KR20150047226A - A Smart Uninterruptible Power Supply Apparatus for City Facilities and Control Method thereof - Google Patents

Abstract

A smart uninterruptible power supply apparatus for city facilities is capable of supplying emergency electric power stored in a battery to the city facilities even if commercial power is not supplied from the outside, or backup power is insufficient by rapidly increasing power consumption due to an air conditioning or heating in the summer season or the winter season; and previously preventing major power outages caused by an electric power shortage, by maintaining the power consumption of commercial power as 0 during an allowed time in the city facilities. Moreover, the smart uninterruptible power supply apparatus for the city facilities analyzes power consumption states of the batteries of each uninterruptible power supply apparatus in an external information server by periodically transmitting the power consumption states of the batteries to the external information server, and is cable of supplying a time on which the batteries will be replaced, to an administrator. Accordingly, the administrator can easily confirm the time to replace the batteries without accessing each uninterruptible power supply apparatus, thereby improving efficiency of maintenance and a repair.

Description

Technical Field [0001] The present invention relates to an intelligent uninterruptible power supply for an urban facility,

The present invention relates to an intelligent uninterruptible power supply for a city facility and a control method thereof. More particularly, the present invention relates to a power supply for an urban facility, The present invention relates to an intelligent uninterruptible power supply for an urban facility and a control method thereof, which can prevent a power outage in advance.

Since most of the urban facilities (traffic lights, street lights, CCTV, electric sign boards, etc.) are operated by supplying commercial power from outside, when commercial power is not supplied from outside due to power failure, etc., There is a problem that the function can not be exerted.

In other words, city facilities must operate 24 hours a day, 365 days a year due to increasingly complex and diverse urban conditions. However, they are very vulnerable to power outages and their power consumption can not be ignored.

Especially, the power consumption of the urban facilities is increased due to the heating and cooling in the summer and winter, so that even when the reserve power is insufficient, the commercial power supply continuously supplied from the outside is used, which causes no problem in terms of energy saving have.

Patent registration 10-1207142 (2012.11.26)

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above-mentioned problems of the prior art, and it is an object of the present invention to provide a power supply system for an urban facility, And to provide a control method for the intelligent uninterruptible power supply for city facilities that can prevent a large-scale power outage caused by a power failure.

According to an aspect of the present invention, there is provided an intelligent uninterruptible power supply for an urban facility, comprising: a communication unit for receiving preliminary power level information and environment information from an external information server and storing the preliminary power level information and environment information in a memory; When the commercial power is normally supplied from the outside, the power mode is set to the normal mode, and the commercial power supplied from the outside is supplied to the city facilities as the driving power while the commercial power is used to charge the battery. A controller for setting the power mode to the emergency mode and supplying the emergency power charged in the battery to the urban facility as driving power when the power is not supplied or the commercial power is normally supplied from the outside; And a battery state checking unit periodically checking the power consumption state of the battery and transmitting the checked state of the battery to an external information server through the communication unit, wherein the controller is configured to determine, based on preliminary power level information or environment information received from an external information server The power supply mode is set to the emergency mode, the commercial power supplied from the outside is cut off, and the emergency power supply charged in the battery is supplied to the urban facility as the driving power, when it is determined that the reserve power is insufficient. do.

According to another aspect of the present invention, there is provided a method of controlling an intelligent uninterruptible power supply for an urban facility, comprising: (a) setting a power mode to a normal mode when a commercial power is normally supplied from the outside; Charging a battery using a commercial power source while supplying a commercial power source supplied from outside to a city facility as a driving power source; (b) if the commercial power is not supplied from the outside, or even if the commercial power is normally supplied from the outside, if it is determined that the preliminary power is insufficient based on the preliminary power level information or the environment information received from the external information server, Setting the power mode to the emergency mode, shutting off the commercial power supplied from the outside, and supplying the emergency power charged in the battery to the urban facility as driving power; And (c) periodically checking the power consumption state of the battery and transmitting the checked state to an external information server.

