JP3299498B2 - Solar power system - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a system in which a distributed power source using a solar cell and a commercial power source are connected to each other. The present invention relates to a solar power generation system that sells electric power to a commercial power supply.

[0002]

2. Description of the Related Art In recent years, as one of measures to prevent global warming due to carbon dioxide, a solar cell is installed in a house for private power generation, the output of the solar cell is converted into electric power, and a grid-connected operation with a commercial power supply is performed. It is thought that. That is, a distributed power supply for converting DC power output from a solar cell into AC power using an inverter circuit is provided, and a power transmission system between the distributed power supply and a commercial power supply is connected to perform system interconnection. Regarding such a grid-connected operation between a distributed power supply and a commercial power supply using in-house power generation, technical guidelines such as a distributed power supply grid connection technical guideline (hereinafter abbreviated as a guideline) issued by the Japan Electric Association of Japan and the like. Guidance is provided. These guidelines cover the quality, security, reliability,
It is shown to ensure protection coordination and to ensure smooth grid operation.

As a residential photovoltaic power generation system, as shown in FIG. 7, a single-phase three-wire commercial power supply AC is used to generate a pair of integrated power meters 10, 10 and a current limiter (hereinafter, referred to as a current limiter).
A power converter for converting the output of the solar cell 20 into a main line Lm connected to a main line Lm connected via a main breaker 12 composed of an earth leakage breaker and an earth leakage breaker 15 via an interconnecting breaker 15 and paralleling switches 22a and 22b. There is a device to which a vessel 23 is connected. Here, the solar cell 20 and the power converter 2
3 together form a distributed power supply. The limiter 11 is a breaker provided to limit a load current of a customer to a value not more than a contract value with a power company. The power converter 23 uses the inverter circuit as described above, and has a function of converting a DC voltage output from the solar cell 20 into an AC voltage. A plurality of branch circuits Lb are connected to the trunk line Lm between the main breaker 12 and the interconnection breaker 15 via the branch breakers 13, respectively. That is, power is supplied to the load via the branch breaker 13.

The limiter 11, the main breaker 12, the branch breaker 13, and the interconnection breaker 15 are housed in the distribution board 1 (house board), and the solar cells 20 are installed on the roof of the house.
The solar cell 20 and the power converter 23 are connected in the connection box 5. The paralleling switches 22a and 22b are provided to disconnect the commercial power supply AC from the power converter 23 in the event of an abnormality or a power outage of the commercial power supply AC. That is, the parallel-off switch 22
The system interconnection is performed when a and 22b are on, and the system is separated when the disconnection switches 22a and 22b are off (that is, disconnected).

The above-described photovoltaic power generation system has a control circuit 2 for detecting the output current and output voltage of the power converter 23.
And the control circuit 27 includes a current transformer C
The feedback control of the power converter 23 is performed in order to keep the output current of the power converter 23 detected through T 'at a substantially constant value. In the photovoltaic power generation system described above, the distributed power source that generates power using the solar cell 20 and the commercial power source AC are connected to each other, and when the power generated by the distributed power source becomes excessive in the power supplied to the load, Electricity is sold to the commercial power supply AC side. Here, the commercial power source A
The electric power sold to the C side is the pair of integrated power meters 10, 1
0 of the pair of integrated wattmeters 10, 10
On the other hand, the power purchased from the commercial power supply AC side is measured.

[0006]

By the way, in the above-mentioned solar power generation system, a pair of integrated wattmeters 10 and 10 installed outdoors are selling the power purchased from the commercial power supply AC side. Although power can be checked, it was not possible to check indoors in real time whether the power was purchased from the commercial power supply AC or sold to the commercial power supply AC.

The present invention has been made in view of the above circumstances, and an object of the present invention is to provide a solar light capable of checking indoors whether power is purchased from a commercial power supply or sold to a commercial power supply. It is to provide a power generation system.

