KR101283652B1 - Prevention device of the shut off overload and supply power and method thereof - Google Patents

Abstract

PURPOSE: Overload and supply power cut off prevention apparatus and method are provided to easily manage the maximum power consumption by calculating power consumption through an electricity meter. CONSTITUTION: An electricity meter unit checks power consumption. A first opening/closing unit (20) is connected to an input end of a backup power charge unit (30). The first opening/closing unit is connected to a power line of a load side. A second opening/closing unit (40) is connected to an output end of the backup power charge unit. A power control unit sets up reference power consumption.

Description

Prevention device of the shut off overload and supply power and method

The present invention relates to a technology for preventing overload and blocking of power supply. More specifically, when the power consumption is not high, the backup power is charged, and when the power consumption exceeds the power supply, the power is charged at a peak value of power consumption. The present invention relates to an overload and a power supply blocking device and method for preventing an overload of power consumption as well as preventing a power supply interruption (disruption) of a load.

In general, in the summer and winter, the demand for power for heating and cooling is inevitably increased, and accordingly, power generation facilities must be equipped according to the increasing demand for power.

However, there are considerable difficulties in the construction of additional power generation facilities due to the cost burden, land security, environmental pollution, and local opposition. Therefore, power supply from KEPCO does not create new power generation facilities. In many cases, the power supply was interrupted, and in particular, the operation or the industrial facilities were interrupted or the production of the product was interrupted.

Accordingly, as in the invention “Hybrid power system and its control method” of Korean Patent Laid-Open Publication No. 10-2006-0117831 (published on November 17, 2006), a self-generating power plant is installed in an industry having a relatively large scale. By doing so, it is preparing to cut off power supply through self-power generation. However, since the self-power generation facility is a countermeasure facility due to the occurrence of power failure situation, it cannot be prevented against power failure. Due to the cost burden of installing a self-generating power plant, such a self-generating power plant could not be built at all.

Accordingly, the present invention is to improve the conventional problems as described above, the power consumption is calculated by using an electric meter in the state of setting the standard power consumption, when the power consumption is less than the set standard power consumption, the reserve power in the battery If the power consumption is higher than the set reference power consumption, by configuring the system to supplement the reserve power charged in the battery, by managing the maximum power consumption at the load side does not always exceed the set reference power, thereby improving the load rate It is an object of the present invention to provide an overload and a power supply prevention device and method for preventing an overload as well as an interruption of supply power, that is, a power failure.

The present invention to achieve the above object is an overload and supply power cut-off prevention device, the metering unit for checking the power consumption supplied from the power supply; A first opening / closing unit which is turned on / off according to a comparison result between a supply power and a reference power consumption arbitrarily set when power is supplied to the load side via the metering unit; A preliminary power charging unit which charges the preliminary power with the power supplied from the metering unit to the load side during the on operation of the first opening / closing unit, and stops charging of the preliminary power during the off operation of the first opening / closing unit; A second opening / closing unit which is turned on / off to supply the load side with the reserve power charged to the reserve power charging unit according to a comparison result of the reference power consumption in which the supply power is arbitrarily set; And the reference power consumption is set and stored, and comparing the set reference power consumption with the power consumption checked from the metering unit to supply power from the power supply to the load side, the first switching unit is turned on and operated. The switch is turned off to charge the reserve power of the reserve power charging unit, or the first switch is turned off and the second switch is turned on to supply the reserve power to the load side so that the power supply of the load side is determined. A power control unit controlling the power consumption to be lower than the power consumption; The first switch unit may be connected to an input terminal of the preliminary power charger and a power line of the load side, and the second switch unit may be connected to an output terminal of the preliminary power charger and a power line of the load side. The second opening and closing portion is configured to be connected to the same power line on the load side.

The first opening / closing unit may be turned on according to a control operation of the power control unit so that the preliminary power charging of the preliminary power charging unit is performed when the power consumption supplied to the load side through the metering unit is less than or equal to a reference power consumption. And, when the power consumption is greater than the reference power consumption is configured to operate in accordance with the control operation of the power control unit so that the preliminary power charging to the preliminary power charging unit is cut off.

