cycles having a state and forcibly charging / discharging the battery unit by controlling the unit charging unit and the unit discharge unit by the obtained number of virtual charge / discharge cycles.

The battery pack further measures and stores a battery unit charge / discharge environment for each charge / discharge cycle number, and provides a charge / discharge history further including the battery unit charge / discharge environment information when the battery pack is connected, and the battery aging The apparatus includes a battery unit aging box configured to allow the battery unit to be inserted therein, an environmental composition unit for adjusting an environment inside the battery unit aging box, and a battery for measuring and outputting an environment inside the battery unit aging box. A unit aging box environment measuring unit is further provided, wherein the controller of the battery aging apparatus further receives the environment information from the battery pack, and is measured in real time by the environment information and the aging box environment measuring unit. To control the environmental composition by referring to the environment After adjustment to correspond to the battery units aging box interior of the environment in the received environment information, characterized in that charging and discharging force for the battery unit to the number of the charging and discharging cycle.

The battery management system further includes whether to charge or discharge during charging or discharging further includes a battery unit charging and discharging history, the battery aging device according to the information whether the fast or slow charging and discharging of the charging and discharging history of the battery unit It characterized in that to perform a rapid or slow charge and discharge.

The battery aging apparatus further includes a battery unit aging measuring unit for measuring a health state of the battery unit to be inserted into the battery pack, wherein the control unit reflects the health state of the battery unit measured by the battery unit aging measuring unit And estimating the number of battery unit forced charge / discharge cycles.

In the battery unit aging method of the battery pack according to the first embodiment of the present invention for achieving the above object, the charge and discharge history storage to collect and store the charge and discharge history of a plurality of battery units of the battery pack battery management system And a battery pack information collecting process of collecting and managing a charge / discharge history including unique identification information of the battery pack from the battery management system when the battery life management server is connected to the battery management system of the battery pack, and battery aging. When the device is connected to the battery life management server, when the identification information of the battery pack into which the battery unit is to be inserted is received, the battery pack history information corresponding to the battery pack identification information is received and stored from the battery life management server. Battery pack health information collection process and the battery A Battery unit for obtaining the number of forced charging and discharging cycles of the battery unit corresponding to the collected battery pack history information by referring to the health state information for each battery unit, which defines the health state according to the number of charge and discharge cycles for each battery unit type in which the device is stored in advance And a forced charging and discharging process of forcibly charging and discharging the battery unit to be inserted into the battery pack by the battery aging device for the number of forced charging and discharging cycles.

In the charging / discharging history storing process, the battery management system further measures environmental conditions of battery units to further store environmental information, and further provides the environmental information to a battery life management server in the battery pack information collecting process, wherein the battery After the aging device collects the environmental information further in the process of collecting the battery pack health state information, the environment information of the environment inside the battery unit aging box into which the battery unit is inserted is measured while measuring the environmental state in the battery unit aging box in real time. The method may further include an aging box environment creation process configured to correspond to the aging box environment, wherein the battery aging apparatus performs the forced charging and discharging process after performing the aging box environment creation process.

The battery aging apparatus further includes a battery unit health state measuring process of measuring a health state of the battery unit to be inserted, and forcing the battery unit by reflecting the health state of the battery unit measured in the battery unit health state measuring process. It is characterized by obtaining the number of forced charge and discharge cycle of the battery unit of the charge-discharge cycle number measuring process.

The health state information may be an internal resistance or a capacity of a battery unit according to a battery charge / discharge cycle.

The environmental information may include temperature and humidity inside the battery unit aging box.

In the battery unit aging method of the battery pack according to the second embodiment of the present invention for achieving the above object, the charge and discharge history storage to collect and store the charge and discharge history of a plurality of battery units of the battery pack battery management system And a process for collecting target battery pack health state information for receiving and storing the battery pack history information from the battery management system in a state where the battery aging device is connected to the battery management system, and the battery aging device pre-stored. A battery unit charge / discharge cycle count measurement process for calculating the number of forced charge / discharge cycles of a battery unit corresponding to the collected battery pack history information by referring to health state information for each battery unit type that defines a health state according to the number of charge / discharge cycles for each battery unit type. And, the battery aging device By the battery unit to force the charge-discharge cycle number determined group is characterized in that it comprises a forced charge-discharge procedure for forcibly charging and discharging the battery unit to be inserted into the battery pack.