[0008]

According to the first aspect of the present invention, in order to achieve the above object, a DC output of a solar cell is converted from DC to AC to output AC and is connected to a main line connected to a commercial power supply. A distributed power supply that performs system interconnection with a commercial power supply, a branch circuit that branches from a main line between the commercial power supply and the distributed power supply to supply power to a load, and a current detection unit that detects a current flowing through the branch circuit. Voltage detection means for detecting a voltage between the commercial power supply and the distributed power supply, and load power for obtaining the power used by the load by a product of a current value detected by the current detection means and a voltage value detected by the voltage detection means a detection means, a trading determining means for determining a variance power detecting means for detecting the power generated by the distributed power, the magnitude relationship of the power and detected by the power and dispersion power detection unit detected by the load power detecting means, ya It has a device body which is placed on the construction surface
Display means for displaying whether power is purchased from the commercial power supply side or sold to the commercial power supply side in accordance with the magnitude relationship obtained by the trade determination means, It can be checked indoors in real time whether the power is purchased or sold to the commercial power supply.

According to a second aspect of the present invention, in the first aspect, the display means has a function of displaying the power detected by the load power detection means and the power detected by the distributed power detection means. The power used by the load and the power generated by the distributed power source can be checked indoors in real time. According to a third aspect of the present invention, in accordance with the first aspect of the present invention, there is provided a trading power calculating means for obtaining a difference between the power detected by the distributed power detecting means and the power detected by the load power detecting means as power for purchasing or selling power. Since the display means has a function of displaying the power obtained by the trading power calculation means, by displaying the power obtained by the trading power calculation means on the display means, You can check the power you are using indoors in real time.

According to a fourth aspect of the present invention, in the first aspect of the invention, the difference between the power detected by the distributed power detection means and the power detected by the load power detection means is determined as the power traded with the commercial power supply. Power calculating means, and margin power calculating means for calculating a difference between specified power set based on a breaking capacity of a main breaker inserted between a commercial power supply and a main line and power obtained by the trading power calculating means. Since the display means has a function of displaying the difference obtained by the surplus power calculation means, by displaying the power obtained by the surplus power calculation means on the display means, based on the breaking capacity of the master breaker. It is possible to check in real time indoors how much power can be used for the set specified power.

According to a fifth aspect of the present invention, in the first aspect of the invention, a plurality of branch circuits are provided, and the current detecting means is provided for each branch circuit. A plurality of load power detection means for obtaining the power used by each load by each product of the voltage values detected by the voltage detection means are provided, and the display means displays each power detected by each load power detection means. Is provided, the power consumption of each load can be checked indoors in real time.

According to a sixth aspect of the present invention, in the fifth aspect of the present invention, a voltage detecting means for detecting a voltage between the commercial power supply and the distributed power supply, and the respective current values detected by the respective current detecting means and the voltage detection A plurality of load power detection means for respectively obtaining the power used by each load by each product of the voltage values detected by the means, and setting based on a breaking capacity of a branch breaker inserted between the main line and the load. A plurality of spare power calculating means for respectively obtaining a difference between the specified power and each power detected by each of the load power detecting means, wherein the display means displays the respective differences obtained by the respective spare power calculating means. Since the load connected to the branch breaker can use the specified power set for the breaking capacity of the branch breaker, It can be confirmed in the arm.

The invention of claim 7 is the invention of claim 4 or claim 6.
In the invention described in the above, since the nonvolatile memory that stores the specified power and the power setting unit that registers the specified power in the nonvolatile memory are provided, the specified power can be appropriately set as needed. Further, even if a power failure occurs, the state before the power failure is maintained, so that the work of resetting the specified power becomes unnecessary.

[0014]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The basic configuration of the present embodiment is the same as the conventional configuration shown in the figure, and as shown in FIG.
The difference is that 0 is provided. Note that the same components as those in the conventional configuration shown in FIG. 7 are denoted by the same reference numerals, and description thereof will be omitted.