The second switch may be turned off according to the control operation of the power control unit when the power consumption supplied to the load side through the metering unit is less than or equal to the reference power consumption, and the power consumption amount is greater than or equal to the reference power consumption. When the power supply is cut off (disconnected) from the supply source, the power supply is configured to be turned on in accordance with the control operation of the power control unit to supply the preliminary power charged in the spare power charging unit to the load side.

In addition, the preliminary power charging unit, the rectifier for rectifying the power flowing between the first opening and closing portion and the load side; A storage battery for precharging the rectified power from the rectifier; And an inverter for converting and outputting preliminary power preliminarily charged in the storage battery. .

On the other hand, the overload and supply power cutoff prevention method implemented by the overload and supply power cutoff prevention device, the first step of setting and storing any reference power consumption for the load side; A second step of sensing power consumption while supplying power to a load side along a power line when power is supplied from a power source after the first step; A third step of detecting an hourly power consumption amount on the load side from the second step and comparing the detected hourly power consumption amount with a reference power consumption arbitrarily set from the first step; A fourth step of charging the spare battery by turning on a first opening / closing part positioned between the power supply line and the input terminal of the battery when the power consumption per hour is less than or equal to the reference power consumption as a result of the comparison of the third step; And as a result of the comparison of the third step, supplying power from the power supply to the load side such that the power supplied from the power supply to the load side is lower than the reference power consumption if the hourly power consumption is greater than the reference power consumption. A fifth switch configured to turn off the switch to block charging of the preliminary power, and to turn on the second switch to be positioned between the power supply line and the output terminal of the battery to supply the reserve power of the battery charged from the fourth step to the load side; step; .

Further, when the power supply is cut off (disconnected) from the power supply source after the first step, a sixth step of supplying the spare power charged to the storage battery as emergency power to the load side; As shown in FIG.

In addition, the reference power consumption is set to the average power per hour, or is a predetermined set power set by the user.

As described above, the present invention calculates the power consumption by using an electric meter in a state where the reference power consumption is set, and when the power consumption amount is less than the set reference power consumption, the reserve power is charged to the battery, and the power consumption amount is set. In this case, the system is supplemented with spare power charged to the battery. Through this, the maximum power consumption at the load side is managed not to exceed the set reference power, and the load ratio is improved to cut off the power supply, that is, cut off the power. In addition to preventing the situation, it can be expected to reduce the cost of power consumption.

1 is a schematic block diagram of a device for preventing overload and interruption of power supply according to an embodiment of the present invention.
2, 3 is a flow chart illustrating a method for preventing overload and interruption of power supply in an embodiment of the present invention.
4 is a reference power consumption for preventing overload and cut off of power supply as an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings.

1 is a schematic block diagram of a device for preventing overload and interruption of power supply according to an embodiment of the present invention.

Referring to FIG. 1, in the overload and power supply blocking prevention device according to an embodiment of the present invention, when the power is supplied from the power supply source 100 to the load 200 side, the maximum power consumption of the supplied power is previously determined. By managing so as not to exceed the set reference power consumption, comprising a metering unit 10, the first opening and closing unit 20, the preliminary power charging unit 30, the second opening and closing unit 40, the power control unit 50 will be.

The metering unit 10 is configured to check the power consumption per hour of the supplied power when supplying power from the power supply 100 to the load 200 side.

The first opening / closing unit 20 performs an opening or closing operation of the power control unit 50 on or off, and the input terminal and the load 200 of the preliminary power charging unit 30, in particular, the preliminary power charging unit 30. Is connected to the power line of the side, when the on-off operation of the first opening and closing unit 20, the power supplied through the metering unit 10 is supplied to the load 200 side, as well as the preliminary power charging unit 30 The preliminary power charging is performed through the supply power, and the preliminary power charging of the preliminary power charging unit 30 is interrupted when the first opening / closing unit 20 is turned off.

At this time, the first opening and closing unit 20 is turned on according to the control operation of the power control unit 50 when the power consumption is less than the reference power consumption is set, such as the section except the A, B section as shown in FIG. As shown in FIG. 4, when the power consumption amount is larger than the reference power consumption, such as the A and B sections, the power consumption is performed according to the control operation of the power controller 50.

The preliminary power charging unit 30 is connected to a power line on the load 200 side, and charges the preliminary power when power is supplied to the load 200 side, which is a rectifier 31 and a storage battery 32. And the inverter 33 is configured.

