KR101582097B1 - Independant electric power system, control device and plug socket device for displaying the state of supply and demand - Google Patents

Abstract

The present invention relates to a power system not connected to a power system, comprising at least one distributed power source connected to a first line, at least two outlet devices connected to a second line, a third And a control device for determining the power supply / demand status of the power system according to the voltage or frequency of the line and the third line and displaying the power supply / demand status on at least one outlet device of at least two outlet devices.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an independent power system, a control device, and an outlet device for indicating a state of supply and demand.

The present invention relates to a technique for controlling a power system not connected to a power system.

Microgrids, including renewable energy generators, diesel generators, and energy storage devices, can operate independently of the power system or in conjunction with the power system.

When the micro grid is operated in conjunction with the power grid, there is no problem of imbalance in power supply and demand in the micro grid because a sufficient amount of power can be supplied from the power grid. However, when the microgrid is operated independently of the power grid, an imbalance in power supply and demand may occur within the microgrid.

In this independent operating microgrid, the technology to overcome the imbalance in power supply and demand is the technology that controls the load. Since there is a limit to the amount of power generated by the distributed power source included in the micro grid, it is difficult to further increase supply in an unbalanced state of power supply and demand. Accordingly, this technique reduces the load imbalance by reducing the load usage. This technique is also commonly referred to as load control.

However, in the case of such a load control, the controller forcibly reduces the power consumption of the load that is already in operation, or shedding the load to provide a result that is difficult for the user to predict. For example, while watching TV, power to the TV may be interrupted and the TV may be turned off.

In view of the foregoing, an object of the present invention is, in one aspect, a technique for displaying a state of power supply to an outlet device so that a user can determine load usage.

In another aspect, an object of the present invention is to provide a technique for grasping the state of a common line in a power system and grasping a power supply state of the power system.

In order to achieve the above object, in one aspect, the present invention provides a power system not connected to a power system, comprising: at least one distributed power source connected to a first line;

At least two outlet devices connected to the second line; A third line connecting the first line and the second line; And a control device for determining the power supply / demand status of the power system according to the voltage or frequency of the third line and displaying the power supply / demand status on at least one outlet device of the at least two outlet devices do.

In another aspect, the present invention provides a system comprising: a measurement unit for obtaining a measured value of at least one distributed power source included in a power system not connected to a power system and a voltage or frequency of a line to which at least two power plugs are connected; And a control unit for determining the power supply / demand status of the power system according to the measured value of the line and displaying the power supply / demand status on at least one outlet apparatus of the at least two outlet apparatuses.

According to another aspect of the present invention, there is provided an outlet apparatus for supplying power to a load in a power system not connected to a power system, the outlet apparatus being connected to a line to which at least one distributed power source is connected, A socket portion; And a display unit for displaying a power supply / demand state of the power system based on the voltage or frequency of the line.

As described above, according to the present invention, the user can adjust the load usage amount according to the power supply status displayed on the receptacle device. Further, according to the present invention, the state of the common line in the power system can be grasped and the power supply / demand state of the power system can be grasped.

1 is a configuration diagram of a power system according to an embodiment.
2 is a block diagram of the control device of Fig.
3 is a block diagram of the receptacle device of Fig.
Fig. 4 is a diagram showing how the frequency of the power system varies depending on the state of power supply and demand.
5 is an example of a flow in which the control device displays and controls the receptacle devices.
6 is an external view of an embodiment in which an indicator lamp is provided outside the receptacle device.
7 is an external view of an embodiment in which a power amount gauge is provided outside the receptacle device.
8 is a block diagram of the receptacle apparatus further including a switch.
9 is a configuration diagram of a power system according to another embodiment.
10 is a diagram showing how the voltage of the power system varies depending on the power supply / demand state.

Hereinafter, some embodiments of the present invention will be described in detail with reference to exemplary drawings. It should be noted that, in adding reference numerals to the constituent elements of the drawings, the same constituent elements are denoted by the same reference numerals even though they are shown in different drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

In describing the components of the present invention, terms such as first, second, A, B, (a), and (b) may be used. These terms are intended to distinguish the constituent elements from other constituent elements, and the terms do not limit the nature, order or order of the constituent elements. When a component is described as being "connected", "coupled", or "connected" to another component, the component may be directly connected to or connected to the other component, It should be understood that an element may be "connected," "coupled," or "connected."

FIG. 1 is a configuration diagram of a power system according to an embodiment, and FIG. 2 is a block diagram of the control apparatus of FIG. 1. FIG. 3 is a block diagram of the receptacle device of Fig.