[0015] The present embodiment, as a basic conceptual diagram shown in FIG. 6, the generated power P _S of the power converter 23 for converting the AC output of the solar cell 20, used by a plurality of load L power P and _L respectively detected, determine the trading power P ₀ of the commercial power source AC side using the generated power P _S and a power consumption P _L, is for displaying the value of the trading power P ₀ indoors. The signal conversion circuit 60 constitutes load power detection means for obtaining the power used by the load connected to the main line Lm via the branch breaker 13, and as shown in FIG.
Current i ₁ flowing through the branch circuit 13 detected by the current transformer CT serving the inserted current detection means between the trunk Lm and the branch breakers 13, amplifier 61 ₁ that amplifies · · ·, i _n, respectively, ... ·, 61 _n and, these amplifiers 61 _1, ..., an adder for adding outputs of the 61 _n 6
3, an amplifier 62 for amplifying the voltage value V between the main lines Lm detected by the voltage detecting means, a multiplier 64 for multiplying the output of the adder 63 and the output of the amplifier 62, and smoothing the output of the multiplier 64. And a V / F converter 67 for converting the output of the offset adjusting unit 66 into a voltage / frequency signal. output is transmitted to the display device 50 via the signal line L ₁ and the interconnection protection circuit 25. The housing in which the signal conversion circuit 60 is housed is set to the size of the collective circuit breaker for the light distribution board (for example, the size of the branch breaker 13), so that the branch breaker 13 and the like are installed in the distribution board 1. It is desirable to arrange them in the same way.

The control circuit 27 constitutes a distributed power detecting means for detecting power generated by a distributed power source composed of the solar cell 20 and the power converter 23. And the output current are detected to determine the power generated by the distributed power source. The data of the generated power of the distributed power source obtained by the control circuit 27 is transmitted to the display device 50 via the interconnection protection circuit 25. The power converter 23
Is detected via the current transformer CT ′.

The display device 50 is connected to the interconnection protection circuit 25 via a signal line Ls and is installed indoors. The display device 50 has a structure in which a part of the body 51 is embedded in a construction surface such as an indoor wall surface. The structure may be such that the entire body 51 is exposed from the construction surface. By the way, as shown in FIG.
A display unit 52 for performing liquid crystal display, an operation key K ₁ for turning on / off the screen display on the display unit 52, a selection key K ₃ used for setting the date and time and various data are provided on the front of the body 51.
K ₄ and set feed key K _2, and a like display switching key K ₅ for switching the display of the display unit 52.

The display device 50 has a configuration as shown in FIG. 4 and includes a communication unit 55 for exchanging data with the interconnection protection circuit 25 and a data storage unit 56 for storing various data. When, a time management unit 57 that manages the date and time, function setting or to set the date and time of the operation to create a data or time management unit 57 to be stored in the data storage unit 56 by the respective keys K ₁ ~K ₅ above Unit 54 and the data received from the interconnection protection circuit 25 via the communication unit 55 (that is, the power detected by the load power detection unit and the power detected by the distributed power detection unit) and the data stored in the data storage unit 56 in advance. The processing unit 58 includes an arithmetic processing unit 58 that performs various processes to be described later using data and the like, and the above-described display unit 52 that performs display based on an output of the arithmetic processing unit 58. Here, the data storage unit 56 has a non-volatile memory such as an EEPROM, and the first key K ₃ and K _{4 of} the function setting unit 54 and the setting feed key K ₂ are appropriately operated, so that the first The specified power and the second specified power are individually set and stored in the nonvolatile memory. The first specified power is commercial power AC
Is set as an allowable upper limit power based on the breaking capacity of the main breaker 12 inserted between the main breaker Lm and the second main line Lm.
May be set as an allowable upper limit power based on the breaking capacity of the branch breaker 13 inserted between the main line Lm and the load. In other words, the installer can appropriately set both specified powers according to the specifications at the site at the time of construction, and both powers are maintained in the non-volatile memory even if a power failure or the like occurs. Eliminates the work of setting. The function setting unit 54 constitutes a power setting unit.

The above-described arithmetic processing unit 58 determines the magnitude relationship between the load power (the power consumption of the load obtained by the signal conversion circuit 60) and the distributed power (the generated power of the distributed power source obtained by the control circuit 27). A trade judgment means for obtaining
And a trading power calculating means for calculating a difference between the load power and the dispersed power as the power of the electricity purchase or sale of electricity, in the state in which the screen display of the display unit 52 is made by operating the operation keys K _1, trading determining means 3 is displayed on the upper part of the display unit 52 shown in FIG. 3 based on the output of the display unit, and the power value obtained by the trading power calculation means is displayed on the display unit shown in FIG. 52 is displayed in the center. That is, the display unit 52 of the display device 50
Is displayed as shown in (c) or (d) of FIG. 5, for example.
Whether the power is purchased from the commercial power source AC or sold to the commercial power source AC, and the power purchased or sold can be confirmed indoors in real time.

