KR102550097B1 - Charger for Battery System without BMS - Google Patents

Abstract

The present invention relates to a charger for a battery system without a BMS, and relates to a jig in which a battery without a BMS (Battery Management System) is mounted and a charging current, voltage, temperature, and SOC of the battery from a battery mounted in the jig. In addition to detecting battery performance values including State of Charge (State of Charge) and SOH (State of Health), BMSs that charge the battery by controlling the charging current according to the temperature and number of charge and discharge of the battery are formed to form a pair. a plurality of charging channels; a battery performance setting unit configured to set the battery performance value according to the usage of the battery; a battery history storage unit for storing the performance value of the battery detected by the BMS of the charging channel according to the identification number of the battery seated in the jig; After comparing the battery performance set value set in the battery performance setting unit with the battery performance value transmitted from the charging channel, if the battery performance value is out of the range of the battery performance set value, notifying that the battery is not suitable for the set purpose of use a data processing unit generating an unsuitable decision signal; and a data display unit displaying a battery performance value transmitted from the charging channel according to the battery identification number and displaying an unsuitable state of the corresponding battery when an unsuitability determination signal is transmitted from the data processing unit.

Description

Charger for Battery System without BMS {Charger for Battery System without BMS}

The present invention relates to a charger for a battery system not equipped with a BMS, and in particular, it is possible to charge a battery not equipped with a BMS, and the accurate state of the battery is detected through history management for each battery to determine suitability and predict the required quantity. And, it relates to a charger for a battery system without a BMS capable of mass-producing battery packs by lowering the price of battery packs.

In general, a secondary battery means a battery that can be charged and discharged unlike a primary battery that cannot be charged, and is widely used in electronic devices such as mobile phones, laptop computers, computers, drones, robots, and electric vehicles.

These secondary batteries are used in the form of a pack in which several battery cells are bundled together to protect the battery from physical impacts of the external environment.

At this time, the battery pack is used with a battery management system (BMS) installed to control the charging and discharging of battery cells and prevent overcharging or overdischarging, or is used only with battery cells arranged in series or parallel ( That is, it is used without a BMS).

These batteries are charged through a charger. If the battery pack is equipped with a BMS, the BMS controls and charges the charging part, so the price of the charger is inexpensive, and it is possible to use it using a portable charger. , It is easy to add a charging channel, but charging a battery pack without a BMS causes a dangerous situation because there is no protection against fire and explosion of the battery.

On the other hand, a battery without a BMS has advantages of low price and simple battery pack configuration, but it is possible to check the current state of the battery in a higher-level system such as a charger. There is a problem in that it is difficult to check the exact state of the battery (for example, cell deviation of the battery, state of charge (SOC) or state of health (SOH)) because it is not possible to record data for the battery.

Korean Patent Registration No. 10-0450887

Therefore, the present invention is intended to solve the above problems, and it is possible to charge a battery without a BMS, detect the exact state of the battery through history management for each battery, determine suitability and predict required capacity, and An object of the present invention is to provide a charger for a battery system without a BMS capable of mass-producing battery packs by lowering the price of the pack.

In order to achieve the above object, the present invention provides a charging current, voltage, temperature, SOC (State of Charge) of the battery from a jig in which a battery is mounted without a BMS (Battery Management System) and a battery mounted in the jig. ) And a plurality of charging channels formed to form a pair of BMS that charge the battery by detecting battery performance values including SOH (State of Health) and controlling the charging current according to the temperature and the number of charging and discharging of the battery. ; a battery performance setting unit configured to set the battery performance value according to the usage of the battery; a battery history storage unit for storing the performance value of the battery detected by the BMS of the charging channel according to the identification number of the battery seated in the jig; After comparing the battery performance set value set in the battery performance setting unit with the battery performance value transmitted from the charging channel, if the battery performance value is out of the range of the battery performance set value, notifying that the corresponding battery is unsuitable for the set purpose of use a data processing unit generating an unsuitable decision signal; and a data display unit displaying a battery performance value transmitted from the charging channel according to the battery identification number, and displaying an unsuitable state of the corresponding battery when an unsuitability determination signal is transmitted from the data processing unit.

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According to the present invention, the battery performance setting value is characterized in that it includes a BMS, which is characterized in that it can be set only once.

According to the present invention, the battery performance setting value is changeable through the data display unit.

According to the present invention, when charging a battery without a BMS, since the BMS installed inside the charger recognizes the state of the battery, it is possible to eliminate the risk occurring during battery charging, thereby preventing explosion or fire of the battery without a BMS. Since the battery status can be checked, it is possible to safely charge it. Since the history is managed according to the battery identification number, it is possible to estimate the usable capacity of the battery and to check the charging cycle for each battery, We can provide the required quantity.

