KR20140137545A - Smart switchgear having energy storage module - Google Patents

Abstract

A smart switchgear system having an energy storage module according to an embodiment of the present invention comprises: an energy storage module having a battery that can be charged and discharged; a battery monitoring management unit to monitor a charging state of the energy storage module; a power management unit to monitor a state of power by associating with the battery monitoring management unit; a power control unit to control the state of the power by associating with the power management unit; and a control unit to control an operation state of the energy storage module by associating with the battery monitoring management unit. First power generated by an external power company or second power by renewable energy is supplied to the energy storage module, and the control unit can control charging and discharging of the energy storage module according to a supply state of the first power or the second power. The smart switchgear system can improve power utilization efficiency and contribute to stability of power supply by including the energy storage module as described above.

Description

TECHNICAL FIELD [0001] The present invention relates to an SMART SWITCHGEAR HAVING ENERGY STORAGE MODULE,

The present invention relates to an intelligent switchboard system having an energy storage module, and more particularly, to an energy saving module having an energy storage module, which can contribute to stabilization of power supply of new and renewable energy An intelligent switchboard system with an energy storage module is provided.

In general, the switchboard is a power conversion supply unit for supplying power to a unit load or a certain range of load groups. It is housed in a metal enclosure and has insulation function, operation function and protection function considering convenience and safety in operation.

Recently, as the spread of new and renewable energy is activated, there is a need for an energy storage system (ESS) or a battery energy storage system (BESS).

The battery is evolving into an energy storage system that stores electricity (ie, renewable energy) generated by solar power or wind power generation from the power supply of IT equipment and is used when needed. An energy storage system is a device that stores power supplied from a power plant and transfers the power to a necessary place when power is needed. The energy storage system is a storage device that can save power and use it in the place and time where it is needed.

Considering that new and renewable energy such as wind power and solar power, which are recently rising, are inferior in terms of power production stability, it is expected that new and renewable energy will be combined with energy storage system in order to enhance stability.

In addition, the energy storage system is a large-capacity power storage device in which lithium ion is used as a secondary battery or a lead-acid battery. When the power is insufficient, the power supply can be stabilized and the power supply can be stabilized. It is a device that stores electric power and increases the utilization efficiency of electric power by using the electric power stored at the time of peak or electricity bill when the electric power demand is high.

The use of energy storage system can reduce the investment cost of new power generation facilities and maximize the efficiency of power generation and utilization through linkage with renewable energy.

On the other hand, in recent years, there is a demand for a technology for mounting an energy storage system in a distributed power supply system such as an electric distribution panel or a switchboard or a distribution panel, and for detecting and controlling the power supply by the energy storage system or the energy storage system in the switchboard Is emerging.

SUMMARY OF THE INVENTION The present invention provides an intelligent switchboard system having an energy storage module or an energy storage module that operates in conjunction with an energy storage system or an energy storage module.

The present invention relates to an intelligent switchboard having an energy storage module or an energy storage module capable of using an energy storage module or an energy storage system for securing an emergency power source during a power outage, replacing a UPS, stabilizing a voltage of a new renewable energy, replacing an emergency generator, System.

According to an aspect of the present invention, there is provided an intelligent switchboard system having an energy storage module, including: an energy storage module having a battery capable of charging and discharging; A battery monitoring management unit for monitoring a state of charge of the energy storage module; A power management unit for monitoring a state of power in association with the battery monitoring management unit; A power controller for controlling a power state in cooperation with the power manager; And a control unit for controlling an operation state of the energy storage module in cooperation with the battery monitoring management unit, wherein a first power generated by an external power company or a second power generated by a renewable energy is supplied to the energy storage module The controller may control the charging / discharging of the energy storage module according to the supply state of the first power or the second power.

By providing the energy storage module as described above, it is possible to enhance the power utilization efficiency and contribute to the stabilization of the power supply.

Wherein the power management unit supplies the first power or the second power to the load or supplies the load to the energy storage module, the power control unit monitors the supply state of the first power, To be supplied to the energy storage module.

The control unit may include an electrostatic counterpart that supplies power of the energy storage module to the load instead of the first power when the first power is blocked from being supplied to the load.

Wherein the power management unit is connected to an uninterruptible power supply unit that supplies power to the load when the first power is blocked from being supplied to the load, And a UPS replacement unit for supplying power to the load instead of the uninterruptible power supply unit.