Further, the display device 50, by operating the display switching key K ₅ described above has a function of displaying by switching the load power and the dispersed power, when the display load power, for example, FIG. As shown in FIG. 5 (e), the characters “power consumption” are displayed at the top of the display unit 52, and the power value of the load power is displayed at the center of the display unit 52.
In the case of the display of the distributed power, for example, as shown in FIG. 5A, the characters “generated power” are displayed at the top of the display unit 52, and the power value of the distributed power is displayed at the center of the display unit 52. You. Therefore, the power used by the load,
The power generated by the distributed power source can also be checked indoors in real time.

The arithmetic processing unit 58 includes a data storage unit 5
It has a margin power calculating means for calculating a difference between the power obtained by 6 nonvolatile memory is stored the first prescribed power and the trading power computing means, according to the operation of the display switching key K ₅ above And a function of displaying the difference obtained by the surplus power calculating means on the display unit 52. Note that the difference obtained by the surplus power calculating means is displayed on the display unit 5.
In the case of being displayed in No. 2, for example, as shown in FIG. 5 (f), the characters “remaining power” are displayed at the top of the display unit 52 and the difference is displayed at the center of the display unit 52. . Therefore, it is possible to check in real time indoors how much power can be used for the first specified power set based on the breaking capacity of the main breaker 12.

The arithmetic processing unit 58 is provided with a time management unit 57
By incorporating data on time from equipped with integrated power generation power calculating means for calculating a cumulative power generation for distributed power, integrated power generation power obtained by integrating generated power calculating means in response to operation of the display switching key K ₅ above Is displayed on the display unit 52. When the integrated generated power calculated by the integrated generated power calculation means is displayed on the display unit 52, for example, as shown in FIG. At the same time, the integrated power generation is displayed in the middle of the display unit 52.

By the way, the display of the figure above 5 (a) ~ (f) , since appropriately switched according to the operation of the display switching key K _5, can see the desired information as needed in real time indoors Since the display is switched and displayed, the display space can be shared, and the size of the display device 50 can be reduced. The arithmetic processing unit 58
FIG. 5A shows a case where power generation is performed by a distributed power source.
As shown in (f) to (f), the words "generating" are also displayed on the lower left side of the display unit 52.

In the above embodiment, the signal processing circuit 6
At 0, the current detection means (current transformer CT)
The current values detected from the respective₁, ...,
61 _nAnd the total current value amplified and added by
The product of the current and the amplified voltage is calculated.
The current value detected by each stage is individually multiplied by the voltage value.
(Electric power used in each branch circuit Lb)
Then, the display device 50 side sums the products (that is, uses the load).
(Sum of the power used). This
In the case of, the signal processing circuit 60
A function to display each power individually
To check the power usage of each load indoors in real time.
Will be able to

The arithmetic processing unit 58 has a data storage unit 5
And a plurality of spare power calculating means for calculating a difference between the second specified power stored in the nonvolatile memory and each power individually obtained by the signal processing circuit 60. If a function of selectively displaying each difference is provided, the branch breaker 1 for the second specified power set for the breaking capacity of the branch breaker 13 is provided.
It is possible to check in real time how much power the load connected to 3 can use indoors in real time.

The disconnecting switches 22a and 22b are disconnected when an abnormality or a power failure of the commercial power supply AC is detected by the interconnection protection circuit 25, and the interconnection protection circuit 25 is connected to the interconnection breaker 15. It is connected to the main line Lm between the switch and the disconnecting switch 22, and detects an abnormality or a power failure. That is, abnormality or power failure can be detected by detecting the current flowing through the trunk line Lm and the voltage between the lines. Off-line switch 2
Since 2 is inserted between the power converter 23 and the branch breaker 13, it is impossible to supply power to the branch circuit Lb at the time of an abnormality or a power failure even if the solar cell 20 is generating power. Therefore, if a common branch circuit is connected between the power converter 23 and the disconnecting switch 22b via the common branch breaker 29, the power to the common branch circuit is obtained regardless of whether the system is connected or disconnected. Supply becomes possible. In other words, power can be supplied to the shared branch circuit even when an abnormality or power failure occurs, provided that the output is normally obtained from the power converter 23. As a result, there is a high possibility that power can be supplied to a load that needs to supply power preferentially, such as a communication device such as a telephone.