Referring to Figure 1, the power system 100 includes a first line 110, a second line 130, and a third line 150 connecting the first line 110 and the second line 130 can do.

In the first line 110, a distributed power source 120 is connected. In the embodiment of FIG. 1, two distributed power sources are connected. The distributed power source 120 includes a power generating source, which may be a renewable energy generator such as a solar generator or a wind turbine, or an energy storage device such as a battery may be used. Also, as this source, a fuel injection type generator such as a fuel cell generator or a diesel generator may be used.

The distributed power supply 120 may have an AC or DC output, which may vary depending on the state of the first line 110. For example, if the first line 110 is an AC line, the distributed power source 120 has an AC output, and the first line 110 is a DC line, then the distributed power source 120 has a DC output. If the first line 110 is an AC line and the distributed power source 120 has a DC source (e.g., a solar generator), the distributed power source may further include a DC / AC converter. Also, if the first line 110 is a DC line and the distributed power source 120 has an AC source (e.g., a diesel generator), the distributed power source may further include an AC / DC converter.

In the second line 130, an outlet device 140 is connected. In the embodiment of FIG. 1, three outlet devices 140 are connected to the second line 130. A plug of the load can be connected to the receptacle apparatus 140. It can be understood that the receptacle apparatus 140 is substantially connected to the second line 130 because the receptacle apparatus 140 plays a role of transmitting electric power to the load. If the load is a DC load, the second line 130 may be a DC line, but if the load is an AC load, the second line 130 may be an AC line.

Continuing to refer to FIG. 1, the power system 100 includes a third line 150 that connects the first line 110 and the second line 130. Since electric power is supplied from the distributed power source 120 to the first line 110 and electric power is outputted to the receptacle device 140 from the second line 130, The power flows from the first line 110 to the second line and flows through the second line.

If the first line 110 and the second line 130 are AC lines, the third line 150 may also be an AC line. Alternatively, if the first line 110 and the second line 130 are lines of different power types, for example, the first line 110 is a DC line and the second line 130 is an AC line The DC / AC converter may further be located within the third line 150 to convert the DC power of the first line 110 to AC power and supply the AC power to the second line 130. [

The power system 100 is configured to determine the power supply status of the power system 100 according to the measured value from the sensor 160 and the sensor 160 that measures the voltage or frequency of the third line 150, And a control unit 170 for controlling the control unit 170.

2, the control unit 170 includes a measuring unit 210 for obtaining a voltage or frequency measurement value of the power system 100, And a controller 210 for performing all control functions of the controller 170.

The control unit 210 transmits a control signal to the receptacle apparatuses 140 to control the receptacle apparatus 140. This control signal is transmitted through the signal line 180 connected between the control device 170 and the receptacle device 140. The control signal may be an analog type signal or a digital type signal. In addition, the control signal may be transmitted as data to the receptacle apparatus 140 via wired communication, or may be transmitted to the receptacle apparatus 140 via wireless communication.

Meanwhile, the control unit 210 may receive a signal from the receptacle device 140 through the signal line 180. [ For example, the control unit 210 can receive a signal from the receptacle apparatus 140 via the signal line 180 as to whether or not a load is connected to the receptacle apparatus 140.

The measurement unit 210 acquires a voltage or frequency measurement value of the power system 100. In the embodiment shown in FIG. 1, the measurement unit 210 is located in the third line 150 to measure a voltage or a frequency And receives a measurement value from the sensor 160.

The control unit 210 determines the power supply / demand status of the power system 100 using the voltage or frequency measurement value of the power system 100 obtained from the sensor 160 and displays the power supply status on the outlet apparatus 140 And transmits a control signal to the receptacle apparatus 140 so that

3, the receptacle apparatus 140 includes a socket unit 310 for electrically connecting a load to the second line 130, and displays a power supply state according to a control signal received from the controller 170 And a display unit 320 for displaying the image.

Meanwhile, the voltage or frequency of the power system 100 is determined in association with the power supply state of the power system 100, and the controller 210 controls the voltage or frequency of the power system 100 and the power Supply state of the power system 100 by using the relationship between the power supply state and the power supply state.

Fig. 4 is a diagram showing how the frequency of the power system varies depending on the state of power supply and demand.

Referring to FIG. 4, the power system 100 is in a state of balance of power supply at the first point A, and when the load power consumption increases (by P1), the frequency decreases from f ₀ to f ₁ .