The control unit may include a voltage compensation unit that supplies power of the energy storage module to the load or backs up power to compensate for the voltage of the first power supplied to the load.

The control unit may include a power stabilization unit that supplies an output of the energy storage module to the load when the output or generation amount of the second power is unstable.

The control unit may include a load leveling unit that uses the output of the energy storage module to stabilize the system that supplies the first power.

The control unit may include a peak cutting unit that supplies power of the energy storage module to the load when the usage charge or the contract charge of the first power or the second power supplied to the load reaches a maximum.

The control unit may include a warning unit for alerting the operation state or the charge / discharge state of the energy storage module, and the warning unit may be associated with the self-diagnosis function of the energy storage module.

The warning unit may be interlocked with a communication control unit that transmits a warning message to a user by wired / wireless communication.

As described above, the intelligent switchboard system having the energy storage module according to the present invention can secure an emergency power supply during a power failure by using an energy storage module.

The intelligent switchboard system having the energy storage module according to the present invention can replace the uninterruptible power supply using the energy storage module and can replace the emergency generator because it can store a large amount of electric power.

The intelligent switchboard system having the energy storage module according to the present invention can enhance the power quality of new and renewable energy and smoothly supply power by the renewable energy.

The intelligent switchboard system having the energy storage module according to the present invention can save power when the light load is used and can be used when the load is overloaded to induce load leveling and contributes to reduction of electric power charges by reducing contract power due to peak cut .

FIG. 1 is a power supply system diagram to which an intelligent switchboard system having an energy storage module according to the present invention is applied.
2 is a view showing a connection state of a power grid and an intelligent switchboard system according to the present invention.
3 is a diagram illustrating a configuration of an intelligent switchboard system having an energy storage module according to the present invention.
4 is a diagram showing the configuration of the control unit of the intelligent switchboard system according to FIG.
5 is a view showing another embodiment of the intelligent switchboard system according to the present invention.

Hereinafter, embodiments according to the present invention will be described in detail with reference to the accompanying drawings. However, the present invention is not limited to or limited by the embodiments. Like reference symbols in the drawings denote like elements.

The present invention relates to an intelligent switchboard system having an energy storage module according to the present invention, and more particularly to an intelligent switchboard system having an energy storage module according to the present invention, FIG. 4 is a view showing a configuration of a control section of the intelligent switchboard system according to FIG. 3, and FIG. 5 is a view showing another embodiment of the intelligent switchboard system according to the present invention FIG.

The energy storage module referred to below is a concept including an energy storage system (ESS) and a battery energy storage system (BESS), and is hereinafter referred to as an energy storage module for convenience of explanation.

1, a power supply system diagram including an intelligent switchboard system 100 having an energy storage module according to the present invention is shown. In the power generation and power supply phase, power is generated by power generation such as nuclear power, hydro power, and thermal power. The electric power thus produced is managed by a power company (for example, KEPCO). The power produced by the power plant (hereinafter referred to as the first power) is a high voltage of about 10 to 20 kV. On the other hand, power by renewable energy such as solar power generation or wind power generation (hereinafter referred to as second power) can also be supplied.

The first power and the second power thus generated are transmitted through a step-up transformer and a step-down transformer. The first and second power through the transformer are distributed to a home or a building. An intelligent switchboard system 100 having an energy storage module according to the present invention may be used in the power distribution stage. The first power or the second power may be supplied to buildings, apartments, commercial facilities, factories, and other industrial facilities by the intelligent switchboard system 100.

The intelligent switchboard system 100 having the energy storage module according to the present invention can monitor the supply state of the first power and the second power and supply the power stored in the energy storage module according to the monitoring result.

3, an intelligent switchboard system 100 having an energy storage module 110 according to an embodiment of the present invention includes an energy storage module 110 having a chargeable and dischargeable battery, an energy storage module A battery management management unit 123 for monitoring the state of charge of the battery 110, a power management unit 122 for monitoring the state of the power in connection with the battery monitoring management unit 123, and a power management unit 122, And a control unit 140 for controlling the operation state of the energy storage module 110 in conjunction with the power control unit 121 and the battery monitoring management unit 123.

Here, the first power generated by the external power company or the second power generated by the renewable energy is supplied to the energy storage module 110, and the controller 140 controls the first power or the second power according to the supply state of the first power or the second power. The charge and discharge of the energy storage module 110 can be controlled.

