JP3299499B2 - 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 photovoltaic power generation system that sells power to a commercial power supply when it occurs.

[0002]

2. Description of the Related Art In recent years, as one of measures for preventing 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 are provided to ensure the quality, security, reliability, and protection coordination of the power supplied by the commercial power source and to ensure smooth grid-connected operation.

By the way, as a photovoltaic power generation system,
As shown in FIG. 9, an interconnecting breaker 21 and a main line Lm connected from a single-phase three-line commercial power supply AC to a main line Lm connected via a current limiter (hereinafter, referred to as a limiter) 11 and a main trunk breaker 12 composed of an earth leakage breaker. Off-line switches 22a, 2
A power converter 23 for converting the output of a solar cell (one having a large number of solar cells arranged in a panel) 20 into power through 2b is connected. 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 21 via the branch breakers 13, respectively. Limiter 1
1. The main breaker 12, the branch breaker 13, and the interconnection breaker 21 are housed in the distribution board 1, and the solar cells 20 are installed on the roof of a house or the like. Further, the parallel-off switches 22a, 22
b, the power converter 23 is housed in the box 2.

The disconnecting 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 failure of the commercial power supply AC. That is, the system interconnection is performed when the disconnection switches 22a and 22b are on, and the system is separated when the disconnection switches 22a and 22b are off (that is, in the disconnected state). The disconnecting switch 22a is opened and closed by an interconnection protection circuit 25, and the disconnecting switch 22b is opened and closed by a control circuit 26. The interconnection protection circuit 25 detects the instantaneous value of the voltage corresponding to the line voltage of the main line Lm. The control circuit 26 detects the output current of the power converter 23 by the current transformer CT1. When an abnormality or a power failure of the commercial power supply AC is detected, the disconnection switch 22a,
22b is disconnected. Further, the control circuit 26 controls the power converter 23 based on the instantaneous value of the voltage detected by the interconnection protection circuit 25 so that the phase of the output voltage of the power converter 23 matches the voltage phase of the commercial power supply AC. , Current transformer CT1
The power converter 23 is controlled so as to suppress the fluctuation of the current value detected by the above.

[0005] According to the above configuration, when the system interconnection is performed, the distributed power supply including the solar cell 20 and the power converter 23 and the commercial power supply AC are connected to the main line Lm. When the electric power used by the connected load is larger than the electric power generated by the distributed power supply, the electric power is supplied from the commercial power supply AC, and the electric power used by the load is generated by the distributed power supply. When the electric power is smaller than the electric power, the surplus electric power is sent to the commercial power supply AC side. That is, depending on the magnitude relationship between the power used by the load and the power generated by the distributed power supply, power is supplied from the commercial power supply AC (called power purchase), or power is supplied from the distributed power supply to the commercial power supply AC side. (Called power selling). In such a photovoltaic power generation system, a watt hour meter 4a for detecting the amount of power purchased is provided at a connection point with the commercial power supply AC so as to know whether the power is purchased or sold. And a watt-hour meter 4b for detecting the

[0006]

As described above, since the two watt-hour meters 4a and 4b are used to determine whether the power is purchased or sold, it is difficult to know whether the power is being purchased or sold. Needs to compare both watt-hour meters 4a and 4b. In addition, since the watt-hour meters 4a and 4b of this type are installed outdoors in a house, it is inconvenient to know whether to buy or sell power unless they go outside.

The present invention has been made in view of the above circumstances, and an object of the present invention is to provide a photovoltaic power generation system capable of easily knowing whether a power is being purchased or being sold indoors. It is in.