[0027]

According to a first aspect of the present invention, there is provided a distributed power supply which is connected to a main line connected to a commercial power supply and which is connected to a commercial power supply and which is connected to a commercial power supply. A branch circuit for supplying power to a load by branching from a main line between a commercial power supply and a distributed power supply, a current detecting means for detecting a current flowing in the branch circuit, and detecting a voltage between the commercial power supply and the distributed power supply Voltage detection means, load power detection means for obtaining the power used by the load based on the product of the current value detected by the current detection means and the voltage value detected by the voltage detection means, and detection of the power generated by the distributed power supply. Distributed power detecting means, trade determining means for determining a magnitude relationship between the power detected by the load power detecting means and the power detected by the distributed power detecting means, and a container installed on an indoor construction surface
Display means for displaying whether power is purchased from the commercial power supply or sold to the commercial power supply in accordance with the magnitude relationship obtained by the trade determination means. It is possible to check indoors in real time whether power is being supplied or sold to the commercial power supply.

According to a second aspect of the present invention, in the first aspect, the display means has a function of displaying the power detected by the load power detection means and the power detected by the distributed power detection means. There is an effect that the power used by the load and the power generated by the distributed power source can be checked indoors in real time. The invention of claim 3 is
The invention according to claim 1, further comprising trading power calculating means for obtaining a difference between the power detected by the distributed power detecting means and the power detected by the load power detecting means as power for purchasing or selling power, wherein the display means comprises: Since it has a function of displaying the power obtained by the trading power calculation means, by displaying the power obtained by the trading power calculation means on the display means, the power being traded with the commercial power supply indoors can be obtained. There is an effect that it can be confirmed in real time.

According to a fourth aspect of the present invention, there is provided a method according to the first aspect, wherein the difference between the power detected by the distributed power detecting means and the power detected by the load power detecting means is determined as the power traded with the commercial power supply. Power calculating means, and margin power calculating means for calculating a difference between specified power set based on a breaking capacity of a main breaker inserted between a commercial power supply and a main line and power obtained by the trading power calculating means. Since the display means has a function of displaying the difference obtained by the surplus power calculation means, by displaying the power obtained by the surplus power calculation means on the display means, based on the breaking capacity of the master breaker. There is an effect that it is possible to check in real time indoors how much power can be used after the set specified power.

According to a fifth aspect of the present invention, in the first aspect of the present invention, a plurality of branch circuits are provided, and the current detecting means is provided for each branch circuit. A plurality of load power detection means for obtaining the power used by each load by each product of the voltage values detected by the voltage detection means are provided, and the display means displays each power detected by each load power detection means. Is provided, the power consumption of each load can be checked indoors in real time.

According to a sixth aspect of the present invention, in the fifth aspect of the present invention, voltage detecting means for detecting a voltage between the commercial power supply and the distributed power supply, and the respective current values detected by the respective current detecting means and the voltage detection A plurality of load power detection means for respectively obtaining the power used by each load by each product of the voltage values detected by the means, and setting based on a breaking capacity of a branch breaker inserted between the main line and the load. A plurality of spare power calculating means for respectively obtaining a difference between the specified power and each power detected by each of the load power detecting means, wherein the display means displays the respective differences obtained by the respective spare power calculating means. Since the load connected to the branch breaker can use the specified power set for the breaking capacity of the branch breaker, There is an effect that can be confirmed in the arm.

The invention of claim 7 is the invention of claim 4 or claim 6.
In the invention described in the above, since the nonvolatile memory that stores the specified power and the power setting unit that registers the specified power in the nonvolatile memory are provided, the specified power can be appropriately set as needed. Further, even if a power failure occurs, the state before the power failure is maintained, so that there is an effect that the work of resetting the specified power becomes unnecessary.

