KR20140029856A - Method for auto-rechargeable in energy storage system - Google Patents

Abstract

The present invention relates to a device for automatically charging an energy storage system and a method thereof and, more specifically, to a device for automatically charging an energy storage system and a method thereof capable of easily setting a charging method for the energy storage system according to user convenience. The device for automatically charging the energy storage system is the device for automatically charging the energy storage system which stores electric energy. The present invention comprises a charging device (210) which converts AC power which is the electric energy into DC power; a battery pack (220) which stores the DC power during a predetermined time; an inverter (230) which converts the DC power into the AC power and supplies the AC power to a load (300); a display unit (240) which confirms the information and state of the device for automatically charging the energy storage system (200) as graphic; a lamp unit (250) which confirms the information and state of the device for automatically charging the energy storage system (200) by using a lamp; an interface (260) which inputs a charging starting time and a charging ending time of the device for automatically charging the energy storage system (200); and a communication port (270) which is connected to a computer for the diagnosis of the device for automatically charging the energy storage system (200). [Reference numerals] (100) Electric energy; (210) Charger; (230) Inverter; (240) Display unit; (250) Lamp unit; (260) Interface unit; (270) Communication port; (300) Load; (AA) Battery module 1; (BB) Battery module N

Description

Energy storage system automatic charging device and automatic charging method using the same {Method for auto-rechargeable in Energy Storage System}

The present invention relates to an energy storage system charging, and more particularly, to an energy storage system automatic charging device and an automatic charging using the same, which can be easily set according to the user's convenience, from manual to automatic. It is about a method.

Energy Storage System (ESS: Energy Storage System) refers to a storage device that stores energy like a battery and can be used at any time. Since electric energy has a difference between production and storage, production in using electric energy The ESS is a system for storing and using energy efficiently, which allows for energy production.

Thus, when ESS is activated, it can save energy produced at dawn with relatively low energy consumption, so that it can be effectively used when energy supply is driven, and the energy production utilization rate can be increased.

It is recognized as an important energy system that can solve the current power shortage because it can accumulate new and renewable energy and distribute energy in small amount.

Among them, the ESS demonstration project in Jeju Island is expected to solve the electricity shortage because it is proceeding with 8 megawatts equivalent to one substation.

In recent years, energy production facilities such as wind power and solar power have been rapidly increasing as a policy to expand the supply of renewable energy for securing energy at national level.

As renewable energy is a key solution to the problem of depletion of fossil energy and environmental problems, research is being actively carried out in various countries including developed countries. In particular, among the renewable energy, solar power The power generation system is in the spotlight recently due to the fact that there is no pollution and it is easy to install and maintain.

In recent years, it has been widely used as an energy source for wireless mobile devices by using a rechargeable secondary battery.

In addition, as interest in environmental issues grows, research on electric vehicles (EV) and hybrid vehicles (HEV) that can replace fossil-fueled vehicles such as gasoline vehicles and diesel vehicles, Is going on.

Among them, a hybrid vehicle uses a middle- or large-sized battery pack based on a secondary battery capable of charging and discharging as a power source, and an engine that burns gasoline and light oil, and adjusts the operation of the battery pack and the operation of the engine Control). That is, in order to improve the efficiency of operation and minimize the use of fuel, the operating conditions of the engine and the battery system are changed according to the driving conditions of the vehicle.

The storage device of such a power storage system uses not only a single battery pack but also a plurality of battery packs. A battery management system (hereinafter referred to as BMS) for monitoring and controlling is provided. The BMS prevents the explosion by preventing the mid-to-large secondary battery from adjusting the electricity intake and output balance.

Hereinafter, an energy storage system charging method according to the prior art will be described with reference to the accompanying drawings.

1 is a block diagram illustrating a method for charging an energy storage system according to the prior art.

In the energy storage system according to the prior art, the electric energy 1 is supplied to the energy storage system 2 and charged, and the charged electric energy is supplied to the load 3.

In this prior art, the user manually manipulates the electric energy supply to the energy storage system 2 via a separate manual switch 4 to manually charge it. Also, at the end of charging, the user directly operated the manual switch 4 to finish charging.

Therefore, in the prior art, there are the following problems.

First, since the user needs to charge manually, charging could not be performed properly when the user is away from the desk or misses time.

Second, even when the end of the charge was inconvenient to manually switch the end of the charge manually.

Third, there is a risk of not fully charging or overcharging because manual operation of charging and charging end.

Accordingly, the present invention is to solve all the disadvantages and problems of the prior art as described above, the present invention is an energy storage that can be easily set according to the user's convenience from the manual method to the automatic method for charging the energy storage system It is an object of the present invention to provide a system automatic charging device and an automatic charging method using the same.