In the charging / discharging history storing process, the battery management system further measures environmental conditions of the battery units to further store environmental information, and the battery aging device further collects the environmental information in the battery pack health state information collecting process. The method may further include an aging box environment creation process for creating an environment inside the battery unit aging box into which the battery unit is inserted to correspond to the environment information while measuring an environmental state inside the battery unit aging box in real time. The forced charging and discharging process is performed after the aging box environment composition process is performed.

The battery aging apparatus further includes a battery unit health state measuring process of measuring a health state of the battery unit to be inserted, and forcing the battery unit by reflecting the health state of the battery unit measured in the battery unit health state measuring process. It is characterized by obtaining the number of charge and discharge cycle of the battery unit of the charge and discharge cycle number measurement process.

Since the present invention can replace the battery unit in the battery pack without degrading the overall performance of the battery pack, there is no need to dispose of the available battery unit in the battery pack to prevent waste of the battery and to use the battery efficiently Has the effect.

In addition, the present invention is to perform the charging and discharging by directly or indirectly reflecting the environment, such as temperature, humidity, etc. where the existing battery units in the battery pack actually performed the charging and discharging, thereby replacing the performance of the battery unit to be replaced It has an effect that can be more closely matched to the performance, which has the effect of not degrading the performance of the battery pack.

In addition, the present invention measures the performance of the battery unit to be replaced, and based on the measured performance of the aging to be similar to the performance of the existing battery unit to use not only new battery unit, but also usable used battery unit as a replacement battery unit Has the effect.

In addition, the present invention has the effect of improving the satisfaction rate of the electric vehicle driver to improve the penetration rate of the electric vehicle because the battery maintenance cost is low because only the replacement of the battery unit is degraded or failed.

1 is a view showing the configuration of a battery unit aging system of a battery pack according to the present invention.

2 is a block diagram showing the configuration of a battery aging device of a battery unit aging system of a battery pack according to the present invention.

3 is a flowchart illustrating a method of aging a battery unit of a battery pack according to a first embodiment of the present invention.

4 is a flowchart illustrating a method of aging a battery unit of a battery pack according to a second embodiment of the present invention.

5 is a flowchart illustrating a method of aging a battery unit of a battery pack in a battery aging apparatus according to an embodiment of the present invention.

6 is a graph showing a change in internal resistance and capacity of a battery cell according to the number of charge and discharge cycles according to the present invention.

7 is a graph showing a charging capacity curve according to the number of charge and discharge cycles according to the present invention.

Hereinafter, a configuration and operation of a battery aging system according to the present invention will be described with reference to the accompanying drawings, and an electric vehicle battery unit aging method in the system will be described.

The battery aging system according to the present invention includes a battery aging apparatus 100, a battery pack 200, and a battery life management server 500 according to the first embodiment, and the battery aging apparatus 100 according to the second embodiment. And a battery pack 200.

The battery life management server 500 according to the first embodiment is connected to the battery pack 200 and the battery aging apparatus 100 through a wired / wireless data communication network 250 to perform data communication. However, the battery aging apparatus 100 according to the first embodiment does not perform data communication with the battery pack 200.

However, the battery aging apparatus 100 according to the second embodiment is directly connected to the battery pack 200 or connected through a wired or wireless data communication network 250 to perform data communication.

The wired / wireless data communication network 250 includes a wide area network (WAN), a Wi-Fi (WiFi) network, a Bluetooth (PAN) network formed by a Bluetooth or Zigbee, or a 3G or 4G mobile communication network. It may be one, but it would be desirable to be composed of a broadband network and a Wi-Fi network.

The battery pack 200 is an interface unit 210 capable of performing data communication by connecting to the wired / wireless data communication network 250 according to the first embodiment of the present invention, and a plurality of battery modules 400 including a plurality of battery cells. And a battery unit 230 including a sensor unit 380 for measuring health and environmental conditions of the battery cells, and a battery for storing and managing the measured environmental information and state of health (SOH). It includes a Battery Management System (BMS). The BMS is included in the main BMS 220 and the battery unit 230 for monitoring and managing the battery status of the entire battery modules 400 in the battery pack 200 and the status of the battery cells in the battery module 400. There is a Sub BMS 300 that monitors and manages. In the present invention, since battery performance information may be received from one of the Main BMS 220 and the Sub BMS 300, the present invention will be described without distinguishing between Main and Sub. When the BMS of the battery pack 200 is connected to the wired / wireless data communication network 250 through the interface unit 210 according to the first embodiment, the health status information and the environmental information are uniquely transmitted to the battery life management server 500. Along with the battery pack identification information, according to the second embodiment provides the health status information and environmental information to the battery aging device 100 through the interface unit 150.