The control unit 210 substitutes the frequency of the power system 100 acquired from the sensor 160 into the power shortage graph as shown in FIG. 4 to grasp the power supply / demand status of the power system 100. For example, when the value of the acquired frequency corresponds to f ₀ , the controller 210 determines that the power supply and demand is in a balanced state, and if the value of the frequency corresponds to f ₁ , It is determined that power is insufficient for P _{1 in} power system 100 due to insufficient power supply. According to the relationship between the frequency of the power system 100 and the power supply state, the controller 210 may determine that the power supply in the power system 100 is insufficient as the frequency of the third line 150 decreases.

The control unit 210 determines the power supply status of the power system 100 according to the measured value of the voltage or frequency of the power system 100 (the voltage or frequency of the third line 150 in the embodiment of FIG. 1) And performs display control on the devices (140).

5 is an example of a flow in which the control device displays and controls the receptacle devices.

The control unit 210 of the control device 170 may perform the control in a different method depending on whether or not the load is connected to the receptacle apparatus 140. FIG 5 is a diagram showing a state in which the first receptacle apparatus and the second receptacle apparatus are in a no- And the control unit 210 in the subsequent steps.

Referring to Fig. 5, the first outlet device and the second outlet device are in a no-load state (first time). The control unit 210 controls the power of the power system 100 according to the measurement value of the voltage or frequency of the line (the third line 150 in FIG. 1) to which the distributed power source 120 and the receptacle unit 140 are connected The supply and demand state is grasped (S404).

When it is determined that the power supply of the power system 100 is insufficient in the power supply status check (NO at S404), the control unit 210 transmits a control signal to the first outlet apparatus and the second outlet apparatus, And the second receptacle device to display the power shortage state (S406). In the display method, the first receptacle device and the second receptacle device may include a display light (for example, an LED bulb) capable of displaying colors, and may change the color of the display light according to a control signal received from the control part 210 Can be displayed. For example, in step S406, the first receptacle device and the second receptacle device may display the color of the indicator in red to indicate a power shortage state (in the following description with reference to FIG. 5, And the second receptacle device is described as including an indicator lamp that displays red and green).

The user confirms that the power system 100 is in the low power state according to the red indicator of the receptacle apparatus 140 and does not connect any more load to the receptacle apparatus 140 to balance the power supply status of the power system 100 .

If it is determined in step S404 that the power supply / demand status is balanced (YES in step S404), the control unit 210 controls the first outlet apparatus and the second outlet apparatus to display the power supply / demand balance state (S408). Accordingly, the first outlet device and the second outlet device can display the color of the indicator in green.

4, after step S408, the load is connected to the first receptacle device (second time). At this time, the controller 210 determines the power supply state of the power system 100 according to the measured value of the voltage or frequency of the power system 100 (S412).

If it is determined that the power supply of the power system 100 is insufficient in the power supply status check (NO at S412), the controller 210 controls the second outlet device to display the power supply shortage status (S414). According to this control, the second receptacle device can display the color of the indicator in red.

If it is determined in step S412 that the power supply is insufficient but the amount of power is insufficient to affect the power system 100 or loads connected to the power system 100, The color of the indicator lamp may not be changed for the first outlet device connected to the load in the supply and demand balance state.

If it is determined in step S412 that the power supply / demand status is balanced (YES in step S412), the control unit 210 maintains the display state of the receptacle apparatus 140 (step S416).

Continuing to refer to Fig. 5, after the step S416, the load is connected to the second receptacle device (third time). At this time, the controller 210 determines the power supply / demand status of the power system 100 according to the measured value of the voltage or frequency of the power system 100 (S420).

If it is determined that the power supply of the power system 100 is insufficient in the power supply status check (NO in S420), the control unit 210 controls the first outlet apparatus and the second outlet apparatus to display a power supply shortage state (S422). According to this control, the first receptacle device and the second receptacle device can display the color of the indicator in red. However, according to the embodiment, the control unit 210 can control the display of the first outlet device and the second outlet device to be maintained. For example, if it is determined in step S420 that the power supply is insufficient, but the power supply is insufficient to affect the power system 100 or the loads connected to the power system 100, 210 may not change the color of the indicator light for the first outlet device and the second outlet device connected to the load in the power supply and demand balance state.

Finally, if it is determined in step S420 that the power supply / demand status is balanced (YES in S420), the control unit 210 maintains the display state of the receptacle apparatus 140. [

6 is an external view of an embodiment in which an indicator lamp is provided outside the receptacle device.

Referring to FIG. 6, a socket 310a into which a plug can be inserted is exposed to the outside. The receptacle device 140 is provided with a display lamp 320a that can display the power supply / demand status of the power system 100 on the outside.