In accordance with an aspect of the present invention, an apparatus for automatically charging an energy storage system includes: a charger (210) for converting AC power, which is electrical energy, into DC power; Battery pack (Battery Pack 220) for storing the DC power converted by the charger 210 only for a set time; Inverter for converting the DC power of the battery pack 220 to AC power supply to the load 300 230, a display unit 240 for graphically checking information or status of the energy storage system automatic charging device 200; checking information or status of the energy storage system automatic charging device 200 with a lamp. Lamp unit 250 as a device to enable the interface 260 for inputting the charging start time and the end time of charging the energy storage system charging device 200; and Computer for the diagnosis of the energy storage system charging device 200 And a communication port 270 for connection with the above.

In addition, the automatic charging method using the energy storage system automatic charging device of the present invention for achieving the above object is a battery module 221 for storing the electrical energy from the charger 210 and the charger 210 receives the electrical energy and In the energy storage system automatic charging method comprising a battery pack 220 of the battery management system (BMS) 222 for controlling the charge, the battery module 221 of the battery pack 220 through the interface unit 260 Setting the charging start time and the charging end time for the battery management system (BMS) 222 and storing the same (S10); Determining whether the battery management system (BMS) 222 has reached a charging start time (S20); The battery management system (BMS) 222 turning on charging power at the charging start time (S30); Determining whether the battery management system (BMS) 222 periodically completes the charging of the battery module 221 (S40); And when the charging is completed or when the charging end time is reached, the battery management system (BMS) 222 turning off and terminating the charging power (S50).

The present invention has the following effects.

First, since the user automatically sets the charging time according to the user's convenience, the user can fully charge the battery at the set time.

Secondly, the end of charging is also automatic so that the user's convenience is increased.

Third, since the charging and the end of charging is automatically operated, sufficient charging is possible and the risk of overcharging can be minimized.

Fourth, it is possible to detect the abnormality of the charger early with a variety of convenient devices, it is possible to fast after-sales service.

Fifth, in the case of setting the charge and end of charge according to the late-night power time, the user can be charged at a convenient and the lowest cost.

1 is a block diagram illustrating a method for charging an energy storage system according to the prior art;
2 is a block diagram illustrating a method for automatically charging an energy storage system according to the present invention;
3 is a flowchart illustrating a method for automatically charging an energy storage system according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

In addition, although the term used in the present invention is selected as a general term that is widely used at present, there are some terms selected arbitrarily by the applicant in a specific case. In this case, since the meaning is described in detail in the description of the relevant invention, It is to be understood that the present invention should be grasped as a meaning of a term that is not a name of the present invention. Further, in describing the embodiments, descriptions of technical contents which are well known in the technical field to which the present invention belongs and which are not directly related to the present invention will be omitted. This is for the sake of clarity of the present invention without omitting the unnecessary explanation.

2 is a block diagram illustrating a method for automatically charging an energy storage system according to the present invention.

In the method for automatically charging the energy storage system according to the present invention, when the electrical energy 100, the energy storage system automatic charging device 200, and the load 300 are configured, the electrical energy 100 is sunlight, wind direction, columnar power. The power from the transformer may be night power in particular.

The energy storage system automatic charging device 200 receives and charges the electric energy 100 only for a predetermined time.

The load 300 is a device (eg, home, company electricity, electronic device) that uses the power stored in the energy storage system automatic charging device 200.

Meanwhile, the energy storage system automatic charging device 200 includes a charger 210, a battery pack 220, an inverter 230, a display unit 240, a lamp unit 250, an interface unit 260, and a communication port 270. It consists of

The charger 210 is a charging device that converts an AC power source to a DC power source so that the battery pack 220 can be charged.

The battery pack 220 stores the DC power converted through the charger. To this end, the battery pack 220 includes a battery module 221 for storing a plurality of cylindrical cells so as to store electric energy, and a battery management system (BMS) for managing and controlling the battery module 221. [ (222). Here, the BMS 222 controls the charging for the battery module 221, and in particular, controls the battery module 221 to be charged only at a corresponding time by receiving a set charging start time and charging end time, and automatically charging the energy storage system. Diagnose abnormalities of the device 200 components.

The inverter 230 converts the DC power of the battery pack 220 into AC power and supplies it to the load 300.

The display unit 240 is a device that allows the user to graphically check the information or status of the energy storage system automatic charging device 200, for example, to view the remaining charge, such as through the LCD display, abnormal (ERROR ) It is possible to mark the occurrence part.

The lamp unit 250 is a device that allows the user to check the information or state of the energy storage system automatic charging device 200 with a lamp can be configured as an LED, so that the charge or uncharged can be seen as a lamp, If an error occurs, the lamp can warn you.

The interface 260 is a device in which a user inputs a charging start time and a charging end time of the energy storage system charging device 200.

The communication port 270 may include a display unit 240, a lamp unit 250, an interface unit 260, a charger 210, a battery pack 220, an inverter 230, and a portable energy storage battery pack power supply 200. It is a port that can communicate with system diagnosis computer (not shown) for easy after-sales service.

On the other hand, although not shown in the drawing of the energy storage battery pack power supply 200 according to the present invention may be added to the buzzer for notifying the separate danger during overcurrent, overvoltage, power failure. In such a case, it is easy to prevent various accidents in advance.