[0008]

According to a first aspect of the present invention, 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 the commercial power at a location different from the commercial power. And a mains breaker inserted between the commercial power supply and the mains, and a branch circuit that branches off the mains and supplies power to the load. A distribution board that houses a branch breaker, a current transformer that detects the instantaneous value of the current between the commercial power supply and the branch circuit, and an instantaneous value of the voltage between the commercial power supply and the distributed power supply. Trading power calculating means for calculating an average value of a product of the current and the instantaneous value of the current detected by the current transformer; and whether power is purchased from the commercial power supply based on the sign of the average value determined by the trading power calculating means. Check that power is being sold to the power supply In which and a display apparatus disposed in Shimesuru indoors. According to this configuration, there is an advantage that it is possible to recognize whether the power is being purchased or the power is being sold simply by looking at the display of the display device arranged indoors, and furthermore, it is detected whether the power is being purchased or the power is being sold. Therefore, the instantaneous value of the current between the commercial power supply and the branch circuit and the instantaneous value of the voltage between the commercial power supply and the distributed power supply are used. Whether the power is purchased or sold can be detected and displayed on the display device, and the installation location of the display device is less restricted. The signal for knowing whether the power is being purchased or sold can indicate only the positive or negative sign of the average value of the product of the instantaneous current value and the instantaneous voltage value, so that binary information can be transmitted. Any material can be used.

According to a second aspect of the present invention, in the first aspect of the invention, the trading power calculating means is housed in the distribution board. According to this configuration, the influence of the noise on the trading power calculation means is reduced, and the noise resistance is increased.
According to a third aspect of the present invention, in the second aspect of the present invention, the trading power calculation means is housed in a container having a common size of a distribution board. According to this configuration, the trading power calculation means can be handled as an internal unit of the distribution board, and installation on the distribution board becomes easy.

According to a fourth aspect of the present invention, in the second or third aspect of the present invention, the signal from the trading power calculating means to the display becomes a reference frequency when the average value becomes zero and the signal becomes the average frequency. The height relative to the reference frequency is determined according to the polarity of the value, and the greater the absolute value of the average value, the greater the frequency difference from the reference frequency. According to this configuration, since it is possible to know whether the power is purchased or sold based on the level of the frequency, even if noise is mixed in this signal, it is possible to easily extract information about whether the power is purchased or sold, and Noise characteristics are increased.

According to a fifth aspect of the present invention, in the first aspect of the present invention, the display is separate from the distribution board and has a two-unit module size standardized for an embedded wiring device. It is stored in. According to this configuration, since the construction is performed using the construction member and the construction technique of the embedded wiring device,
There is no need to newly manufacture a construction member, and it is possible to suppress increases in production costs, material costs, and training costs for construction engineers.

According to a sixth aspect of the present invention, in the first aspect of the present invention, the distributed power source generates electric power from the distributed power source based on an output current of the distributed power source and a line voltage of a connecting portion of the distributed power source to a main line. A distributed power calculating means for calculating power, wherein the trading power calculating means calculates the average based on an instantaneous value of a current detected by the current transformer and an instantaneous value of a line voltage at a connection portion of the distributed power supply to a main line. It performs a calculation for obtaining a value, and is provided in the distributed power supply together with the distributed power calculation means. According to this configuration, it is possible to obtain the generated power and the trading power of the distributed power source, and it is not necessary to have a configuration for calculating the trading power in the distribution board. Here, since the generated power of the distributed power source and the trading power use the same voltage,
At least a part of the configuration of both calculation means can be shared.

According to a seventh aspect of the present invention, in the first aspect of the present invention, the power generated by the distributed power supply is calculated based on the output current of the distributed power supply and the line voltage at the connection point of the distributed power supply to the main line. The distributed power supply includes distributed power calculation means, and load power calculation means for obtaining power supplied to the branch circuit from the average value obtained by the trading power calculation means and the power detected by the distributed power calculation means. is there. According to this configuration, since the power supplied to the load is obtained based on the generated power of the distributed power source and the purchased power, it is possible to know the power used in the house.

According to an eighth aspect of the present invention, in the first aspect of the invention, the average value of the product of the current value detected by the current detection means and the voltage value detected by the voltage detection means is purchased or sold. Trading power calculation means for obtaining power, and the difference between the upper limit power allowed to be used based on the rated capacity of the main breaker inserted between the commercial power supply and the main line and the power obtained by the trading power calculation means. And a function for displaying the difference obtained by the remaining power calculating means. According to this configuration, the upper limit power based on the rated capacity of the main breaker is set, and the difference between the power used in the load and the upper limit power is displayed on the display means. It is possible to know the remaining power available as a whole.