The battery life management server 500 is configured according to the first embodiment of the present invention, and receives battery pack identification information and charge / discharge history when connected to the battery management system and manages the battery packs for each battery pack.

The battery aging device 100 stores health state information for each battery unit type, which defines a health state according to the number of charge / discharge cycles for each battery unit type, and receives identification information of a battery pack into which a battery unit is to be inserted. After the charge / discharge history of the battery pack having the battery pack identification information is loaded from the

BMS

220 or 300 of the management server 500 or the battery pack 200, the loaded charge is referred to by referring to the health state information for each battery unit type. The number of charge and discharge cycles having the same health state corresponding to the discharge history is obtained, and the battery unit is forcibly charged and discharged by the obtained number of charge and discharge cycles. The charge / discharge history includes at least one of the number of charge / discharge cycles, the battery health state information at each number (at each charge / discharge) or the final number, and the environmental information at each number.

2 is a block diagram illustrating a configuration of a battery aging device of a battery unit aging system of a battery pack according to the present invention. Hereinafter, a detailed configuration and detailed operation of the battery aging apparatus will be described with reference to FIG. 2.

The battery aging apparatus 100 includes a control unit 10, a storage unit 20, an input unit 30, a display unit 40, a communication unit 50, a battery unit discharge unit 60, an environmental composition unit 70, and a battery unit charging unit. And a battery unit aging box 90 including a battery unit aging measuring unit 91 and an aging box environment measuring unit 92 and into which the battery unit 93 is inserted.

The controller 10 controls the overall operation of the battery aging apparatus 100 according to the present invention. Specific operations of the controller 10 will be described in detail with reference to the operations of the following components when the following components are described.

The storage unit 20 includes a battery unit characteristic information storage unit 21 for storing health state information for each battery unit type that defines a health state according to the number of charge / discharge cycles for each battery unit type, as illustrated in FIGS. 6 and 7, which will be described later. A reference battery unit performance storage unit for storing health status information of the battery units of the battery pack 200 into which the battery unit to be aged (Aging) is inserted, environmental information in the battery pack 200 and the number of charge / discharge cycles, etc. 22) and a replacement battery unit aging information storage unit 23 for storing health state information of the battery unit to be replaced. The health state information stored in the battery unit characteristic information storage unit 21 may define health state information (internal resistance, capacity) according to the environment, that is, temperature and humidity, as well as the number of charge and discharge cycles. In this case, the environment inside the battery unit aging box 90 to be described later will not need to be arbitrarily created.

The input unit 30 includes a plurality of keys for inputting various information and outputs key data about the pressed key to the controller 10 or outputs coordinate data of a position touched by the user to the controller 10. It may be a touch pad.

The display unit 40 may display various information such as health information of the battery unit and the battery unit of the battery pack 200 to be inserted, environmental information of the battery pack 200, and the number of charge / discharge cycles due to forced aging. To be displayed.

The communication unit 50 is connected to the wired / wireless data communication network 250 or the interface unit 210 of the battery pack 200 to perform data communication with the

BMS

220 or 300 of the battery life management server 500 or the battery pack 200. Perform.

The battery unit discharge unit 60 receives the rapid discharge and the slow discharge from the control unit 10, and applies a load having different resistances according to the applied control signal to force discharge the power of the battery unit 93. In FIG. 2, the battery unit discharging unit 60 is illustrated as being configured outside the battery unit aging box 90. However, the battery unit discharging unit 60 may be configured inside the battery unit aging box 90.

The environment composition unit 70 is configured inside and / or outside the battery unit aging box 90 to adjust the environment inside the battery unit aging box 90 to satisfy an arbitrary condition. The environment may be temperature and humidity.