The rectifier 31 rectifies (AC → DC) power supplied from the load 200 side when the first opening / closing part 20 is turned on, and the storage battery 32 rectifies from the rectifier 31. The inverter 33 is configured to charge the electric power to be used as a reserve power, and the inverter 33 is configured to supply the reserve power charged to the storage battery 32 to the load 200 as needed after converting output (DC → AC). Will be.

The second opening and closing part 40 is connected to the output terminal of the preliminary power charging unit 30, in particular, the preliminary power charging unit 30 and the power line on the load 200 side, and charges the preliminary power charging unit 30. The off / on operation is to supply or cut off the reserve power to the load 200 side, and the off / on operation is performed under the control of the power control unit 50.

At this time, the second opening and closing unit 40 according to the control operation of the power control unit 50 when the power consumption is less than or equal to the reference power consumption is set, such as the section except the A, B section as shown in FIG. In the power supply 100 when the operation is off, and when the power consumption is greater than the reference power consumption is set, such as the A, B section is set as shown in Figure 4 or the power supply is cut off (disconnected) from the power supply 100 In accordance with the control operation of the power controller 50 so that the power supplied to the load 200 is lower than the reference power consumption, the load 200 is charged with the reserve power charged in the storage battery 32 of the reserve power charging unit 30. It is configured to supply to the side.

The power controller 50 stores and stores a reference power consumption arbitrarily designated by a user, and compares the set power consumption with the power consumption checked by the meter 10 to supply the power from the power supply 100. The on / off operation of the first opening / closing unit 20, as well as the second opening / closing unit, to supply the power to the load 200 side or to supply the reserve power charged to the preliminary power charging unit 30 to the load 200 side. The off / on operation of 40 is selectively controlled, and the reference power consumption is set to an average power per hour or a predetermined set power set by a user.

Referring to the operation according to the embodiment of the present invention configured as described above with reference to Figs. 1 to 4, first, in the home or industrial site, the user is the reference power consumption for all load side, that is, average power per hour or arbitrary set power After setting this and store it in the power control unit 50.

Next, in the state where the reference power consumption is set and stored as described above, when power is supplied from the power supply destination 100, the supplied power is supplied to the load 200.

At this time, the metering unit 10 detects the power supplied from the power supply source 100 to the load 200 and provides it to the power control unit 50, wherein the power control unit 50 is the metering unit ( When the power consumption supplied to the load 200 through 10 is less than or equal to the reference power consumption, the first opening / closing unit 20 is turned on while the second opening / closing unit 40 is turned off while the preliminary power charging unit ( 30) is charged with reserve power.

That is, since the rectifier 31 included in the preliminary power charging unit 30 is connected to a power line on the load 200 side, the rectifier 31 is connected to the load (i) when the on / off operation of the first opening / closing unit 20 is performed. After rectifying (AC → DC) the power flowing to the side 200 and supplying it to the storage battery 32, the storage battery 32 is to charge the power rectified from the rectifier 31 as a reserve power.

Here, since the power consumption per hour of the load 200 is sensed by the metering unit 10 and then transmitted to the power control unit 50, the power control unit 50 is the power per hour detected by the metering unit 10 It is possible to compare the consumption and the reference power consumption that is set and stored.

However, when the power consumption per hour is greater than the reference power consumption, the power control unit 50 is so that the power supplied from the power supply 100 to the load 200 is lower than the reference power consumption, the first opening and closing unit 20 The second operation to block the preliminary power from being charged to the storage battery 32 of the preliminary power charging unit 30 while supplying the preliminary power charged to the storage battery 32 to the load 200. A control operation for turning on the opening and closing unit 40 is performed.

That is, the power control unit 50 turns on the first opening and closing unit 20 when the power consumption is less than or equal to the reference power consumption is set, such as a section excluding the A, B section as shown in Figure 4, The second opening / closing unit 40 is turned off so that the power through the power supply 100 can be charged in the storage battery 32.