[Brief description of the drawings]

FIG. 1 is a system configuration diagram showing an embodiment.

FIG. 2 is a block diagram of a signal conversion circuit according to the first embodiment;

FIG. 3 is a configuration diagram of the above display device.

FIG. 4 is a block diagram of the display device of the above.

FIG. 5 is a display example diagram of a display unit of the above.

FIG. 6 is a basic conceptual diagram of the present invention.

FIG. 7 is a system configuration diagram showing a conventional example.

[Explanation of symbols]

 Reference Signs List 13 branch breaker 20 solar cell 23 power converter 25 interconnection protection circuit 27 control circuit 50 display device 60 signal conversion circuit AC commercial power supply Lm Trunk line

──────────────────────────────────────────────────続 き Continuing on the front page (72) Inventor Hirotada Higashihama 1048 Kadoma Kadoma, Osaka Prefecture Matsushita Electric Works, Ltd. Inventor Toshiji Togawa 1048 Kadoma Kadoma, Kadoma City, Osaka Pref. (72) Inventor Akira Yoshitake 1048 Kadoma Kadoma, Kadoma City, Osaka Pref. Matsushita Electric Works, Ltd. JP, A) JP-A-59-53040 (JP, A) JP-A-8-126206 (JP, A) JP-A-2-193530 (JP, A) (58) Fields investigated (Int. Cl. ⁷ , (DB name) H02J 3/00-5/00

Claims (7)

(57) [Claims] A distributed power supply connected to a main line connected to a commercial power supply for performing system interconnection with the commercial power supply, and a commercial power supply and a distributed power supply. A branch circuit that branches off from the main line to supply power to the load; a current detection unit that detects a current flowing in the branch circuit; a voltage detection unit that detects a voltage between the commercial power supply and the distributed power supply; Load power detection means for determining the power used by the load by the product of the current value detected by the detection means and the voltage value detected by the voltage detection means, distributed power detection means for detecting power generated by the distributed power supply,
The trade determination means for determining the magnitude relationship between the power detected by the load power detection means and the power detected by the distributed power detection means, and the magnitude relation determined by the trade determination means having a body installed on an indoor construction surface. Display means for displaying whether power is purchased from the commercial power supply or sold to the commercial power supply in response to the request. 2. The solar power generation system according to claim 1, wherein said display means has a function of displaying the power detected by the load power detection means and the power detected by the distributed power detection means. 3. A trading power calculating means for obtaining a difference between the power detected by the distributed power detecting means and the power detected by the load power detecting means as power for purchasing or selling power, wherein the display means includes the trading power. 2. The photovoltaic power generation system according to claim 1, further comprising a function of displaying the power obtained by the calculation means. 4. A trading power calculating means for obtaining a difference between the power detected by the distributed power detecting means and the power detected by the load power detecting means as the trading power with the commercial power supply, And a surplus power calculating means for obtaining a difference between the specified power set based on the breaking capacity of the main breaker inserted in the power supply and the power obtained by the trading power calculating means, and the display means calculates the surplus power by the surplus power calculating means. The photovoltaic power generation system according to claim 1, further comprising a function of displaying the difference. 5. A branch circuit comprising a plurality of branch circuits, wherein the current detection means is provided for each branch circuit, and each of a current value detected by each current detection means and a voltage value detected by the voltage detection means is determined. A plurality of load power detection means for respectively obtaining the power used by each load by a product, wherein the display means has a function of individually displaying each power detected by each load power detection means. The photovoltaic power generation system according to claim 1. 6. A voltage detecting means for detecting a voltage between a commercial power supply and a distributed power supply, and a product of each current value detected by each current detecting means and a voltage value detected by the voltage detecting means. A plurality of load power detection means for respectively obtaining the power used by each load; a specified power set based on a breaking capacity of a branch breaker inserted between the main line and the load; A plurality of surplus power calculating means for respectively obtaining a difference from each of the calculated powers, and the display means has a function of displaying the respective differences obtained by the respective surplus power calculating means. Solar power system. 7. The photovoltaic power generation system according to claim 4, further comprising: a non-volatile memory that stores the specified power; and a power setting unit that registers the specified power in the non-volatile memory. .