KR101173114B1 - Power controlling apparatus for power source using remaking energy in building - Google Patents

Abstract

PURPOSE: A power control device for a building is provided to improve energy storage efficiency by converting power generated by wind or fluid flow into DC. CONSTITUTION: A utility power AC-DC converting unit(110) converts AC into DC and outputs the DC to an integration unit. A DC converting unit(120) converts power from renewable energy into DC used for a load and outputs the DC to the integration unit. The integration unit includes a buck converter. The buck converter converts DC power to be used for the load and outputs the DC to the load. An energy storage unit(140) stores DC inputted to the integration unit according to the control of a control unit.

Description

Power control device for building using energy stored in energy storage unit {POWER CONTROLLING APPARATUS FOR POWER SOURCE USING REMAKING ENERGY IN BUILDING}

The present invention relates to a power control device for a building, and more particularly, to a power control device that can be used by storing the power used in the building in the energy storage.

The power supplied to the building is typically 220V commercial power. It is directly connected to the power cable from the outside, and is supplied to the inside of the building through an electricity supply device located in the basement of each building. In recent years, in order to reduce the consumption of commercial power, solar power is sometimes used to utilize natural energy such as sunlight.

On the other hand, buildings such as hospitals are also supplied with commercial power from the outside to use a variety of equipment, such as a hospital, uninterruptible power supply (UPS), etc. are installed in the building to be always powered. However, because the UPS is not long life, after a certain period of time, there is a problem to replace the new one.

Therefore, a building such as a hospital, such as a large facility is equipped with a power generation facility that can generate electricity, even in the case of emergencies may generate their own power for a certain time to be used in the building.

As such, when a problem occurs in the power supply to the building due to an emergency, a problem arises that it is difficult to operate most equipment using AC power.

The present invention is to solve the above problems, the present invention is to provide a technology that can be stably supplied power in addition to the commercial power in the building.

In order to achieve the above object, the building power control device using energy stored in the energy storage unit of the present invention receives a commercial AC power supplied to the building from the outside, converts it into direct current, and outputs it to the integrated unit. part; A direct current conversion unit which receives power from at least one renewable energy and converts it into direct current that can be used in a load and outputs it to an integrated unit; Receives the converted DC power from the commercial power AC-DC converter and the DC converter, respectively, integrates the DC power, converts the integrated DC power into DC power usable by the load, and outputs the load to the load side. An integrator comprising a buck convertor to make a buck converter; An energy storage unit for storing the power of the DC power input to the integrated unit under control of the controller; And a control unit for controlling the integrated unit to output the DC power stored in the energy storage unit to the load through the integrated unit when the power of the integrated DC power falls below a predetermined level, and the controller detects whether there is a load. And control the integrating unit to store the power of the DC power integrated in the integrating unit as it is before the buck convertor in the integrating unit stores the energy storage unit in the energy storage unit as long as the load is less than a predetermined reference. It is characterized in that it comprises a; distribution unit for supplying the DC power to the load and receiving the power of the DC power output from the DC-AC converter for supplying AC power to the load.

The renewable energy uses a flow rate in the pipe, and the energy storage unit uses a lithium ion battery.

The DC converter may include a DC-DC converter configured to receive a DC power generated using the sun as renewable energy and convert the DC power to a DC for use in a load; And an AC-DC converter that receives the AC power generated by using renewable energy, such as wind, hydraulic power, and tidal power, and converts the DC power into DC. The renewable energy may be used alone or in parallel with each other or with a flow rate in the pipe. In order to achieve the above object, a building power supply control apparatus using the renewable energy of the present invention as a power source includes a commercial power AC-DC converter for converting and outputting a DC by receiving an AC power commercially available from the outside; A DC conversion unit receiving power from at least one renewable energy and converting the DC into a DC that can be used in a load; An integrating unit for receiving the DC power from the commercial power AC-DC converter and the DC converter, respectively, and integrating the DC power into the load side; A DC-AC converter which receives the DC power output from the integrated unit and converts the DC power into AC; And a control unit for detecting whether there is power supplied to the commercial power AC-DC converter and the DC converter, and controlling the integrated unit.