The intelligent uninterruptible power supply for city facilities according to the present invention not only provides utility power from outside but also dramatically increases power consumption due to heating and cooling in summer and winter so that emergency power stored in the battery can be supplied to city facilities Accordingly, the power consumption of the commercial power source is maintained at '0' for a predetermined time in the city facility, thereby preventing large-scale power outage due to power shortage.

In addition, the intelligent uninterruptible power supply for city facilities of the present invention analyzes the power consumption state of each uninterruptible power supply unit in an external information server by transmitting the power consumption state of the battery periodically to an external information server, So that the maintenance time can be easily ascertained by the manager without having to directly access each of the uninterruptible power supply units, thereby improving the maintenance efficiency.

1 is a schematic view of an intelligent uninterruptible power supply for an urban facility according to an embodiment of the present invention.
2 is a block diagram illustrating the configuration of an intelligent uninterruptible power supply for an urban facility according to an embodiment of the present invention.
3 is a flowchart illustrating a method of controlling an intelligent uninterruptible power supply for an urban facility according to an embodiment of the present invention.
4 is a block diagram illustrating a configuration of an intelligent uninterruptible power supply for an urban facility according to another embodiment of the present invention.
5 is a view showing an example of the emergency mode setting order information shown in FIG.
6 is a block diagram illustrating a configuration of an intelligent uninterruptible power supply for an urban facility according to another embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings, so that those skilled in the art can easily carry out the technical idea of 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 the following description, well-known functions or constructions are not described in detail since they would obscure the invention in unnecessary detail.

Prior to describing the present invention, the present invention can be applied not only to a case where commercial power is not supplied from an external source by using an uninterruptible power supply (UPS) but also to an urban facility The UPS can prevent a large-scale power outage due to a shortage of power. To facilitate understanding of the present invention, an uninterruptible power supply (UPS) will be briefly described as follows.

An uninterruptible power supply (UPS) is a term for a power supply that does not have a power outage. It is equipped in a facility where power must always be supplied, such as a semiconductor manufacturing facility or a mobile communication repeater. And so on.

For this purpose, a conventional uninterruptible power supply device has a configuration for temporarily storing power by using a chargeable and dischargeable battery, and instantaneously providing power stored in the event of an emergency such as a power failure.

However, since the conventional uninterruptible power supply apparatus is configured to supply power only when an emergency such as a power failure occurs, when emergency power is supplied to the urban facility using such a conventional uninterruptible power supply apparatus, Even when the power is insufficient, a commercial power source continuously supplied from the outside is used, which may cause a large-scale power failure.

In addition, since the uninterruptible power supply unit of the conventional battery is repeatedly charged and discharged, the power storage capacity of the battery is reduced. Therefore, the maintenance personnel must periodically check the power consumption of the battery and replace the battery. There are many difficulties in.

To this end, the intelligent uninterruptible power supply for city facilities according to the present invention supplies power to city facilities not only when the commercial power is not supplied from the outside but also when the reserve power is insufficient, thereby preventing large-scale power outage due to power shortage And the power consumption state of the battery is periodically transmitted to an external information server so that an external information server can analyze the power consumption state of the battery of each uninterruptible power supply unit to provide the battery replacement point to the manager This is explained in more detail as follows.

FIG. 1 is a schematic view of an intelligent uninterruptible power supply (I / O) device 100 for an urban facility according to an embodiment of the present invention. FIG. 2 is a schematic view of an intelligent uninterruptible power supply 100 for a city facility according to an embodiment of the present invention. Fig.

Referring to FIG. 1, the intelligent uninterruptible power supply (UPS) 100 for an urban facility according to the present invention includes a commercial power source (CP) supplied from the outside to a city facility S when a commercial power source And supplies it as driving power.