Therefore, the environmental composition unit 70 is driven under the control of the control unit 10 to emit heat and control the air conditioner 72 and the control unit 10 to emit cold air under the control of the control unit 10. It may include at least one or more of the fan 73 for receiving and driving to ventilate the air inside the battery unit aging box 90 and the humidifier 74 for driving and spraying water under the control of the controller 10. There will be. However, the humidifier 74 to adjust the humidity that can have a relatively large effect on charging and discharging will be preferably included in the environmental composition (70).

The battery unit charger 80 is driven under the control of the controller 10 and converts power input from the outside into a charging current and outputs it to the battery unit 93 inserted into the battery unit aging box 90. The controller 10 may control the battery unit charging unit 80 by distinguishing whether the number of charge / discharge cycles is rapid charging or slow charging. At this time, the battery unit charging unit 80 provides different charging currents to the battery unit 93 depending on whether it is fast charging or slow charging.

The battery unit aging box 90 measures the health of the battery unit 93 inserted therein and an aging box for measuring the environment inside the battery aging box and outputting the measurement to the controller 10. Environmental measurement unit 92 is included.

The battery unit aging measuring unit 91 measures a health state such as an internal resistance value and a capacity of the battery unit 93 inserted into the battery unit aging box 90, and outputs the state of health to the controller 10. However, the battery unit aging measuring unit 91 may be configured outside the battery unit aging box.

The aging box environment measuring unit 93 is formed by the environment composition unit 70 and measures the environmental state inside the battery unit aging box 90 and outputs the result to the control unit 10.

3 is a flowchart illustrating a method of aging a battery pack of a battery pack according to a first embodiment of the present invention, in which the battery aging apparatus 100 replaces a battery unit from a battery life management server 500. It shows a case of receiving health status information and environmental information for the existing battery units.

First, the

BMS

220 or 300 checks whether the battery life management server 500 is connected through the interface unit 210 (S313).

When the battery life management server 500 is connected, the

BMS

220 or 300 may include a battery state including battery pack identification information, which is its own unique identification information, along with health status and environmental information of the battery measured by the sensor unit 380. Information is transmitted to the battery life management server 500 (S315). The battery life management server 500 stores and manages each battery pack 200 when the battery state information is received.

The battery aging apparatus 100 checks whether a battery unit aging event occurs (S317). The battery unit aging event may be generated by a user's command through the input unit 30 or may be configured to automatically occur when the battery unit 93 is inserted into the battery unit aging box 90.

When the battery unit aging event occurs, the battery aging apparatus 100 requests the battery life management server 500 for status information of the battery pack into which the aging target battery unit is to be inserted (S321), and in response thereto, the battery pack 200. In response to the status information of), the battery unit 93 inserted into the battery unit aging box 90 is forcibly aging according to the status information of the corresponding battery pack 200 (S323).

4 is a flowchart illustrating a method of aging a battery pack of a battery pack according to a second embodiment of the present invention, in which the battery aging device 100 is directly connected to the interface unit 210 of the

BMS

220 or 300 or wired / wireless data. It shows a case where the battery state information is directly connected through the communication network 250.

First, the battery aging apparatus 100 checks whether a battery unit aging event occurs (S411).

When the battery unit aging event occurs, the battery aging apparatus 100 checks whether the

BMS

220 or 300 is connected (S413).

When the

BMS

220 or 300 is connected, the battery aging device 100 requests the battery state information (S415), and when the battery state information is received in response (S417), the battery unit 93 according to the received battery state information. Force aging (S419).

5 is a flowchart illustrating a method of aging a battery pack of a battery pack in a battery aging device according to an exemplary embodiment of the present invention, and FIG. 6 illustrates a change in internal resistance and capacity of a battery cell according to the number of charge / discharge cycles according to the present invention. 7 is a graph showing a charge capacity curve according to the number of charge and discharge cycles according to the present invention. 6 and 7 illustrate changes in capacity and internal resistance when the battery unit is a lithium ion cell at room temperature (22 to 25 ° C.) and general humidity (40% to 60%). It may vary.

Hereinafter, a method of aging a battery unit according to the present invention will be described in detail with reference to FIGS. 5 to 7.

First, the controller 10 of the battery aging apparatus 100 checks whether a battery unit aging event occurs (S511). As described above, the battery unit aging event may occur when a battery unit aging command through the input unit 30 is input or may occur when a battery unit 93 to be replaced is inserted into the battery unit aging box 90. .