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The DC converter may include a DC-DC converter configured to receive a DC power generated using renewable energy and convert the DC power to a DC for use in a load; And an AC-DC converter which receives AC power generated by using renewable energy and converts the DC power into DC.

In this case, the renewable energy generating the DC power supplied from the DC-DC converter is characterized in that the solar light, the renewable energy generating the AC power supplied from the AC-DC converter is characterized in that the wind or flow rate. do.

According to the power control device for a building using energy stored in the energy storage unit according to the present invention having the above configuration, since the power generated by using solar light, wind power, or flow rate is converted into DC power and stored therein, AC Compared to the UPS that used to store power, the efficiency of storing energy can be increased.

Furthermore, since it is possible to convert the energy stored in DC power back to AC power as described above, it is possible to use various electronic devices used in the building normally, and the energy storage unit stored as surplus power in an emergency situation. Since the power stored in the device can be used, the safety is increased.

1 is a view showing a power control device for a building using energy stored in the energy storage of the present invention.

The preferred embodiments of the present invention will be described in more detail with reference to the accompanying drawings, in which the technical parts already known will be omitted or compressed for simplicity of explanation.

Building power control device 100 using the energy stored in the energy storage of the present invention is a commercial power AC-DC converter 110, DC converter 120, integrated unit 130, energy storage unit 140 , A distribution unit 160, a DC-AC converter 150, and a controller 170, which will be described with reference to the drawing illustrated in FIG. 1.

Commercial power AC-DC converter 110 receives a 220V AC power commercially available from the outside to convert to DC. Commercial power AC-DC converter 110 is to receive the AC power supplied to a normal building as it is, in one embodiment of the invention all commercial power supplied to the building commercial power AC-DC converter 110 Through the building.

The DC converter 120 receives power from the outside and converts the power into DC power. In the present invention, the DC converter 120 converts power generated by using at least one renewable energy to DC. And, as shown in Figure 1, it comprises a DC-DC converter 122 and the AC-DC converter 124.

The DC-DC converter 122 receives power generated by DC from the outside and converts the voltage into a voltage that can be output to the integrator 130. In this case, the power supplied to the DC-DC converter 122 is supplied with DC power generated using sunlight, which is one of renewable energy. And renewable energy that can be generated by direct current in addition to sunlight, any of which can supply power to the DC-DC converter 122, of course.

The AC-DC converter 124 receives power generated by alternating current from outside and converts it into direct current and outputs it to the integrated unit 130. In this case, the power supplied to the AC-DC converter 124 may be any one that can generate AC power among renewable energy. The renewable energy may be any one or more of wind speed, hydraulic power, tidal and flow through the pipe. In other words, as long as the turbine is turned to generate AC power, power can be supplied to the AC-DC converter 124.

Here, the commercial power AC-DC converter 110, the DC-DC converter 122, and the AC-DC converter 124 all output DC power, and the output voltages of the present invention are all converted to 42V.

The integration unit 130 receives the power converted into the DC power from the commercial power AC-DC converter 110 and the DC converter 120. The integrated unit 130 receives and integrates 42 V DC power from the commercial power AC-DC converter 110 and the DC converter 120, and stores the energy storage 140, under the control of the controller 170. Output to the distribution unit 160 and the AC-DC converter.

In addition, the DC power output from the integration unit 130 to the distribution unit 160 or the AC-DC conversion unit converts DC power into power of 24V / 10A and outputs the converted DC power. That is, in the integrated unit 130, the DC power supplied is converted into various voltages as necessary to output.

In addition, the integrated unit 130 serves to supply the DC power supplied under the control of the controller 170 to the energy storage unit 140. That is, the integrator 130 may be a buck converter including a switching function and capable of DC-DC conversion.