Here, the city facility S includes devices using a commercial power source (CP) such as a traffic light, a streetlight, a CCTV, and an electric signboard.

The intelligent uninterruptible power supply unit 100 for an urban facility according to the present invention can receive power from an external information server T even when the commercial power supply CP is not supplied from the outside or even if the commercial power supply CP is normally supplied from the outside. The emergency power EP stored in the internal battery is supplied to the urban facility S as driving power when it is determined that the preliminary power is insufficient based on the preliminary power level information or environmental information.

The intelligent uninterruptible power supply 100 for an urban facility according to the present invention periodically transmits the power consumption state of the internal battery to an external information server T so that an external information server The power consumption state of the battery of the battery can be analyzed so that the replacement time point of the battery can be provided to the manager.

2, the intelligent uninterruptible power supply 100 for an urban facility includes a communication unit 110, a memory unit 120, a controller 130, a battery 140, and a battery state check unit 150 .

The communication unit 110 receives the preliminary power level information and the environment information from the external information server T and stores the preliminary power level information and the environment information in the memory unit 120.

Herein, the preliminary power level information represents the preliminary power level according to the current power supply / demand status in stages. The preliminary power level information includes a preparation level (preliminary power: 4 million to 5 million kW) (Preliminary power of 3 million to 4 million kilowatts), the third stage of cautionary stage (preliminary power of 2 million to 3 million kilowatts), the fourth stage of boundary stage (reserve power of 1 million to 2 million kW) And a spare power of 1 million kW or less), and the reference value of the spare power in each step can be changed flexibly according to the situation. The environmental information includes weather (snow, rain, fog, heavy rain, heavy snow, etc.), temperature, and humidity.

The control unit 130 sets the power mode to the normal mode and supplies the commercial power source CP supplied from the outside to the city facility S as the driving power source while the commercial power source CP is normally supplied from the outside, The battery 140 is charged using the power source CP.

When the commercial power supply CP is not supplied from the outside due to a power failure or the like, the control unit 130 sets the power supply mode to the emergency mode and the emergency power supply EP) to the city facilities S as driving power.

If the control unit 130 determines that the commercial power (CP) is normally supplied from the outside but the spare power is insufficient based on the preliminary power level information or the environment information received from the external information server T The power supply mode is set to the emergency mode and the commercial power supply CP supplied from the outside is cut off and the emergency power supply EP charged in the battery 140 is supplied to the city facility S as driving power.

At this time, the controller 130 determines that the preliminary power is insufficient if the preliminary power level information received from the external information server T is three or more levels, that is, a caution level, a boundary level or a serious level.

The control unit 130 compares the environmental information (temperature, humidity, etc.) received from the external information server T with environmental information (temperature, humidity, etc.) at the time of blackout stored in the memory unit 120, (For example, within 5%), it is determined that there is a blackout possibility, that is, a state in which the reserve power is insufficient.

That is, the conventional uninterruptible power supply apparatus instantaneously provides power reserved only when an emergency situation such as a power failure occurs. However, the intelligent uninterruptible power supply apparatus 100 for a city facility of the present invention is a system in which the commercial power supply (CP) The power consumption of the commercial power supply (CP) is set to '0' for a predetermined time in the city facility (S), so that the power consumption of the commercial power supply (CP) So that a large-scale power outage due to power shortage can be prevented in advance.

The battery state check unit 150 periodically checks the power consumption state of the battery 140 and transmits the battery state information to the external information server T through the communication unit 110. Accordingly, And analyzes the power consumption state of the battery of the UPS device 100 to provide a replacement time point of the battery to the manager.

That is, since the battery of the uninterruptible power supply unit is repeatedly charged and discharged to reduce the power storage capacity, it is necessary to replace the battery periodically. In the past, maintenance personnel have to check the power consumption state of the battery, However, according to the present invention, since the manager can easily confirm the battery replacement point without directly accessing each UPS, the maintenance efficiency can be improved.