As described above, by providing the energy storage module that operates according to the supply state of the first power or the second power, it is possible to enhance the power utilization efficiency and contribute to the stabilization of the power supply.

The renewable energy 210 refers to a second power that is introduced into the intelligent switchboard system 100, and the renewable energy may include solar energy, wind energy, geothermal energy, tidal energy, and the like.

There is a disadvantage in that it is difficult to supply stable power because the generation amount or supply state of the renewable energy 210 is inevitably affected by the weather condition. For example, in the case of wind energy, wind tends to blow at night rather than daytime, so that the power generated by wind power at night time is likely to be abandoned as surplus electricity. Solar power can be difficult to supply in a stable manner due to large variation in power generation over clear days and cloudy days. The intelligent switchboard system 100 according to the present invention can stably supply renewable energy by storing renewable energy in the energy storage module 110. [

The electric power company 220 is a main body for producing the first electric power by nuclear power, thermal power, and hydroelectric power. The first power produced by the utility 220 can be finally distributed through the intelligent switchboard system 100 according to the present invention through the power distribution and transmission steps.

The first power and the second power that are input to the intelligent switchboard system 100 according to the present invention are transmitted to the various loads 190 (190) through the water low voltage circuit breaker 160, the automatic switch 170, ). ≪ / RTI > Here, the load 190 includes a home, a building, an apartment, a commercial facility, a factory, and other industrial facilities.

The intelligent switchboard system 100 according to the present invention includes a power management unit 122. The power management unit 122 monitors or manages the first power or the second power. The power management unit 122 is connected to the first power or the second power supply line to collect and monitor operation information or to control the energy storage module 110 as a whole.

The power management unit 122 may operate in conjunction with a power conditioning unit 121 (PCS), and the power control unit 121 may control the power conversion of the energy storage module 110. [ Also, the power controller 121 may link AC of the battery included in the energy storage module 110 with AC of the power system.

The intelligent switchboard system 100 according to the present invention includes a battery monitoring and management system (BMMS) 123 for monitoring and controlling a charge / discharge state of a battery or a battery pack included in the energy storage module 110 can do. The battery monitoring management unit 123 may operate in conjunction with the power management unit 122.

The power control unit 121 and the power management unit 122 may sense or manage the supply state of the first power or the second power and the battery monitoring management unit 123 may use the power of the energy storage module 110 Or not. For example, when the first electric power supplied from the electric power company 220 is interrupted or a power failure is detected, the battery monitoring management unit 123 transmits the electric power of the energy storage module 110 to the load 190 So that the influence due to the blackout can be eliminated. If the supply state of the second power by the renewable energy 210 is unstable according to the weather condition, the battery monitoring management unit 123 outputs the power of the energy storage module 110 to induce power stabilization of the renewable energy You may.

The power control unit 121, the power management unit 122 or the battery monitoring management unit 123 included in the intelligent switchboard system 100 according to the present invention can self-diagnose the supply state of the first power or the second power, The diagnosis result can be used to determine whether the energy storage module 110 is operated or not.

The first power or the second power supply line may be connected to the load 190 as well as the energy storage module 110. To this end, the supply line for the first power or the second power may be branched toward the load 190 and the energy storage module 110. Whether or not the supply line of the first power or the second power is branched can be determined by the power control unit 121 or the power management unit 122. [ For example, depending on whether or not the power supply line is branched, the power management unit 122 may supply the first power or the second power to the load 190 or supply the energy to the energy storage module 110, 121 may monitor the supply state of the first power and control the second power to be supplied to the energy storage module 110 according to a result of the monitoring.

3, the intelligent switchboard system 100 according to the present invention includes a controller 140 for controlling the operation state or the charge / discharge state of the energy storage module 110, Or a communication unit 150 for transmitting an operating state to a driver via wire or wireless. The control unit 140 and the communication unit 150 monitor the state of the energy storage module 110 to perform self diagnosis and transmit the diagnosis state to the remote driver. For example, the communication unit 150 can transmit a diagnosis result of the energy storage module 110 to a smartphone or a portable terminal owned by a driver or an administrator of the switchboard system 100, And the received instruction or command may be transmitted to the control unit 140. [

The intelligent switchboard system 100 according to the present invention may include an uninterruptible power supply (UPS) 130. The uninterruptible power supply unit 130 operates when the first power supply is interrupted or when a power failure occurs to supply power to the load 190. [ The intelligent switchboard system 100 according to the present invention may replace the uninterruptible power supply unit 130 with the energy storage module 110. [ The energy storage module 110 may directly supply power to the load 190 without operating the uninterruptible power supply unit 130 when a power failure occurs.