[0015]

DESCRIPTION OF THE PREFERRED EMBODIMENTS The basic configuration of this embodiment is shown in FIG.
The main difference is that a display 5 capable of displaying whether to purchase or sell power is provided as shown in FIG. That is, similarly to the conventional configuration, the electric power is supplied to the trunk line Lm connected to the commercial power supply AC via the limiter 11 and the main breaker 12 via the disconnecting switches 22a and 22b composed of the interconnection breaker 21 and the electromagnetic contactor. Converter 2
3 are connected. The power converter 23 converts the DC output of the solar cell 20 connected via the connection box 3 into AC similar to the commercial power AC, and has an inverter circuit as a main configuration. A plurality of branch circuits Lb are connected to the trunk line Lm between the main breaker 12 and the interconnection breaker 21 via the branch breakers 13, respectively.

The limiter 11, the main breaker 12, the branch breaker 13, and the interconnection breaker 21 are housed in the distribution board 1,
It is unitized together with the parallel-off switches 22a and 22b, the power converter 23, the interconnection protection circuit 25, the control circuit 26, and the like, and is housed in the box 2. A common branch circuit Lc is connected between the power converter 23 and the disconnecting switches 22a and 22b via a common branch breaker 24.

The interconnection protection circuit 25 detects a line voltage between the interconnection breaker 21 and the disconnecting switches 22a and 22b, and if there is an abnormality in the voltage fluctuation or the frequency fluctuation, the disconnecting switch 22 is detected.
a and 22b are disconnected. Further, a power failure of the commercial power supply AC can be detected based on a change in voltage. Power converter 2
Since the common branch circuit Lc is connected between the power supply 3 and the parallel-off switches 22a and 22b via the common branch breaker 24, the common branch circuit Lc is connected to the common branch circuit Lc regardless of whether the system is connected or disconnected. Power supply. In other words, power can be supplied to the shared branch circuit Lc even when an abnormality or power failure occurs, as long as 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.

The display 5 displays various kinds of information, and is connected to the interconnection protection circuit 25 housed in the box 2.
And the signal line Ls1. The display unit 5 is provided with a communication unit 31 for exchanging various data with the interconnection protection circuit 25, as shown in FIG. Further, the display 5 is provided with a display unit 32 composed of a liquid crystal display, and a function setting unit 33 for selecting display contents and performing various settings. Data transmitted and received through the communication unit 31 is stored in the data storage unit 34, and the data stored in the data storage unit 34 is selected by the function setting unit 33 and displayed on the display unit 32. Further, a part of the area of the data storage unit 34 is constituted by an E ² PROM which is a non-volatile memory, and data to be held even at the time of a power failure or the like is E ² PR
Stored in the OM. Further, the data read from the data storage unit 34 is subjected to a calculation process in the calculation processing unit 30 as necessary, and the calculation result is displayed on the display unit 32. The display 5 is also provided with a time management unit 35 for managing the date and time.

The information that can be displayed on the display 5 is the solar cell 2
0, the power generated by the distributed power source constituted by the connection box 3 and the box 2, the integrated value of the power generated by the distributed power source, the power being purchased, the power being sold, and the power used in the branch circuit Lb. Sum of the power (that is, supplying the load)
The difference between the upper limit power specified based on the rated capacity of the main breaker 12 and the power supplied to the load (hereinafter referred to as residual power), and whether the power is being generated by the distributed power source or not. Whether the power is being generated by the distributed power source or not is always displayed, and other information is displayed by selecting the function setting unit 33.
FIG. 3 shows a specific display example. The display unit 32 used for the display unit 5 is of a segment type, and the type of the displayed information is the type display area D provided in the upper column.
1 and the numerical value is displayed in a numerical value display area D2. Whether or not power is being generated by the distributed power source is displayed in the power generation display area D3.

The display device 5 has the appearance shown in FIG. 4 and has a double module size (two times the module size of a three-module size and is attached to one switch box for two) in a large-angle continuous wiring device. The size of the body is used. In other words, the mounting work is performed using the mounting frame in the same way as the embedded wiring device, and the mounting frame is fixed to the switch box and mounted on the wall, or the mounting frame is directly mounted on the wall with wood screws. It is possible to adopt a construction method such as, for example, clamping a peripheral portion of a mounting hole provided in a wall panel between a mounting bracket and a mounting frame. For this mounting frame, those standardized by JIS standards are used.