3 is a flowchart illustrating a method of controlling the intelligent uninterruptible power supply 100 for an urban facility according to an embodiment of the present invention.

First, the control unit 130 determines whether a commercial power supply (CP) is normally supplied from the outside (S300).

When the commercial power supply CP is normally supplied from the outside, the controller 130 sets the power supply mode to the normal mode (S310), and supplies the commercial power supply (CP) The battery 140 is charged using the commercial power supply CP while supplying the driving power to the battery S (S320).

Next, if it is determined that the preliminary power is insufficient based on the preliminary power level information or the environment information received from the external information server T (S330), the controller 130 sets the power mode to the emergency mode (S340). If the emergency power source EP charged in the battery 140 is equal to or greater than the minimum power level (e.g., 20%) (S350), the commercial power source CP, (EP) charged in the power supply 140 to the driving power source (S360).

When the emergency power source EP charged in the battery 140 is supplied to the driving power source, the control unit 130 transmits an emergency situation message to the external information server T through the communication unit 110 (S370) Accordingly, the external information server T transmits the emergency situation message of the UPS 100 to the manager's portable terminal (not shown), and notifies the manager of the emergency situation.

While the emergency power source EP charged in the battery 140 is supplied to the driving power source according to the emergency mode, the battery state check unit 150 periodically checks the power consumption state of the battery 140, The external information server T analyzes the power consumption state of the battery of each uninterruptible power supply apparatus 100 and provides the replacement time of the battery to the manager do.

On the other hand, if the commercial power supply CP is not supplied from the outside due to the power failure or the instantaneous voltage drop in step S300, the controller 130 sets the power mode to the emergency mode (S340) If the emergency power EP is greater than or equal to the minimum power level (e.g., 20%) (S350), the emergency power source EP, which is charged in the battery 140, To the city facility S (S360).

If the emergency power source EP charged in the battery 140 is not higher than the minimum power level (for example, 20%) at step S350, the control unit 130 determines whether the commercial power source CP is normally supplied (S300).

That is, the intelligent uninterruptible power supply (UPS) 100 for an urban facility according to the present invention can be used not only when the commercial power supply (CP) is not supplied from the outside, but also when power consumption due to cooling and heating in summer and winter is drastically increased, To the city facility S by keeping the power consumption of the commercial power supply (CP) at '0' for a predetermined time in the city facility S, thereby preventing a large-scale power outage Can be prevented in advance.

Meanwhile, in the present embodiment, the power mode of the intelligent uninterruptible power supply 100 for each city facility is set to the emergency mode when it is determined that the reserve power is insufficient. However, in some cases, The uninterruptible power supply 100 for supplying electric power to a city facility having a low priority according to importance or usage may be set to the emergency mode first.

FIG. 4 is a block diagram illustrating a configuration of an intelligent uninterruptible power supply for an urban facility 400 according to another embodiment of the present invention, and FIG. 5 is a diagram illustrating an example of the emergency mode setting order information shown in FIG.

Referring to FIG. 4, the intelligent uninterruptible power supply unit 400 for an urban facility according to another embodiment of the present invention receives emergency mode setting order information together with spare power level information from an external information server T, The same components and components as those of the intelligent uninterruptible power supply 100 for city facilities shown in Fig. 2 are provided, except that the installation area, importance, and usage information of the city facilities are stored in the storage unit 120, .

Here, the emergency mode setting order information may be set in the order that the emergency mode is first set up from the city facilities having lower priority according to the installation area, importance, or usage of the urban facilities as shown in FIG.