The control unit 140 may include an electrostatic counter 141 for supplying the power of the energy storage module 110 to the load instead of the first power when the first power is blocked from being supplied to the load 190, . ≪ / RTI >

The power management unit 122 is connected to the uninterruptible power supply unit 130 that supplies power to the load 190 when the first power is not supplied to the load 190, 1 may supply a power to the load 190 instead of the uninterruptible power supply 130 when the power to the load 190 is blocked.

The first power or the second power is stored in the energy storage module 110 by the power supply counterpart 141 and the UPS replacement unit 142 included in the controller 140 and the energy storage module 110 ) Or may replace the uninterruptible power supply 130. [0064] The intelligent switchboard system 100 according to the present invention can replace the uninterruptible power supply unit 130 by using the energy storage module 110 so that the configuration of the intelligent switchboard system 100 can be simplified.

The controller 140 may further include a voltage compensator 143 for supplying the power of the energy storage module 110 to the load 190 or for backing up power to compensate the voltage of the first power supplied to the load 190 ).

The control unit 140 includes the voltage compensating unit 143 so that the energy storage module 110 can secure a sufficient reserve power so as to compensate for the emergency voltage.

The control unit 140 may include a power stabilization unit 144 that supplies the output of the energy storage module to the load 190 when the output or generation amount of the second power is unstable. The power stabilizing unit 144 can compensate the output of the renewable energy in which the amount of the second power generated by the renewable energy is not constant or fluctuates greatly. In addition, the power stabilization unit 144 can be used to monitor the supply state of the renewable energy in real time, prevent maintenance and the like, and reduce the failure rate. This can result in increased supply of renewable energy. In addition, the intelligent switchboard system 100 according to the present invention can improve the power quality of the renewable energy by controlling the energy storage module 110 by the power stabilization unit 144.

The control unit 140 may include a load leveling unit 145 that uses the output of the energy storage module 110 to stabilize the system that supplies the first power. By providing the load leveling unit 145, the power supplied from the switchboard system 100 can be kept constant over time, which can stabilize the unstable output.

The control unit 140 controls the power consumption of the energy storage module 110 based on the peak value supplied to the load 190 when the usage charge or contract charge of the first power or the second power supplied to the load 190 becomes the maximum, And may include a cut portion 146. Since the power of the energy storage module 110 can be supplied using the peak cutting portion 146, the peak load can be dispersed, the load factor can be improved, and the construction cost of a power plant, a transmission line, and the like can be reduced. For example, the peak cut portion 146 may store the surplus power of the night time in the energy storage module 110 and may control to utilize it at the peak time, so that the power of the energy storage module 110 may be more efficiently utilized have.

The control unit 140 includes a warning unit 147 that alerts an operator to the operation state or charge / discharge state of the energy storage module 110, Function. Here, the warning unit 147 may be interlocked with a communication control unit 148 that transmits a warning message to a user or an operator through wire / wireless communication.

The communication control unit 148 monitors the state of the energy storage module 110 and performs a self diagnosis, and can transmit a diagnosis state to a remote driver. The communication control unit 148 can transmit a diagnosis result of the energy storage module 110 to a smartphone or a portable terminal owned by a driver or an administrator of the switchboard system 100 and remotely receive an instruction of the driver, The instructions or commands may be communicated to the controller 140.

The intelligent switchboard system 100 with an energy storage module according to the present invention is intended to provide new functions of a power distribution or power distribution device having an energy storage module 110. [ In particular, the intelligent switchboard system 100 according to the present invention is characterized in that the energy storage module 110 is connected to a water distribution device or an electric distribution device.

The energy storage module 110 included in the intelligent switchboard system 100 according to the present invention may be a lithium ion secondary battery, a redox flow battery, a sodium selenium battery, High-capacity capacitors, and flywheels. Particularly, in the case of an energy storage module provided in an electric distribution panel, a switchboard or a distribution panel, it is preferable that the lithium ion uses a secondary battery.