3 is a flowchart illustrating a method for automatically charging an energy storage system according to the present invention.

In the method of automatically charging the energy storage system according to the present invention, as shown in FIG. 3, the charging start time and the charging end time of the battery module 221 of the battery pack 220 are set through the interface unit 260 (S10). ). At this time, the corresponding time is stored in the BMS 222. At this time, the charging start time and the charging end time may be based on the sunset time depending on the season, for example, when using a solar cell, and may be based on the midnight power time when the power from the column transformer.

Then, the set BMS 222 determines whether the charging start time has come (S20).

If the determination result (S20) charging start time, the BMS 222 turns on the charging power (S30).

On the other hand, the BMS 222 periodically determines whether the charging of the battery module 221 is completed (S40).

If it is determined in step S40 that the charging is completed, the charging power is turned off and ends (S50).

However, if it is determined that the charging is not completed (S40), the BMS 222 periodically determines whether the charging current flows normally (S60).

As a result of determination (S60), if the charging current is normally flowing (if supplied), the BMS 222 determines whether the set charging end time is reached (S70).

If it is determined that the charging end time (S70), the charging power off and ends (S50).

However, if it is determined that the charging end time (S70) has not reached the charging mode (S80).

On the other hand, if the determination result (S60) does not flow normally, the BMS 222 first turns off the charging power (S90).

Subsequently, when the set end time for charging is turned on (S100), an error screen is output (S110).

While the present invention has been described with reference to the exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. Therefore, the examples disclosed in the present invention are not intended to limit the scope of the present invention and are not intended to limit the scope of the present invention. The scope of protection of the present invention should be construed according to the following claims, and all technical ideas within the scope of equivalents should be construed as falling within the scope of the present invention.

100: electrical energy 200: energy storage system automatic charging device
210: Charger 220: Battery pack
221: Battery module 222: Battery management system (BMS)
230: inverter 240: display unit
250: lamp unit 260: interface unit
270: communication port 300: load

Claims (8)

An energy storage system for automatically charging electrical energy, the device comprising:
A charger 210 for converting AC power, which is electrical energy, into DC power;
A battery pack (Battery Pack 220) for storing the DC power converted by the charger 210 only for a predetermined time;
An inverter 230 for converting the DC power of the battery pack 220 into AC power and supplying it to the load 300;
A display unit 240 for allowing a user to graphically check the information or status of the energy storage system automatic charging device 200;
Lamp unit 250 as a device for checking the information or state of the energy storage system automatic charging device 200 with a lamp;
An interface 260 for inputting a charging start time and a charging end time of the energy storage system charging device 200; And
Energy storage system automatic charging device characterized in that it comprises a; communication port (270) for connecting with a computer for diagnosis of the energy storage system charging device (200).
The method of claim 1,
The battery pack 220 is composed of a battery module (221) and a battery management system (Battery Management System) 222 for managing and controlling the battery module 221 to bundle the plurality of cylindrical cells to store electrical energy Energy storage system automatic charging device characterized in that.
3. The method of claim 2,
The battery management system 222 controls the charging of the battery module 221 and receives the set charging start time and the charging end time from the interface unit 260 at the corresponding time. Control the charging (221), the automatic energy storage system automatic charging device, characterized in that for diagnosing the abnormality of the energy storage system automatic charging device (200) components.
The method of claim 1,
The electrical energy is an energy storage system automatic charging device, characterized in that at least one of photovoltaic electricity, midnight power.
The battery pack 220 includes a charger 210 receiving electric energy, a battery module 221 storing electric energy from the charger 210, and a battery management system (BMS) 222 controlling charging. In the automatic charging method of the energy storage system,
The battery management system (BMS) 222 stores the memory start time and the charging end time for the battery module 221 of the battery pack 220 through the interface unit 260 (S10). ;
Determining whether the battery management system (BMS) 222 has reached a charging start time (S20);
The battery management system (BMS) 222 turning on charging power at the charging start time (S30);
Determining whether the battery management system (BMS) 222 periodically completes the charging of the battery module 221 (S40); And
And if the charging is completed or the charging end time is reached, the battery management system (BMS) (222) turning off and terminating the charging power (S50).
6. The method of claim 5,
The charging start time and the end time of charging is based on the sunset time according to the season when the electricity supply source is a solar cell, and when the power from the column transformer is based on the late night power time Charging method.
6. The method of claim 5,
If the determination result (S40) the charging is not completed, the battery management system (BMS) 222 periodically determines whether the charging current flows normally (S60),
The battery management system (BMS) 222 determines whether the set end time of charging (S70) if the charging current is normally flowing in the determination result (S60);
If the determination result (S70) the charging end time, the energy storage system automatic charging method characterized in that the charging power off and terminate.
8. The method of claim 7,
If the charging result does not flow normally (S60), the battery management system (BMS) 222 (S90) to turn off the charging power, and
When the charging end time is set to turn on the charging power (S100), and outputting an error screen (S110) further comprising the energy storage system automatic charging method.

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