For example, the ranking of the emergency mode setting is based on the installation area of the urban facilities such as the urban facilities on the outskirts of the first city, the urban facilities on the secondary urban suburbs, the urban facilities on the third urban centers, Mode can be set in the order in which they are set. The priority is given to the priority of the city facilities, such as the urban facilities in the first residential area, the urban facilities in the second commercial area, and the urban facilities in the third industrial complex, Emergency mode can be set in the order in which it is set. In addition, the emergency facilities may be set in the order of setting the emergency mode from the low-priority city facilities according to the use of the urban facilities, such as the first-order lighting facilities, the second-ranking information provision facilities, and the third-level control facilities.

That is, when it is determined that the standby power is insufficient, the control unit 130 determines the installation area of the urban facilities stored in the memory unit 120 according to the emergency mode setting order information received from the external information server T, The power mode is set to the emergency mode, and the stepwise power control can be performed by setting the emergency mode from the low priority facility to the emergency mode.

In the above description, the case where it is determined whether the standby power is insufficient is determined based on the preliminary power level information or the environment information received from the external information server T. However, The preliminary power level information or the environment information may not be received. To this end, in the present invention, the surrounding environment information is measured and compared with the surrounding environment information at the time of blackout, This is explained in more detail as follows.

6 is a block diagram showing a configuration of an intelligent uninterruptible power supply 600 for an urban facility according to another embodiment of the present invention.

Referring to FIG. 6, the intelligent uninterruptible power supply 600 for an urban facility according to another embodiment of the present invention includes an environmental sensor unit 160 for measuring environmental information, The components are the same as the intelligent uninterruptible power supply 100 for the city facilities shown and have similar operating performance and effects.

The controller 130 compares the measured temperature and humidity of the surrounding environment with the temperature and humidity at the time of blackout stored in the memory unit 120, And the difference in humidity is equal to or less than a predetermined reference range (for example, within 5%), it is determined that there is a possibility of blackout, that is, a state in which reserve power is insufficient.

The control unit 130 sets the power mode to the emergency mode so that the emergency power EP charged in the battery 140 is at least the minimum power level (for example, 20%) or more The emergency power supply EP cuts off the commercial power supply CP supplied from the outside according to the emergency mode and supplies the emergency power supply EP charged in the battery 140 to the city facility S as the driving power.

As described above, the intelligent uninterruptible power supply for city facilities according to the present invention can be used not only in the case where no commercial power is supplied from outside but also in a case where the power consumption due to heating and cooling in summer and winter is rapidly increased, Power is supplied to the urban facilities, and thus the power consumption of the commercial power supply is maintained at '0' for a predetermined time in the urban facility, thereby preventing a large-scale power outage due to power shortage in advance.

The preferred embodiments of the present invention have been described above. It is to be understood, however, that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and alternative arrangements included within the spirit and scope of the appended claims. Of course.

100, 400, 600: Intelligent uninterruptible power supply for city facilities
110:
120: memory unit
130:
140: Battery
150: Battery condition check unit
160: Environmental sensor unit
S: City facilities

Claims (15)