The indicator lamp 320a may display a single color. When the indicator lamp 320a displays a single color (e.g., green or white), the receptacle apparatus 140 turns on the indicator lamp 320a to emit light when the power supply / When the supply / demand state is in an unbalanced state, the indicator lamp 320a can be turned off to display the power supply / demand state (it is preferable to use green lamp or the like as the indicator lamp 320a). Alternatively, the receptacle apparatus 140 may display the power supply / demand state in a manner that the receptacle apparatus 140 is turned on when the power supply and demand is in a balanced state and turned on when the power supply and demand is in an unbalanced state Red or the like is preferably used).

The display lamp 320a may display various colors. The indicator light 320a may include an optical element indicating red (red), yellow (yellow), and blue (blue) in order to display various colors. The display lamp 320a may display the natural color by adjusting the luminance of the tricolor element, or may display the red / yellow / blue color in an ON / OFF manner without adjusting the luminance. When the indicator lamp 320a can display a plurality of colors, the receptacle apparatus 140 uses the indicator lamp 320a to display not only the balance / unbalance of the power supply state, but also the degree of the balance state or the degree of the unbalance state You may. For example, when the power supply and demand is in an unbalanced state, the receptacle apparatus 140 controls the indicator lamp 320a to display a mixed color of red and yellow. However, as the degree of imbalance in the power supply state becomes greater, It is possible to perform control to mix more.

7 is an external view of an embodiment in which a power amount gauge is provided outside the receptacle device.

7, a socket 310a into which a plug can be inserted is exposed to the outside, and a power amount gauge 320b capable of indicating the power supply state of the power system 100 is connected to the outside Respectively.

The power amount gauge 320b can display the degree of unbalance in the power supply / demand state in the power system 100. [ For example, a plurality of LEDs or the like are connected in series in the power amount gauge 320b, and the lighting of each of the LEDs and the like can be controlled. At this time, when the power supply / demand state is in the balanced state, the electric energy gauge 320b lights all of the LEDs and the like, and some of the LEDs and the like can be turned off when the power supply / demand state is in an unbalanced state. In addition, the electric power gauge 320b increases the number of LEDs and the like which are extinguished as the degree of imbalance in the power supply and demand becomes greater, thereby enabling the user to grasp the degree of imbalance in the power supply / demand state. This is because the power gauge 320b indicates the power shortage state of the power system 100 as a quantization level.

Meanwhile, when the controller 210 of the control device 170 determines that the power supply shortage amount of the power system 100 exceeds the preset value through the power supply / demand state, Can be controlled so as not to be supplied. For this control, the receptacle apparatus 140 may further include a switch inside.

8 is a block diagram of the receptacle apparatus further including a switch.

Referring to FIG. 8, the receptacle apparatus 140 may further include a switch 810 inside the socket unit 310. The switch 810 may be connected or disconnected according to a control signal received from the controller 170 while one end is connected to the second line 130 and the other end is connected to the load.

9 is a configuration diagram of a power system according to another embodiment.

9, the first line 110 is a DC line and the second line 130 is an AC line.

The distributed power supply 120 connected to the first line 110 outputs DC power. For example, the distributed power source 120 may include a DC source such as photovoltaic generator 122a and may output DC power using such a DC source. Alternatively, the distributed power source 120 may include an AC source such as a diesel generator 122b and an AC / DC converter 124 for converting the AC power of the AC source to DC, Can be output.

9, since the first line 110 and the second line 130 have different power types, the power system 900 includes a portion connecting the first line 110 and the second line 130, And a DC / AC converter 990 in addition to the DC / AC converter 990.

The power system 900 includes a fourth line 950 and a fifth line 952. One end of the fourth line 950 is connected to the first line 110 and the other end is connected to the DC / 990). One end of the fifth line 952 is connected to the DC / AC converter 990 and the other end of the fifth line 952 is connected to the second line 130 so that power supplied from the distributed power source 120 is supplied to the first line 110, The fourth line 950, the DC / AC converter 990, the fifth line 952, and the second line 130 to the outlet apparatus 140.

In the embodiment of FIG. 9, the sensor 960 is located on the fourth line 950. Since the fourth line 950 is a DC line, the sensor 960 measures the voltage of the fourth line 950.

In the embodiment of FIG. 9, the controller 970 receives the DC voltage measurement value of the fourth line 950 from the sensor 960, and grasps the power supply / demand status of the power system 900.

10 is a diagram showing how the voltage of the power system varies depending on the power supply / demand state.

Referring to FIG. 10, the power system 900 is in a balanced state of power supply and demand at the first C point, and when the load power consumption increases (by P ₂ ), the voltage decreases from V ₀ to V ₁ .