An operation switch SW1 for switching whether or not to perform system interconnection between the distributed power supply and the commercial power supply AC, and a display unit 32 are provided on the front surface (exposed portion from the wall surface) of the body of the display unit 5.
Switch SW for selecting the type of information to be displayed on the display
2. Date and time setting switches SW3 to SW5 for adjusting the date and time of the time management unit 35 are provided. The date and time setting switches SW3 to SW5 are provided for setting forward for sequentially selecting each setting item of year, month, day, hour, and minute, and for adjusting a numerical value for increasing or decreasing the numerical value of each setting item. .

By the way, in order to display various kinds of information as described above on the display 5, the distribution board 1 detects a current flowing through the main line Lm between the main breaker 12 and the branch breaker 13. Current transformers CT2a, CT2b
And the instantaneous value of the current detected by the current transformers CT2a and CT2b and the instantaneous value of the line voltage of the main line Lm.
And a signal conversion circuit 14 that detects whether the power is being purchased or sold from the company and obtains the power.

The signal conversion circuit 14 has the configuration shown in FIG. 5, and includes amplifiers 41 and 42 for current-voltage converting and amplifying the current obtained by the current transformers CT2a and CT2b. Are output by the adder 43. For example, if the inputs to the amplifiers 41 and 42 are as shown in FIGS. 6A and 6B, the output of the adder 43 is as shown in FIG. 6D. On the other hand, the line voltage of the main line Lm detected by the signal conversion circuit 14 is amplified by the amplifier 44, and the product of the output of the adder 43 and the output of the amplifier 44 is obtained by the multiplier 45. The input to the amplifier 44 is shown in FIG.
6C, when the output of the adder 43 is as shown in FIG. 6D, the output of the multiplier 45 is as shown in FIG. That is, when the polarities of the instantaneous value of the current and the instantaneous value of the voltage match, the instantaneous value of the power (trading power) output from the multiplier 45 has a positive polarity as shown in FIG. The instantaneous value of the trading power thus determined if smoothing by the filter 46, it is possible to obtain the output voltage value V ₁ corresponding to the trading power as shown in FIG. 6 (f). When the polarity of the instantaneous value of the voltage and the instantaneous value of the current are reversed, the output value of the multiplier 45 becomes negative, and the output of the filter 46 becomes the negative voltage value V _2.
become. The output of the filter 46 is subjected to offset adjustment by an offset adjustment unit 47 and then output to a V / F converter 48.
, And is converted into a rectangular wave signal having a frequency corresponding to the output voltage of the offset adjusting unit 47. Here, when the output voltage of the filter 46 is 0 V, the offset value is adjusted by the offset adjustment unit 47 so that the V / F converter 48 generates a rectangular wave signal having a predetermined reference frequency. When the output of the filter 46 has a positive polarity, a rectangular wave signal having a frequency lower than the reference frequency is output as shown in FIG. 6H, and when the output of the filter 46 has a negative polarity, as shown in FIG. Thus, a rectangular wave signal having a frequency higher than the reference frequency is output.

As is clear from the above description, the current transformer C
If the product of the instantaneous value of the current detected by T2a and CT2b and the instantaneous value of the voltage detected by the signal conversion circuit 14 is obtained,
A voltage value having a polarity corresponding to the phase relationship between the voltage and the current is output from the filter 46. That is, if the power is being purchased, FIG.
The phase of the voltage shown in FIG. 7A and the current shown in FIG.
Since the deviation is within 0 degrees, the instantaneous value of the power output from the multiplier 44 has a positive polarity as an average value as shown in FIG. 7C. Also, since the current phase is reversed during power purchase and during power purchase, the phase of the voltage shown in FIG. 8A and the current shown in FIG. The instantaneous values are shown in FIG.
As shown in (c), the average value is negative. By using this, it is possible to know whether the power is being purchased or sold.
That is, the signal conversion circuit 14 functions as a power selling power calculation unit that obtains power during power purchase and during power selling.