A communication unit for receiving the preliminary power level information and the environment information from an external information server and storing the preliminary power level information and the environment information in a memory unit;
When the commercial power is normally supplied from the outside, the power mode is set to the normal mode, and the commercial power supplied from the outside is supplied to the city facilities as the driving power while the commercial power is used to charge the battery. A controller for setting the power mode to the emergency mode and supplying the emergency power charged in the battery to the urban facility as driving power when the power is not supplied or the commercial power is normally supplied from the outside; And
And a battery state checking unit periodically checking a power consumption state of the battery and transmitting the checked state to an external information server through the communication unit,
Wherein,
When it is determined that the preliminary power is insufficient based on the preliminary power level information or the environment information received from the external information server, the power mode is set to the emergency mode and the commercial power supplied from the outside is shut off, And the emergency power source is supplied to the urban facility as a driving power source.
The method according to claim 1,
The preliminary power level information includes one of a preparatory stage of a first stage, an interest stage of a second stage, an attention stage of a third stage, a boundary stage of a fourth stage, and a critical stage of a severe stage of a fifth stage, Step information is included,
Wherein,
Wherein the controller determines that the preliminary power is insufficient if the preliminary power level information received from the external information server is three or more levels.
The method according to claim 1,
Wherein the environmental information includes at least one of weather, temperature, and humidity.
The method according to claim 1,
When the emergency mode setting order information is received from the external information server together with the spare power step information,
Wherein,
If it is determined that the preliminary power is insufficient based on the preliminary power level information received from the external information server, the installation area, importance or the like of the city facility stored in the memory unit according to the emergency mode setting order information received from the external information server And the power mode is set to the emergency mode by confirming the purpose of use.
The method according to claim 1,
Wherein the emergency mode setting order information is set in the order that the emergency mode is set first from the city facilities having low priority according to the installation area, importance, or use of the urban facilities.
The method according to claim 1,
And an environmental sensor unit for measuring the ambient temperature and humidity.
The method according to claim 6,
If no preliminary power level information or environment information is received from an external information server,
Wherein,
The controller compares the ambient temperature and humidity measured through the environmental sensor unit with the temperature and humidity at the time of blackout, and determines that the reserve power is insufficient if the difference between the temperature and the humidity is less than a preset reference range.
The power supply mode is set to the emergency mode, the commercial power supplied from the outside is cut off, and the emergency power charged in the battery is supplied to the urban facility as the driving power, Intelligent uninterruptible power supply for urban facilities.
The method according to claim 1,
Wherein the control unit transmits an emergency status message to an external information server through the communication unit to notify the emergency situation to the manager when the power mode is set to the emergency mode.
(a) when the commercial power is normally supplied from the outside, setting the power mode to the normal mode and charging the battery using the commercial power while supplying the commercial power supplied from the outside to the facility as driving power;
(b) if the commercial power is not supplied from the outside, or even if the commercial power is normally supplied from the outside, if it is determined that the preliminary power is insufficient based on the preliminary power level information or the environment information received from the external information server, Setting the power mode to the emergency mode, shutting off the commercial power supplied from the outside, and supplying the emergency power charged in the battery to the urban facility as driving power; And
(c) periodically checking the power consumption state of the battery and transmitting the checked state to an external information server.
10. The method of claim 9,
In the step (b)
The preliminary power level information includes one of a preparatory stage of a first stage, an interest stage of a second stage, an attention stage of a third stage, a boundary stage of a fourth stage, and a critical stage of a severe stage of a fifth stage, Step information is included,
Wherein the controller determines that the preliminary power is insufficient if the preliminary power level information received from the external information server is three or more levels.
10. The method of claim 9,
Wherein the environmental information includes at least one of weather, temperature, humidity, and air pollution.
10. The method of claim 9,
In the step (b)
When the emergency mode setting order information is received from the external information server together with the spare power step information,
If it is determined that the preliminary power is insufficient based on the preliminary power level information received from the external information server, the installation area, importance or usage of the city facility is checked according to the emergency mode setting order information received from the external information server And the power mode is set to the emergency mode.
13. The method of claim 12,
Wherein the emergency mode setting order information is set in the order that the emergency mode is first set up from the lower-priority city facilities according to the installation area, importance, or use of the urban facilities.
10. The method of claim 9,
In the step (b)
When the preliminary power level information or the environment information is not received from the external information server, the surrounding temperature and humidity are measured, and the measured ambient temperature and humidity are compared with the temperature and humidity at the time of blackout stored in advance, And judging that the preliminary power is insufficient if the difference in humidity is below a predetermined reference range;
The power supply mode is set to the emergency mode, the commercial power supplied from the outside is cut off, and the emergency power charged in the battery is supplied to the urban facility as the driving power, Control Method of Intelligent Uninterruptible Power System for Urban Facilities.
10. The method of claim 9,
Further comprising the step of transmitting an emergency situation message to an external information server to notify an emergency situation to the manager when the power mode is set to the emergency mode.

Images