Meanwhile, FIG. 5 schematically shows another embodiment of an intelligent switchboard system 100 having an energy storage module according to the present invention. 5, the intelligent switchboard system 100 includes a digital power monitoring controller, a battery management system (BMS), an electrical leak monitoring and circuit breaker, a temperature sensor, and the like for monitoring the status of an installed energy storage module A sensor, a wireless data transmission device, a panel device for power sensing, a power quality monitoring and analysis system, and the like. A driver or an operator of the intelligent switchboard system 100 can manage the energy storage module 110 by wire or wire through Internet monitoring or the like and can remotely control the energy storage module 110 using an intelligent switchboard system 100 may be controlled.

In addition, the intelligent switchboard system 100 having the energy storage module according to the present invention may use a direct current (DC) power distribution system as well as an alternating current power distribution system. The voltage drop and the power loss can be reduced by applying the intelligent switchboard system 100 according to the present invention to the DC power distribution system, thereby improving the power quality.

Also, the intelligent switchboard system 100 having the energy storage module according to the present invention can be applied to an electric vehicle charging station or a charging station of a portable IT device.

As described above, the intelligent switchboard system 100 having the energy storage module according to the present invention can be applied to a load leveling system, an ancillary service, a power quality compensator, an emergency power energy storage module (ESS / BESS) for power source control, renewable energy output control, etc., can contribute to reserve stabilization, improve the quality and reliability of the customer's power, and increase the stability of the power grid connection.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. Accordingly, the spirit of the present invention should not be construed as being limited to the embodiments described, and all of the equivalents or equivalents of the claims, as well as the following claims, belong to the scope of the present invention .

100: Intelligent switchboard system
110: Energy storage module 121: Power controller
122: power management unit 123: battery monitoring management unit
130: Uninterruptible power supply unit 140:
141: Static electricity counterpart 142: UPS replacement part
143: voltage compensating unit 144: power stabilizing unit
145: Load leveling section 146: Peak cut section

Claims (10)

An energy storage module having a chargeable and dischargeable battery;
A battery monitoring management unit for monitoring a state of charge of the energy storage module;
A power management unit for monitoring a state of power in association with the battery monitoring management unit;
A power controller for controlling a power state in cooperation with the power manager; And
And a control unit for controlling an operation state of the energy storage module in association with the battery monitoring management unit,
A first power generated by an external power company or a second power generated by renewable energy is supplied to the energy storage module,
Wherein the control unit controls charge / discharge of the energy storage module according to a supply state of the first power or the second power.
The method according to claim 1,
The power management unit supplies the first power or the second power to the load or supplies the load to the energy storage module,
Wherein the power control unit monitors the supply state of the first power and controls the second power to be supplied to the energy storage module according to a result of the monitoring.
The method according to claim 1,
Wherein the control unit includes an energy storage module that supplies power of the energy storage module to the load instead of the first power when the first power is blocked from being supplied to the load Intelligent switchboard system.
The method of claim 3,
Wherein the power management unit is connected to an uninterruptible power supply unit that supplies power to the load when the first power is not supplied to the load,
Wherein the control unit includes a UPS replacement unit for supplying power to the load instead of the uninterruptible power supply unit when the first power is blocked from being supplied to the load.
The method according to claim 1,
Wherein the control unit includes a voltage compensating unit for compensating for a voltage of the first power supplied to the load by supplying power of the energy storage module to the load or backing up the power. Intelligent switchboard system.
The method according to claim 1,
Wherein the control unit includes a power stabilization unit that supplies an output of the energy storage module to the load when the output or generation amount of the second power is unstable.
The method according to claim 1,
Wherein the control unit includes a load leveling unit that uses the output of the energy storage module to stabilize the system that supplies the first power.
The method according to claim 1,
Wherein the control unit includes a peak cutting unit for supplying the power of the energy storage module to the load when the usage charge or the contract charge of the first power or the second power supplied to the load becomes the maximum An intelligent switchboard system having an energy storage module.
The method according to claim 1,
Wherein the control unit includes a warning unit to warn an operation state or a charge / discharge state of the energy storage module,
Wherein the warning unit is associated with the self-diagnosis function of the energy storage module.
10. The method of claim 9,
Wherein the warning unit is interlocked with a communication control unit that transmits a warning message to a user by wire / wireless communication.

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