Since the signal conversion circuit 14 is housed in the distribution board 1, the dimensions (hereinafter, referred to as a "division") of the common circuit breaker for the light distribution board, which is a standard of the internal unit of the distribution board 1, are specified. (Called the contract size of the electrical board). Although there are various sizes for the distribution panel, there is a branch breaker 1
By storing in a vessel of the same size as 3, a branch breaker 13 can be attached.

On the other hand, as described above, the box 2 is provided with the interconnection protection circuit 25 and the control circuit 26 for controlling the parallel-off switches 22a and 22b, and the control circuit 26 includes a distributed power source (power converter). Since the instantaneous value of the output current of 23) is detected, if this current value is multiplied by the voltage corresponding to the line voltage of the trunk line Lm obtained by the interconnection protection circuit 25, the power generated by the distributed power source is obtained. Can be obtained. Here, the power generated by the distributed power source is obtained as an effective value. Such a function is provided in the interconnection protection circuit 25,
The interconnection protection circuit 25 functions as distributed power calculation means for detecting the power generated by the distributed power supply.

The rectangular wave signal from the signal conversion circuit 14 described above is transmitted to the interconnection protection circuit 25 via the signal line Ls2, and the interconnection protection circuit 25 The signal is transmitted to the display 5 together with the wave signal. It is desirable that the generated power obtained by the interconnection protection circuit 25 and the output of the signal conversion circuit 14 be transmitted through different lines.

With the configuration described above, the indicator 5 can determine whether the power is being purchased or sold, depending on whether the frequency of the rectangular wave signal from the signal conversion circuit 14 is higher or lower than the reference frequency. At the same time, the trading power can be known from the frequency of the rectangular wave signal. As described above, since whether the power is being purchased or sold and the trading power are determined in the distribution board 1, the information is hardly affected by external noise, and the information is obtained by the frequency of the square wave signal. Since the data is transmitted, even if noise is mixed in the transmission path, the effect on the information content is small. That is, a configuration excellent in noise resistance can be obtained.

Further, the display 5 allows the power generated by the distributed power source to be known from information from the interconnection protection circuit 25. Thus, the total sum of the power used in the load connected to the branch circuit Lb can be obtained from the trading power and the power generated by the distributed power source. This calculation is performed by the calculation processing unit 30 provided in the display 5. Furthermore, the total amount of power used by the load in the house is slightly smaller than the rated capacity of the main breaker 12 (for example, 80% of the rated capacity).
%) As the upper limit power, it is safer to set such upper limit power.
The remaining power available in the house (that is, the remaining power) can be obtained by subtracting the sum of the power consumption at the load obtained as described above from the upper limit power. This calculation is also obtained by the calculation processing unit 30, and the calculation processing unit 30 also functions as remaining power calculation means. A separate setting device is used for writing data to the data storage unit 34, and is set appropriately according to the specifications of the main breaker 12.

Since the above-mentioned display unit 5 can be mounted on the wall surface separately from the distribution board 1 and the box 2, it can be installed at any place in the house, and is convenient. . In the present embodiment, the signal conversion circuit 14 is provided in the distribution board. However, the interconnection protection circuit 25 also obtains power by multiplying the current and the voltage and transmits the power to the display 5. Have the same configuration as the signal conversion circuit 14. Therefore, the current transformer CT2a,
The output of CT2b is transferred to the interconnection protection circuit 25, and trading is performed based on the instantaneous value of the voltage corresponding to the line voltage of the main line Lm detected by the interconnection protection circuit 25 and the outputs of the current transformers CT2a and CT2b. The power and its sign may be obtained. That is, the function of the trading power calculation means is provided to the interconnection protection circuit 25. Similarly, the load power calculating means for calculating the sum of the power used in the load is also connected to the interconnection protection circuit 2.
5 may be provided.

In the present embodiment, the trading power and whether the power is being purchased or sold are displayed and other information can be displayed. However, other information can be displayed as necessary. And it is not always necessary to perform all the displays. That is, only the display indicating whether the power is being purchased or sold may be displayed, or any one or more of the purchased power, the generated power, and the used power may be displayed in combination. Although the display unit 5 uses the display unit 33 having a relatively small area, various types of information are switched and displayed as described above, so that various types of information can be displayed even with a small area screen.