In the former case, when the battery unit aging event occurs, the controller 10 requests the replacement battery unit to be inserted into the battery aging box (S513), and checks whether the battery unit is inserted (S515).

When the battery unit 93 is inserted, the controller 10 measures the battery health state of the battery unit 93, that is, the performance of the battery unit 93 through the battery unit aging measuring unit 91, and measures the measured battery health state information. Is stored in the replacement battery unit aging information storage unit 23 (S517).

When the battery unit 93 is inserted into the battery unit aging box 90 as described above and the health state of the battery unit 93 is measured, the controller 10 checks whether the information providing apparatus is connected (S519). The information providing apparatus may be the battery life management server 500 according to the first embodiment of the present invention, or may be the

BMS

220 or 300 of the battery pack 200 according to the second embodiment.

If the information providing apparatus is a BMS, the controller 10 requests battery performance information from the BMS 220 or 300 (S523).

On the other hand, if the information providing device is the battery life management server 500, the request through the display unit 40 to input the identification information of the battery pack to insert the battery unit 93 (S525), the battery pack identification information is input If it is checked (S527), the battery life management server 500 requests the battery pack performance information by transmitting a battery pack performance information request signal including the battery pack identification information (S529).

When the performance information of the battery pack 200 is requested according to the first or second embodiment, the controller 10 checks whether the battery pack performance information is received from the information providing apparatus (S531).

When the battery pack performance information is received, the controller 10 stores the corresponding battery pack performance information in the reference battery unit performance storage 22 (S533).

When the performance of the battery unit 93 and the existing battery units of the battery pack 200 to be newly inserted into the battery pack is stored as described above, the controller 10 stores the battery unit characteristic information without considering the performance of the battery unit 93. The existing state of the battery pack 200 stored in the reference battery unit performance storage 22 with reference to the health state information for each battery unit type that defines the health state according to the number of charge / discharge cycles for each battery unit type stored in the unit 21. The number of charge and discharge cycles having the same or similar health state information as the health state information of the battery units is estimated (S535). In this case, the controller 10 may estimate the number of charge and discharge cycles with reference to only the internal resistance as shown in FIG. 6, or may estimate the number of charge and discharge cycles with reference to only the battery capacity as shown in FIG. 7, FIGS. 6 and 7. The number of charge and discharge cycles may be estimated by considering both the internal resistance and the capacity of. In consideration of both, the method may be estimated by estimating the number of charge / discharge cycles and calculating an average value, or may be estimated by applying a separate weight.

In addition, the controller 10 may estimate the number of charge and discharge cycles by reflecting the health state of the battery unit 93 to be inserted stored in the battery unit characteristic information storage unit 21 in estimating the number of charge and discharge cycles. . This will enable a more accurate estimation of the number of charge and discharge cycles when the battery unit 93 to be inserted is used. In general, when the battery unit 93 is used, several charges and discharges may have already been made. Therefore, the number of forced charge / discharge cycles for forced charging / discharging will be the number of charge / discharge cycles in the case of a new battery unit minus the number of charge / discharge cycles corresponding to the health state of the used battery unit.

When the number of forced charging and discharging cycles is estimated as described above, the controller 10 controls the battery unit charging unit 80 and the battery unit discharging unit 60 to forcibly charge and discharge the battery unit 93 by the number of forced charging and discharging cycles. It is repeated to age (S539, S541).

In addition, the controller 10 may refer to the environment of the battery unit aging box 90 through the environment composition unit 70 and the aging box environment measurement unit 80 during the forced charging and discharging of the battery unit 93. Existing battery units of the battery pack 200 stored in the 22 may be configured to correspond to the environmental information that was charged and discharged to perform charging and discharging. In this case, the health state information stored in the battery unit characteristic information storage unit 21 may be defined for each environment (temperature, humidity, etc.).

On the other hand, the present invention is not limited to the above-described typical preferred embodiment, but can be carried out in various ways without departing from the gist of the present invention, various modifications, alterations, substitutions or additions in the art Anyone who has this can easily understand it. If the implementation by such improvement, change, replacement or addition falls within the scope of the appended claims, the technical idea should also be regarded as belonging to the present invention.