On the other hand, when the power consumption is greater than the reference power consumption is set as shown in the A, B section as shown in Figure 4, the power control unit 50 while operating the first opening and closing unit 20, the second opening and closing unit 40 ) Is turned on to operate in parallel with the power supplied from the power supply 100 to the load 200 so that the power supplied to the load 200 through the power supply 100 is lower than the reference power consumption. The preliminary power charged in the storage battery 32 is supplied to the load 200 through the inverter 33.

On the other hand, when the power supply is cut off (disconnected) from the power supply destination 100, the power control unit 50 performs a control operation to turn on the second opening and closing unit 40, accordingly to the storage battery 32 The stored reserve power is to be supplied to each of the load 200 as an emergency power through the inverter 33 to improve the inconvenience caused by the power failure.

Although the technical concept of the overload and the supply power cut-off prevention device and method of the present invention has been described with the accompanying drawings, this is for illustrative purposes only and not for limiting the present invention.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit and scope of the invention as defined by the appended claims. It is to be understood that such changes and modifications are within the scope of the claims.

10; Metering unit 20; 1st opening and closing part
30; Backup power charging unit 31; rectifier
32; Storage battery 33; inverter
40; Second opening and closing part 50; Power control unit
100; Power supply 200; Load

Claims (8)

A metering unit checking power consumption supplied from a power supply; A first opening / closing unit connected to an input terminal of the preliminary power charging unit and a power line of the load side to operate on / off according to a comparison result of supply power and a reference power consumption arbitrarily set when power is supplied to the load side via the metering unit; A preliminary power charging unit which charges the preliminary power with the power supplied from the metering unit to the load side during the on operation of the first opening / closing unit and stops charging of the preliminary power during the off operation of the first opening / closing unit; A second opening / closing unit connected to an output end of the preliminary power charging unit and a power line of the load side such that a supply power is turned on / off to supply the preliminary power charged to the preliminary power charging unit to the load side according to the comparison result of the reference power consumption; And a power controller configured to store and set a reference power consumption. Including but not limited to:
The power control unit turns on the first opening and closing unit so that the preliminary power charging of the preliminary power charging unit is performed when the power consumption consumed by the load side through the metering unit is less than or equal to a reference power consumption, and supplies the preliminary power to the load. The second switching unit is turned off to cut off the power, and when the power consumption consumed at the load side through the metering unit is greater than the reference power consumption, the power supplied from the power supply source to the load is blocked by blocking the preliminary power charging to the reserve power charging unit. And a control operation to turn off the first opening and closing portion so as to be lower than the power consumption, and to perform a control operation of turning on the second opening and closing portion to supply the preliminary power to the load. delete delete The method of claim 1, wherein the reserve power charging unit,
A rectifier for rectifying electric power flowing between the first opening and closing portion and the load side;
A storage battery for precharging the rectified power from the rectifier; And
An inverter for converting and outputting preliminary power preliminarily charged in the storage battery; Overload and power supply blocking prevention device, characterized in that comprising a. The overload and power supply blocking device of claim 1, wherein the reference power consumption is an average power per hour or a predetermined power set by a user. A first step of setting and storing an arbitrary reference power consumption for the load side;
A second step of sensing power consumption while supplying power to a load side along a power line when power is supplied from a power source after the first step;
A third step of detecting an hourly power consumption amount on the load side from the second step and comparing the detected hourly power consumption amount with a reference power consumption arbitrarily set from the first step;
A fourth step of charging the spare battery by turning on a first opening / closing part positioned between the power supply line and the input terminal of the battery when the power consumption per hour is less than or equal to the reference power consumption as a result of the comparison of the third step; And
As a result of the comparison in the third step, when the power consumption per hour is greater than the reference power consumption, the first switch is turned off so that the power supplied from the power supply to the load side is lower than the reference power consumption, thereby blocking the charging of the reserve power from the power supply source. A fifth step of supplying power to the load side and supplying spare power of the battery charged from the fourth step to the load side by turning on a second opening / closing part located between the power line and an output end of the storage battery; Method for preventing overload and cut off the power supply, characterized in that to proceed. The method of claim 6, further comprising: a sixth step of supplying spare power charged to the storage battery as emergency power to the load side when the power supply is cut off (disconnected) from the power supply after the first step; Method for preventing overload and cut off the power supply, characterized in that further comprising. The method of claim 7, wherein the reference power consumption is an average power per hour or an arbitrary set power set by a user.

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