[0032]

According to the first aspect of the present invention, the DC output of a solar cell is converted from DC to AC to output AC, and the main power is connected to a main line connected to the commercial power supply at a location different from the commercial power supply. Houses a distributed power supply that matches the voltage phase to connect to the grid, a main breaker inserted between the commercial power supply and the mains, and a branch breaker inserted in the branch circuit that branches off the mains and supplies power to the load A current transformer that detects the instantaneous value of the current between the commercial power supply and the branch circuit, and a current transformer that detects the instantaneous value of the voltage between the commercial power supply and the distributed power supply Trading power calculation means for calculating the average value of the product of the detected current and the instantaneous value; and power purchased from the commercial power supply or sold to the commercial power supply based on the sign of the average value determined by the trading power calculation means. To see what is being placed indoors It has the advantage that it is possible to recognize whether the power is being purchased or sold by simply looking at the display of the indicator arranged indoors, and whether the power is being purchased or sold. Is detected using the instantaneous value of the current between the commercial power supply and the branch circuit and the instantaneous value of the voltage between the commercial power supply and the distributed power supply. Separately, whether the power is purchased or sold can be detected and displayed on the display device, and there is an advantage that restrictions on the installation location of the display device are reduced.

In the case where the trading power calculation means is housed in the distribution board as in the second aspect of the invention, there is an advantage that the influence of the noise on the trading power calculation means is reduced and the noise resistance is increased. is there. According to the third aspect of the present invention, when the trading power calculation means is housed in a housing having a common size of the distribution board, the trading power calculation means can be treated as an internal unit of the distribution board. There is an advantage that installation on the device becomes easy.

According to a fourth aspect of the present invention, the signal from the trading power calculation means to the display becomes the reference frequency when the average value becomes 0, and the level relative to the reference frequency is determined according to the polarity of the average value. If the absolute value of the average value is larger and the frequency difference from the reference frequency is larger, it is possible to know whether the power is purchased or sold depending on the frequency. There is an advantage that information as to whether the power is sold or not can be easily extracted and noise resistance is improved.

According to a fifth aspect of the present invention, the display is separate from the switchboard and is standardized for embedded wiring equipment.
In the case of a module housed in a continuous module size body, construction is performed using the construction member of the embedded wiring device and construction technology, so there is no need to newly manufacture construction members, manufacturing costs, material costs, There is an advantage that an increase in training costs for construction engineers can be suppressed.

According to a sixth aspect of the present invention, the distributed power source calculates the power generated by the distributed power source based on the output current of the distributed power source and the line voltage at the connection point of the distributed power source to the main line. An arithmetic means for calculating an average value based on the instantaneous value of the current detected by the current transformer and the instantaneous value of the line voltage at the connection point of the distributed power supply to the main line. In the case where the distributed power source and the distributed power source are provided together with the distributed power calculation means, it is possible to obtain the generated power and the trading power of the distributed power source, and it is not necessary to provide a configuration for calculating the trading power in the distribution board. There are advantages.
Further, since the same power is used for the generated power and the traded power of the distributed power source, there is also an advantage that at least a part of the configuration of both calculation means can be shared.

According to a seventh aspect of the present invention, there is provided a distributed power calculating means for calculating the power generated by the distributed power source based on the output current of the distributed power source and the line voltage at the connection point of the distributed power source to the main line. When the distributed power supply is provided with a load power calculating means for obtaining the power supplied to the branch circuit from the average value obtained by the trading power calculating means and the power detected by the distributed power calculating means, the generated power of the distributed power Since the electric power supplied to the load is obtained based on the electric power, there is an advantage that the electric power used in the house can be known.

According to an eighth aspect of the present invention, the average value of the product of the current value detected by the current detection means and the voltage value detected by the voltage detection means is determined as the power for purchasing or selling power. Calculating means, and remaining power calculating means for calculating a difference between the upper limit power allowed based on the rated capacity of the main breaker inserted between the commercial power supply and the main line and the power obtained by the trading power calculating means. In the case where the display is provided with a function of displaying the difference obtained by the remaining power calculation means, the allowable use amount of power is set as the upper limit power based on the rated capacity of the main breaker, and the power used by the load is determined. Since the difference from the upper limit power is displayed on the display means,
The advantage is that the remaining power available across the load supplied with power through the main breaker can be known.