[Description of the code]

10: control unit 20: storage unit

21: battery unit characteristic information storage unit

22: reference battery unit performance storage

23: Replacement battery unit aging information storage unit

30: input unit 40: display unit

50: communication unit 60: battery unit discharge unit

70: environmental composition part 71: heater

72: air conditioner 73: fan

74: humidifier 80: battery unit charging section

90: battery unit aging box 91: battery unit aging measuring unit

92: aging box environmental measurement unit 93: battery unit

100: battery aging device 200: battery pack

210: interface unit 220: main battery management system

230: battery unit 300: sub-battery management system

380: sensor unit 400: battery module

500: battery life management server

Claims

A battery management system configured in a battery pack including a plurality of battery units, the battery management system having identification information unique to the battery pack, and storing charge and discharge history of the battery unit;

A battery life management server receiving battery pack identification information and a charge / discharge history when managing the battery pack and managing the battery packs according to battery packs; And

Stores health state information for each battery unit type that defines a health state according to the number of charge / discharge cycles for each battery unit type, receives identification information of a battery pack into which an arbitrary battery unit is to be inserted, and receives the identification information from the battery life management server. After the charging and discharging history of the battery pack is loaded, the number of forced charge / discharge cycles having the loaded charge / discharge history is obtained by referring to the health state information for each battery unit type, and the battery unit is forcibly charged with the calculated number of forced charge / discharge cycles. Battery unit aging system of a battery pack including a battery aging device for discharging
The method of claim 1,

The health state information is at least one of an internal resistance and a capacity of the battery unit,

The charge and discharge history is at least one of the number of charge and discharge cycles, the internal resistance and the capacity of the battery unit, the battery unit aging system of the battery pack.
The method of claim 2,

The battery aging device,

A battery unit characteristic information storage unit for storing health state information for each battery unit type, which defines a health state according to the number of charge / discharge cycles for each battery unit type;

A storage unit including a reference battery unit performance storage unit to store a charge / discharge history of each battery unit of the battery pack;

A communication unit for performing data communication with the battery life management server;

A battery unit charger supplying a charging current to the battery unit;

A battery unit discharging unit for discharging power of the battery unit; And

After receiving the identification information of the battery pack into which the battery unit is to be inserted from the battery life management server through the communication unit, and loading the charge and discharge history of the battery pack having the identification information from the battery life management server, the health state for each battery unit type A controller for obtaining the number of virtual charge / discharge cycles having a health state corresponding to the loaded charge / discharge history and controlling the unit charging unit and the unit discharging unit to forcibly charge / discharge the battery unit by the obtained number of virtual charge / discharge cycles Battery unit aging system of the battery pack comprising a.
The method of claim 3,

The battery management system further measures and stores the battery unit charge / discharge environment for each charge / discharge cycle number, and further provides the battery unit charge / discharge environment information when the battery life management server is connected.

The battery aging device,

A battery unit aging box configured to be inserted into the battery unit;

An environment creation unit for controlling an environment inside the battery unit aging box;

Further comprising a battery unit aging box environmental measurement unit for measuring and outputting the environment inside the battery unit aging box,

The controller of the battery aging apparatus further receives the environment information from the battery life management server and refers to the environment inside the battery unit aging box measured in real time by the environment information and the aging box environment measuring unit. And controlling the environment of the battery unit aging box to correspond to the received environmental information, and forcibly charging and discharging the battery unit by the number of charge / discharge cycles.
The method of claim 3,

The environmental composition unit,

Battery unit aging system of the battery pack, characterized in that it comprises a humidifier for controlling the humidity inside the battery unit aging box.
The method of claim 5,

The environmental composition unit,

A heater for raising a temperature inside the battery unit aging box;

An air conditioner for lowering the temperature inside the battery unit aging box;

The battery unit aging system of the battery pack further comprises at least one or more of the fans for introducing and discharging air into the battery unit aging box.
The method of claim 3,

The battery pack further measures and stores a battery unit charge / discharge environment for each charge / discharge cycle number, and provides a charge / discharge history further including the battery unit charge / discharge environment information when the battery life management server is connected.

The battery unit characteristic information storage unit stores the health state information for each battery unit type that defines the health state according to the number of charge and discharge cycles and the battery environment for each battery unit type,

The controller of the battery aging apparatus may receive a charge / discharge history further including the environmental information from the battery life management server, and determine the number of virtual charge / discharge cycles having a health state corresponding to the charge / discharge history including the environmental information. Obtaining and controlling the unit charging unit and the unit discharge unit by the number of times the virtual charging and discharging cycles obtained forcibly charging and discharging the battery unit.
The method of claim 1,

The battery pack further includes whether the battery pack is charged or discharged at the time of charging or discharging, in the battery unit charge / discharge history.