The energy storage unit 140 stores the DC power, and receives and stores the DC power output from the integrated unit 130. At this time, even if the integrated unit 130 can convert the voltage of the DC power as needed, the DC power stored in the energy storage unit 140 is preferably stored in the DC power supplied to the first integrated unit 130 as it is. Do. That is, in one embodiment of the present invention, since the integrated unit 130 receives 42 V DC power from the commercial power AC-DC converter 110 and the DC converter 120, the 42 V DC power is stored as it is. To 140.

In an embodiment of the present invention, the energy storage unit 140 may use a lithium ion battery to increase energy density and efficiency than performance of a lead acid battery used in a UPS.

The DC-AC converter 150 receives 24V / 10A DC power output from the integrated unit 130 and converts the DC power to 220V AC power. Therefore, even in the case of electronic devices using a variety of AC power in the building can be used as it is.

And the AC power output from the DC-AC converter 150 of the present invention is output at the same 220V as commercial AC power, but includes the power generated from renewable energy. That is, the existing commercial power source can be used as little as the power generated from the renewable energy.

The distribution unit 160 is electrically connected to a load using a DC power supply, and receives the DC power output from the integrator 130 to supply power to the load.

The control unit 170 detects whether a load is using power by being electrically connected to the DC-AC converter 150 and the distribution unit 160. When there is no load being used, the integrated unit 130 is controlled to output the DC power supplied to the integrated unit 130 to the energy storage unit 140 as it is. In this case, the DC power stored in the energy storage unit 140 remains unchanged in the integrated unit 130 such as a voltage drop.

If a problem occurs in any one or more of the power generated from the renewable energy supplied to the commercial power AC-DC converter 110 and the DC converter 120 supplied to the commercial power AC-DC converter 110. The DC power supplied to the integrator 130 may fall below a certain level. In this case, the controller 170 controls the DC power stored in the energy storage 140 to be supplied to the integrator 130.

That is, when the 42V DC power is not smoothly supplied from the commercial power AC-DC converter 110 and the DC converter 120, the 42V DC power stored in the energy storage 140 is transferred to the integrated unit 130. Since it is supplied, the DC power output from the integrator 130 can be normally output.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. And the scope of the present invention should be understood as the following claims and their equivalents.

100: power control device for buildings
110: commercial power AC-DC converter
120: DC converter 122: DC-DC converter
124: AC to DC converter
130: integrated unit 140: energy storage unit
150: DC-AC conversion unit 160: distribution unit
170:

Claims (6)

A commercial power AC-DC converter that receives commercial AC power supplied to the building from the outside and converts the DC into an integrated unit;
A direct current conversion unit which receives power from at least one renewable energy and converts it into direct current that can be used in a load and outputs it to an integrated unit;
Receives the converted DC power from the commercial power AC-DC converter and the DC converter, respectively, integrates the DC power, converts the integrated DC power into DC power usable by the load, and outputs the load to the load side. An integrator comprising a buck convertor to make a buck converter;
An energy storage unit for storing the power of the DC power input to the integrated unit under control of the controller;
And a control unit which controls the integrated unit to output the DC power stored in the energy storage unit to the load through the integrated unit when the power of the integrated DC power falls below a predetermined level.
The controller detects whether there is a load and stores the DC power integrated in the integrated unit in the energy storage unit as it is before converting the power of the integrated DC power integrated in the integrated unit only when the load is equal to or less than a predetermined threshold. To control the integration,
And a distribution unit for supplying DC power to the load and a DC-AC converter for supplying AC power to the load by receiving power of the DC power output from the integrated unit.
The renewable energy is a power control device for a building using energy stored in the energy storage unit, characterized in that at least one of solar or wind or tidal or hydropower with the flow rate in the pipe. delete The method according to claim 1,
The energy storage unit is a power control device for a building using energy stored in the energy storage unit, characterized in that the lithium ion battery. The method according to claim 1,
The DC converter,
A DC-DC converter which receives a DC power generated using renewable energy and converts the DC power into a DC that can be used in a load; And
A power supply control device for a building using energy stored in an energy storage unit, comprising: an AC-DC converter receiving AC power generated by using renewable energy and converting the same into DC. delete delete

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