1 is a diagram showing a charger for a battery system without a BMS according to an embodiment of the present invention.
2 is a diagram illustrating battery history information stored in a charger for a battery system not equipped with a BMS according to an embodiment of the present invention.

Hereinafter, preferred embodiments in which a person skilled in the art can easily practice the present invention will be described in detail with reference to the accompanying drawings. However, in the detailed description of the operating principle of the preferred embodiment of the present invention, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description will be omitted.

In addition, the same reference numerals are used for parts having similar functions and actions throughout the drawings.

In addition, when a part is said to be "connected" to another part throughout the specification, it includes a case where it is indirectly connected with another component in the middle, in addition to the case where it is directly connected. In addition, “include” a certain component means that other components may be further included without excluding other components unless otherwise stated.

1 is a diagram showing a charger for a battery system without a BMS according to an embodiment of the present invention, and FIG. 2 shows battery history information stored in a charger for a battery system without a BMS according to an embodiment of the present invention. it is a drawing

1 and 2, a charger for a battery system without a BMS according to an embodiment of the present invention includes a plurality of charging channels 10, a battery performance setting unit 20, a battery history storage unit 30, It includes a data processing unit 40 and a data display unit 50.

The charging channel 10 is for charging a battery not equipped with a BMS, and the jig 12 on which the battery is mounted and the charging current of the battery mounted on the jig 12, the voltage of the battery, the temperature of the battery, and the current of the battery A battery management system that analyzes the amount of charge (SOC; State of Charge) and future battery usable time (SOH; State of Health), and controls the charging current according to the temperature and the number of charge/discharge (or number of charge) to charge the battery. (Battery Management System; BMS) (14).

At this time, a plurality of charging channels 10 are installed, and in each charging channel 10, a jig 12 on which a battery is mounted and a BMS 14 for detecting and analyzing the performance of the battery are installed as a pair.

In addition, the BMS 14 of the charging channel 10 analyzes the performance value of the battery and generates a battery failure signal when a battery failure occurs.

The battery performance setting unit 20 sets battery performance values according to the purpose of use of the battery, and sets battery performance values such as the number of charge/discharge times, SOC, and SOH to necessary values according to the purpose of use of the battery.

In other words, if the number of charge/discharge is set to 500 in the battery performance setting unit 20 for a battery to be used in an electric vehicle, the number of charge/discharge is set to 300 for a battery to be used in an aircraft such as a drone. Accordingly, different battery performance values may be set.

The battery performance setting value input through the battery performance setting unit 20 may be input when the charger is manufactured or may be input after the charger is manufactured. It is also possible to manufacture a structure that changes the setting value.

The battery history storage unit 30 stores battery performance and state information such as charge and discharge history, temperature, SOC, and SOH including the number of discharges and discharges transmitted from the charging channel 10 for each battery serial number.

The data processing unit 40 compares the battery performance value transmitted from the charging channel 10 with the setting value set by the battery performance setting unit 20, and generates a conformance determination signal when the battery performance value is within a set range, If the battery performance value is out of the set range, a nonconformity determination signal is generated.

For example, when the battery performance value is set to SOC of 85% or more and SOH of 70% or more in the battery performance setting unit 20, the data processing unit 40 determines that the SOC of the battery transmitted from the charging channel 10 is 85% or more, SOH is 70% or more, generates a conformity determination signal, and in the remaining cases (i.e., SOC is less than 85% and SOH is 70% or more, or SOC is less than 85% and SOH is less than 70%, or SOC is 85% or more and SOH is less than 70%), it is determined that the battery cannot be used for that purpose and an unsuitable determination signal is generated.

At this time, the non-conformity determination signal generated by the data processing unit 40 is a different signal from the battery failure signal generated in the charging channel 10 . In other words, the unsuitability determination signal is a signal generated when the battery itself is a normal product or does not meet the purpose of use of the battery and can be used for other purposes but cannot be used for that purpose, and the bad signal is generated when the battery itself is defective. It is a signal to be

The data processing unit 40 may be integrally formed with the BMS 14.

The data display unit 50 has a configuration in which a speaker for generating sound or an LED for generating light are additionally provided in addition to a display for displaying text, etc., and state information (i.e., battery identification number, number of discharges, SOC, SOH, etc.), and when a battery failure signal is transmitted from the charging channel 10 or a failure determination signal is transmitted from the data processing unit 40, the corresponding battery is defective through sound, blinking, text, etc. Inform the user of the status or unsuitable status.

That is, when a battery is mounted on the jig 12, the data display unit 50 displays information about the battery through a display so that the user can see information about the battery, and the performance of the battery exceeds the set value range. If it is out of range and is not suitable for the purpose the user wants to use, the displayed information will blink or "Battery No. 1 has been judged unsuitable." The user is notified of the incompatibility of the corresponding battery through a sound such as a lamp or the like.

An operation of a charger for a battery system not equipped with a BMS configured as described above will be described below.