The battery aging device is a battery pack aging system of the battery pack, characterized in that for performing the fast or slow charge and discharge of the battery unit in accordance with the fast or slow charge and discharge information of the charge and discharge history.
The method of claim 3,

The battery aging device,

Further comprising a battery unit aging measuring unit for measuring the health of the battery unit to be inserted into the battery pack,

The control unit estimates the number of forced charging and discharging cycles by reflecting the health state of the battery unit measured by the battery unit aging measuring unit.
A battery management system configured in the battery pack and having unique identification information, the battery management system including a plurality of battery units and storing charge and discharge history of the battery unit;

The battery pack includes a means for connecting to the battery management system of the battery pack, and stores health state information for each battery unit, which defines a state of health according to the number of charge / discharge cycles for each battery unit, and inserts an arbitrary battery unit. After the charging and discharging history is loaded from the battery pack when the battery management system is connected, the number of virtual charging and discharging cycles corresponding to the loaded charging and discharging history is obtained by referring to the health state information for each battery unit type, and the obtained virtual charging is obtained. Battery unit aging system of a battery pack including a battery aging device for forcibly charging and discharging the battery unit in the number of discharge cycles
The method of claim 10,

The health state information is at least one of an internal resistance and a capacity of the battery unit,

The charge and discharge history is a battery unit aging system of the battery pack, characterized in that at least one of the number of charge and discharge cycles, the internal resistance and the capacity of the battery unit.
The method of claim 11,

The battery aging device,

A battery unit characteristic information storage unit for storing health state information for each battery unit type, which defines a health state according to the number of charge / discharge cycles for each battery unit type;

A storage unit including an existing battery unit performance storage unit storing health state information of each battery unit of the battery pack;

A communication unit connected through the battery pack connection unit to perform data communication with the battery pack;

A battery unit charger supplying a charging current to the battery unit;

A battery unit discharging unit for discharging power of the battery unit; And

After the charging and discharging history of the battery pack is loaded from the battery pack through the communication unit, the identification information of the battery pack into which the battery unit is inserted, and the health state corresponding to the loaded charging and discharging history with reference to the health state information for each battery unit type. And a controller configured to obtain the number of virtual charge / discharge cycles having a number of times, and to control the unit charging unit and the unit discharging unit to forcibly charge / discharge the battery unit by the number of the obtained virtual charge / discharge cycles.
The method of claim 12,

The battery pack further measures and stores a battery unit charge / discharge environment for each charge / discharge cycle number, and provides a charge / discharge history further including the battery unit charge / discharge environment information when the battery pack is connected.

The battery aging device,

A battery unit aging box configured to be inserted into the battery unit;

An environment creation unit for controlling an environment inside the battery unit aging box;

Further comprising a battery unit aging box environmental measurement unit for measuring and outputting the environment inside the battery unit aging box,

The controller of the battery aging apparatus further receives the environment information from the battery pack, and controls the environment composition unit by referring to the environment inside the battery unit aging box measured in real time by the environment information and the aging box environment measuring unit. And adjusting the environment inside the battery unit aging box to correspond to the received environmental information and forcibly charging and discharging the battery unit by the number of charge / discharge cycles.
The method of claim 13,

The environmental composition unit,

Battery unit aging system of the battery pack, characterized in that it comprises a humidifier for controlling the humidity inside the battery unit aging box.
The method of claim 14,

The environmental composition unit,

A heater for raising a temperature inside the battery unit aging box;

An air conditioner for lowering the temperature inside the battery unit aging box;

The battery unit aging system of the battery pack further comprises at least one or more of the fans for introducing and discharging air into the battery unit aging box.
The method of claim 10,

The battery management system further includes whether to charge or discharge during charging or discharging further including in the battery unit charge and discharge history,

The battery aging device is a battery pack aging system of the battery pack, characterized in that for performing the fast or slow charge and discharge of the battery unit in accordance with the fast or slow charge and discharge information of the charge and discharge history.
The method of claim 12,