The controller 970 substitutes the voltage of the power system 900 obtained from the sensor 960 into the graph of the power shortage versus voltage as shown in FIG. 10 to grasp the power supply / demand status of the power system 900. For example, when the obtained voltage value corresponds to V ₀ , the controller 970 determines that the power supply and demand is in a balanced state, and if the voltage value corresponds to V ₁ , in short supply to the power system 900, it is determined that there is insufficient power state for as long as P _2. According to the relationship between the voltage of the power system 900 and the power supply state, the controller 970 can determine that the power supply in the power system 900 is insufficient as the voltage of the fourth line 950 decreases. The controller 970 determines the power supply / demand status of the power system 900 according to the voltage measurement value of the power system 900, and performs display control on the receptacle devices 140.

It is to be understood that the terms "comprises", "comprising", or "having" as used in the foregoing description mean that the constituent element can be implanted unless specifically stated to the contrary, But should be construed as further including other elements. All terms, including technical and scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs, unless otherwise defined. Commonly used terms, such as predefined terms, should be interpreted to be consistent with the contextual meanings of the related art, and are not to be construed as ideal or overly formal, unless expressly defined to the contrary.

The foregoing description is merely illustrative of the technical idea of the present invention, and various changes and modifications may be made by those skilled in the art without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are intended to illustrate rather than limit the scope of the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The scope of protection of the present invention should be construed according to the following claims, and all technical ideas within the scope of equivalents should be construed as falling within the scope of the present invention.

Claims (15)

In a power system not connected to a power system,
At least one distributed power supply connected to the first line;
At least two outlet devices connected to the second line;
A third line connecting the first line and the second line; And
And a control device for recognizing the power supply / demand state of the power system according to the voltage or frequency of the third line and displaying the power supply state to the first outlet device,
The control device includes:
The power supply state of the power system varying according to the load connection to the second receptacle apparatus is grasped and the display of the first receptacle apparatus is changed in accordance with the changed state of power supply and reception,
The first outlet device and the second outlet device display a first power supply state of the power system at a first time when no load is connected to the first outlet device and the second outlet device, The second outlet device displays a second power supply state of the power system at a second time when a load is connected to the device and a second time at a time subsequent to the first time, And the supply / reception state is continuously displayed.
The method according to claim 1,
Wherein the at least one distributed power source comprises an AC source or comprises a DC source and a DC / AC converter, wherein the first line, the second line and the third line are AC lines.
3. The method of claim 2,
The control device includes:
Wherein the controller determines that the power supply state of the power system is determined according to the frequency of the third line and that the power supply is insufficient as the frequency decreases.
The method of claim 1, wherein
Wherein the at least one distributed power source comprises a DC source or comprises an AC source and an AC / DC converter.
5. The method of claim 4,
The first line is a DC line, the second line is an AC line,
The third line includes a DC / AC converter, a fourth line connecting the DC side and the first line of the DC / AC converter, and a fifth line connecting the AC side of the DC / AC converter and the second line ≪ / RTI >
6. The method of claim 5,
Wherein the control device grasps the power supply state of the power system according to the voltage of the fourth line.
The method according to claim 6,
Wherein the controller determines that the power supply is insufficient as the voltage of the fourth line decreases.
At least one distributed power source included in a power system not connected to a power system and a measurement value for a voltage or a frequency of a line to which at least two outlet devices are connected; And
And a controller for determining the power supply / demand status of the power system according to the measured value for the line and displaying the power supply status to the first outlet apparatus,
Wherein,
The power supply state of the power system varying according to the load connection to the second receptacle apparatus is grasped and the display of the first receptacle apparatus is changed in accordance with the changed state of power supply and reception,
The first outlet device and the second outlet device display a first power supply state of the power system at a first time when no load is connected to the first outlet device and the second outlet device, The second outlet device displays a second power supply state of the power system at a second time when a load is connected to the device and a second time at a time subsequent to the first time, And the supply / reception state is continuously displayed.
9. The method of claim 8,
Wherein,
Wherein the control unit determines that the power supply is insufficient as the voltage of the line decreases or decreases as the frequency of the line decreases.
delete 9. The method of claim 8,
Wherein,
A third power supply state of the power system is displayed on the first outlet device and the second outlet device at a third time when the load is connected to the first outlet device and a third time after the second time .
9. The method of claim 8,
Wherein,
And controls power supply to at least one receptacle device to which the load is not connected when it is determined through the power supply state that the power supply deficiency amount of the power system exceeds a predetermined value.
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