Before charging the battery in the charger, the user sets a battery performance value (ie, at least one of the number of charge/discharge cycles, SOC, and SOH) of the battery according to the usage of the battery through the battery performance setting unit 20 .

In this case, the battery performance value may be fixed to a specific value when the charger is manufactured (that is, the set value cannot be changed), or may be directly set by the user according to the usage of the battery to be charged after the charger is completed.

In this way, when the battery is installed in the jig 12 of the charging channel 10 after the battery performance value is set, the BMS 14 detects the battery, voltage, temperature, charging current, etc. to prevent overcharging or overdischarging of the battery, , calculate the number of charge and discharge times of the battery, SOC and SOH, etc.

At this time, battery information such as the number of charging/discharging of the corresponding battery, SOC, and SOH according to the identification number of the battery is stored in the battery history storage unit 30 .

When the battery information is stored in the battery history storage unit 30, if at least one of the batteries installed in the jig 12 is determined to be defective, the BMS 14 generates a battery failure signal and displays the data display unit 50. and the data display unit 50 notifies the user that there is a defective battery (i.e., battery number 3 defective) by using flickering, sound, or light according to the battery defective signal transmitted from the BMS 14. .

For example, as shown in FIG. 2, when four batteries are installed in the jig 12, and a battery installed in the third jig 12 among them has a defect, the data display unit 50 displays the battery identification number according to the battery identification number. In addition to displaying the battery performance value, the user is notified that a battery installed in the third jig 12 has a defect by using flickering, sound, or light.

Meanwhile, when the battery is determined to be a normal product, the battery is charged through the charging channel 10 .

When the battery is being charged, the data processing unit 40 compares the battery performance value transmitted through the charging channel 10 with the set value set by the battery performance setting unit 20, and sets the battery performance value transmitted through the charging channel 10. If it is within the range, a conformance determination signal is generated, and if the battery performance value is out of a set range, an unsuitability determination signal is generated.

When the data processing unit 40 transmits an unsuitability determination signal to the data display unit 50, the data display unit 50 informs the user that the corresponding battery is unsuitable for use by using flickering, sound, or light.

As a result, the user can check which battery is unsuitable for the intended use, so it becomes possible to replace the unsuitable battery for the intended use with a suitable battery. be able to

As described above, in the charger for a battery system without a BMS according to an embodiment of the present invention, when charging a battery without a BMS, the BMS 14 installed inside the charger grasps the state of the battery, thereby reducing the risk that occurs when charging the battery. Since it can be removed, it is possible to prevent explosion or fire occurrence of a battery that is not equipped with a BMS, and it is possible to safely charge the battery because the state of the battery can be checked.

In addition, since the charger for a battery system without a BMS according to an embodiment of the present invention manages the history according to the identification number of the battery, it is possible to estimate the usable capacity of the battery and check the charging cycle for each battery. It is possible to provide the required quantity of batteries.

As described above, the detailed description of the present invention has been described with respect to the preferred embodiments of the present invention, but this is the best embodiment of the present invention described by way of example, but does not limit the present invention. In addition, it is of course possible for anyone having ordinary knowledge in the technical field to which the present invention belongs to various modifications and imitations without departing from the scope of the technical idea of the present invention. Therefore, the scope of the present invention should not be limited to the described embodiments and should not be defined, but should be defined by not only the claims to be described later, but also those equivalent thereto.

10: filling channel 12: jig
14: BMS 20: battery performance setting unit
30: battery history storage unit 40: data processing unit
50: data display unit

Claims (4)

A battery including charging current, voltage, temperature, state of charge (SOC), and state of health (SOH) of the battery from a jig to which a battery not equipped with a BMS (Battery Management System) is mounted and a battery mounted on the jig A plurality of charging channels configured to form a pair of BMSs that charge the battery by detecting a performance value and controlling a charging current according to the temperature of the battery and the number of charge/discharge cycles;
a battery performance setting unit configured to set the battery performance value according to the usage of the battery;
a battery history storage unit for storing the performance value of the battery detected by the BMS of the charging channel according to the identification number of the battery seated in the jig;
After comparing the battery performance set value set in the battery performance setting unit with the battery performance value transmitted from the charging channel, if the battery performance value is out of the range of the battery performance set value, notifying that the corresponding battery is unsuitable for the set purpose of use a data processing unit generating an unsuitable decision signal; and
and a data display unit displaying a battery performance value transmitted from the charging channel according to the battery identification number, and displaying a non-conformity state of the corresponding battery when a non-conformity determination signal is transmitted from the data processing unit. Chargers for untested battery systems. delete The method of claim 1,
The battery performance setting value is a charger for a battery system without a BMS, characterized in that it can be set only once. The method of claim 1,
The battery performance setting value is changeable through the data display unit Charger for a battery system without a BMS, characterized in that.

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