[Brief description of the drawings]

FIG. 1 is a circuit diagram showing an embodiment of the present invention.

FIG. 2 is a block diagram of a display used in the embodiment.

FIG. 3 is an operation explanatory diagram showing a display example of a display device used in the embodiment.

FIG. 4 is a front view of the display used in the embodiment.

FIG. 5 is a block diagram showing a signal conversion circuit used in the first embodiment.

FIG. 6 is an operation explanatory diagram showing signal waveforms of respective parts of the signal conversion circuit used in the first embodiment.

FIG. 7 is an explanatory diagram of the operation of the signal conversion circuit used in the above.

FIG. 8 is an explanatory diagram of the operation of the signal conversion circuit used in the first embodiment.

FIG. 9 is a circuit diagram showing a conventional example.

[Explanation of symbols]

 Reference Signs List 5 display 14 signal conversion circuit 20 solar cell 22a, 22b disconnection switch 23 power converter 25 interconnection protection circuit 26 control circuit 30 operation processing unit 32 display unit 33 function setting unit 34 data storage unit AC commercial power supply CT2a, CT2b Current transformer Lb Branch circuit 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-9-182298 (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 (8)

(57) [Claims] 1. A system in which a DC output of a solar cell is DC-AC converted to output an AC, and connected to a main line connected to a commercial power supply at a location different from the commercial power supply so that a voltage phase of the commercial power supply coincides with that of the commercial power supply. A distribution board containing a distributed power supply for interconnection, a main breaker inserted between a commercial power supply and the mains, and a branch breaker inserted from a mains branch into a branch circuit for supplying power to a load; A current transformer for detecting an instantaneous value of a current between a power supply and a branch circuit; and an instantaneous value of a current detected by the current transformer while detecting an instantaneous value of a voltage between a commercial power supply and a distributed power supply. Means for calculating the average value of the product of the two, and displaying whether the power is purchased from the commercial power supply or sold to the commercial power supply based on the sign of the average obtained by the trading power calculation means. With an indicator placed indoors A solar power generation system comprising: 2. The photovoltaic power generation system according to claim 1, wherein said trading power calculating means is housed in said distribution board. 3. The photovoltaic power generation system according to claim 2, wherein said trading power calculation means is housed in a container having a common size of a distribution board. 4. A signal from the trading power calculation means to a display becomes a reference frequency when the average value becomes 0, and a level relative to the reference frequency is determined according to the polarity of the average value. The photovoltaic power generation system according to claim 2 or 3, wherein the frequency difference from the reference frequency increases as the absolute value of the value increases. 5. The display device according to claim 1, wherein the display device is separate from the distribution board and is housed in a double module-sized body standardized for an embedded wiring device. 1. The solar power generation system according to 1. 6. The distributed power supply includes distributed power calculation means for calculating power generated by the distributed power supply based on an output current of the distributed power supply and a line voltage at a connection portion of the distributed power supply to a main line, The trading power calculation means performs calculation for obtaining the average value based on the instantaneous value of the current detected by the current transformer and the instantaneous value of the line voltage at the connection point of the distributed power supply to the main line. 2. The photovoltaic power generation system according to claim 1, wherein the photovoltaic power generation system is provided in the distributed power source together with the power calculation means. 7. A distributed power calculation means for calculating power generated by the distributed power supply based on an output current of the distributed power supply and a line voltage at a connection portion of the distributed power supply to the main line, and the trading power calculation means. 2. The photovoltaic power generation system according to claim 1, further comprising a load power calculating means for obtaining power supplied to the branch circuit from the obtained average value and the power detected by the distributed power calculating means. . 8. A trading power calculation means for obtaining an average value of a product of a current value detected by the current detection means and a voltage value detected by the voltage detection means as power for power purchase or power sale; And a remaining power calculating means for calculating a difference between the upper limit power allowed to be used based on the rated capacity of the main breaker inserted between the main power line and the power obtained by the trading power calculating means, 2. The photovoltaic power generation system according to claim 1, wherein the unit has a function of displaying the difference obtained by the remaining power calculation unit.