The battery aging device,

Further comprising a battery unit aging measuring unit for measuring the health of the battery unit to be inserted into the battery pack,

And the control unit estimates the number of forced charge / discharge cycles of the battery unit by reflecting the health state of the battery unit measured by the battery unit aging measuring unit.
A charge and discharge history storing process of collecting and storing charge and discharge histories of a plurality of battery units by a battery management system of a battery pack;

A battery pack information collection process of collecting and managing a charge / discharge history including unique identification information of the battery pack from the battery management system when the battery life management server is connected to the battery management system of the battery pack;

When the battery aging device is connected with the battery life management server and the identification information of the battery pack into which the battery unit is to be inserted is received, battery pack history information corresponding to the battery pack identification information is received and stored from the battery life management server. The process of collecting the target battery pack health status information,

The number of battery unit forced charge / discharge cycles corresponding to the collected battery pack history information is determined by referring to health state information for each battery unit type, which defines a health state according to the number of charge / discharge cycles for each battery unit type in which the battery aging device is stored. The process of measuring the number of battery unit charge and discharge cycles

And a forced charging / discharging process of the battery aging device forcibly charging / discharging the battery unit to be inserted into the battery pack by the number of times of the obtained battery unit forced charging / discharging cycles.
The method of claim 18,

In the charging and discharging history storing process, the battery management system further measures environmental conditions of battery units to further store environmental information.

Further providing the environmental information to the battery life management server in the battery pack-specific information collection process,

The battery aging device further collects the environmental information in the process of collecting the battery pack health state information, and then measures the environment state inside the battery unit aging box in real time to recall the environment inside the battery unit aging box into which the battery unit is inserted. Further comprising the process of creating an aging box environment to respond to environmental information,

And the forced charging and discharging process after the battery aging device performs the aging box environment creation process.
The method of claim 18,

The battery aging device further comprises a battery unit health state measurement process for measuring the health state of the battery unit to be inserted,

The battery unit deterioration method of the battery pack, characterized in that for obtaining the number of battery unit forced charge and discharge cycles of the battery unit charge and discharge cycle number measurement process reflecting the health state of the battery unit measured in the battery unit health state measurement process.
The method of claim 18,

The health state information is a battery unit aging method of the battery pack, characterized in that the internal resistance or capacity of the battery unit according to the battery charge and discharge cycle.
The method of claim 19,

The environmental information includes a battery unit aging method of the battery pack, characterized in that it comprises the temperature and humidity inside the battery unit aging box.
A charge and discharge history storing process of collecting and storing charge and discharge histories of a plurality of battery units by a battery management system of a battery pack;

A process of collecting, by a battery aging device, target battery pack health state information which receives and stores the battery pack history information from the battery management system while being connected to the battery management system;

The number of battery unit forced charge / discharge cycles corresponding to the collected battery pack history information is determined by referring to health state information for each battery unit type, which defines a health state according to the number of charge / discharge cycles for each battery unit type in which the battery aging device is stored. The process of measuring the number of battery unit charge and discharge cycles

And a forced charging / discharging process of the battery aging device forcibly charging / discharging the battery unit to be inserted into the battery pack by the number of times of the obtained battery unit forced charging / discharging cycles.
The method of claim 23, wherein

In the charging and discharging history storing process, the battery management system further measures environmental conditions of battery units to further store environmental information.

The battery aging device further collects the environmental information in the process of collecting the battery pack health state information, and then measures the environment state inside the battery unit aging box in real time to recall the environment inside the battery unit aging box into which the battery unit is inserted. Further comprising the process of creating an aging box environment to respond to environmental information,

And the forced charging and discharging process after the battery aging device performs the aging box environment creation process.
The method of claim 23, wherein

The battery aging device further comprises a battery unit health state measurement process for measuring the health state of the battery unit to be inserted,

And a battery unit charge / discharge cycle number of the battery unit forced charge / discharge cycle number measurement process is calculated by reflecting the health state of the battery unit measured in the battery unit health state measurement process.
The method of claim 23, wherein

The health state information is a battery unit aging method of the battery pack, characterized in that the internal resistance or capacity of the battery unit according to the battery charge and discharge cycle.
The method of claim 24,

The environmental information includes a battery unit aging method of the battery pack, characterized in that it comprises the temperature and humidity inside the battery unit aging box.