JP2002233077A - Photovoltaic power generating and power supplying system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an economical photovoltaic power generating and power supplying system. SOLUTION: Since one control center 20 is provided for a plurality of power generating load units 10, an expensive common battery 22 and the control center 20 may be used as one device, and cost reduction is achieved. In addition, when power shortage occurs in a part of a power generating load unit 10 due to the increase of alternating current load 13, bad weather or the failure or the like of a solar battery 11 due to disaster or the like, a commercial power source 50 may not be always used since excessive power of the other power generating load unit 10 is supplied to the power generating load unit 10 of power generating power shortage through the common battery 22, and for instance, even when power supply from the commercial power source 50 is received, the amount can be reduced.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

The present invention relates to a photovoltaic power supply system.

[0002]

2. Description of the Related Art Conventionally, a solar battery and a storage battery, a load consuming the power thereof, and when the power generated by the solar battery is greater than the power consumption of the load, the storage battery is charged with surplus power to further increase the power. If there is surplus power, reverse power flows to commercial power,
When the power generated by the solar cell is smaller than the power consumed by the load, or when the solar cell fails due to a disaster such as an earthquake, the storage battery is discharged to compensate for the insufficient power. For example, Japanese Patent Application Laid-Open No. 10-285825 discloses a photovoltaic power supply system including a control device for charging a storage battery or supplying a load to a load.

[0003]

However, when such a photovoltaic power supply system is individually introduced into a plurality of homes, shops, business establishments and the like in the region, the demands in the region where the system is introduced Each time an expensive storage battery or control device is installed, it is not economical.

[0004] The present invention has been made in view of the above problems, and has as its object to provide an economical photovoltaic power supply system.

[0005]

A photovoltaic power supply system according to the present invention comprises a quadrature converter for converting DC power into AC power, a solar cell having a predetermined power generation capacity and supplying the generated power to the quadrature converter, And, a plurality of power generation load units including an AC load to which AC power is supplied from the orthogonal transformation unit,
A common storage battery having a predetermined capacity, at least a part of the AC power converted by the orthogonal conversion unit of any power generation load unit is converted to DC power to enable storage in the common storage battery, and stored in the common storage battery. A power storage control unit that converts DC power into AC power and enables supply to an orthogonal transform unit of an arbitrary power generation load unit. For the power generation load unit with surplus, the surplus power is stored in the common storage battery from the orthogonal transform unit via the power storage control unit, and the power generation load unit in which the power generated by the solar cell is insufficient for the power consumption of the AC load And a control center including a system control unit that supplies the storage power of the common storage battery to the orthogonal transform unit of the unit via the storage control unit. Characterized in that was.

According to the present invention, since one control center is provided for a plurality of power generation load units, only one expensive storage battery, control unit and the like are required, and cost reduction is achieved. In addition, when power generation becomes insufficient in some power generation load units due to an increase in AC load, bad weather, or failure of a solar cell due to a disaster, for example, surplus power of another power generation load unit is output from the common storage battery. Since the power is supplied to the power generation load unit having a shortage of electric power, it is not always necessary to use a commercial power supply, and even if power is supplied from the commercial power supply, the amount can be reduced.

[0007] Preferably, the power generation load units are arranged for each power consumer, and the control center is arranged for each unit composed of a plurality of power consumers. Thereby, the photovoltaic power supply system is suitably implemented.

[0008] Further, the orthogonal transform unit of the power generation load unit includes:
A current control type inverter that performs orthogonal conversion of power between a solar cell and an AC load or a storage control unit, and is controlled by a system control unit to control conduction / interruption between the current control type inverter and the storage control unit. It is preferable to include an orthogonal transformation unit power switch. Thus, the orthogonal transform unit of the power generation load unit is easily configured, and the photovoltaic power generation system is suitably implemented.

It is preferable that the power storage control section of the control center includes a voltage control type inverter for converting AC power and DC power to each other and adjusting voltage and frequency. Thus, the power storage control unit is simply configured, and the photovoltaic power supply system is suitably implemented.

[0010] The system control unit of the control center detects unit power detection means for detecting excess or deficiency of the power generated by the solar cell of each power generation load unit, and generates power based on the detection result of the unit power detection means. A predetermined amount of power is stored in the common storage battery from the orthogonal transformation unit of the power generation load unit having a surplus through the power storage control unit of the control center, and the power storage control is performed from the common storage battery of the control center for the power generation load unit having insufficient power generation. Unit power transfer control means for controlling the orthogonal transform unit and the power storage control unit of each power generation load unit so that predetermined power is supplied to the orthogonal transform unit of the power generation load unit via the unit. And Thereby, the system control unit is simply configured, and the photovoltaic power supply system is suitably implemented.

Further, the unit power detecting means includes a voltage value of the AC power in the orthogonal transform section to which the power generated by the solar cell of each power generation load unit is supplied, and a voltage of the AC power in the power storage control section of the control center. The values are obtained and compared with each other to determine whether the power of each power generation load unit is sufficient or not. Thereby, excess or deficiency of the power of the power generation load unit is easily detected.

[0012] The power generation load unit may include a unit storage battery of a predetermined capacity connected in parallel with the solar cell.

Since the unit storage battery has a long time constant in charge and discharge characteristics, abrupt fluctuations in the AC power supplied to the AC load and the voltage of the AC power output to the power storage control unit are suppressed. You.

Further, the power generation load unit includes a unit storage battery power switch capable of controlling input and output of power to and from the unit storage battery, and a system control unit of the control center detects the amount of stored power of the unit storage battery of the power generation load unit. Based on the detection result of the unit stored power detection means, and based on the detection result of the unit stored power detection means, when the stored power amount of the unit storage battery of the power generation load unit having a surplus in the generated power of the solar cell is smaller than a predetermined minimum value, The surplus generated power of the solar cell is stored in the unit storage battery, and when the storage power amount of the unit storage battery of the power generation load unit having a surplus in the generated power of the solar cell is larger than a predetermined maximum value, the surplus generated power of the solar cell is A unit storage battery that controls a unit battery power switch so that generated power is not stored in the unit storage battery. It may be a control means.

Thus, overcharging of the unit storage battery is prevented.

The control center further includes a system linking unit for supplying power from the commercial power supply to the power storage control unit, and the system control unit stores the power of the commercial power supply when the power stored in the common storage battery becomes insufficient. As supplied to the control unit,
Preferably, the system link is controlled.

As a result, an increase in AC load, bad weather,
Alternatively, when power is insufficient in some or all of the power generation load units due to a failure of a solar cell due to a disaster or the like, and when the surplus power of other power generation load units cannot be covered, power from the commercial power supply is transmitted to the power storage control unit. The reliability of the photovoltaic power supply system is improved because the supplied power can be stored in the common storage battery or supplied to the quadrature converter of the power generation load unit deficient in power.

The system linking unit can further cause the storage power of the common storage battery to flow backward to the commercial power supply via the storage control unit, and the system control unit determines that the common storage battery has excess storage power. In such a case, it is preferable to control the system linking unit such that the excess stored power flows backward from the common storage battery to the commercial power supply.

[0019] Thus, even if the common storage battery of the photovoltaic power generation system is stored, if the generated power still has a surplus, the generated power can be sold, so that the operation cost can be reduced. It is possible.

Further, a system linking unit of the control center is controlled by the system control unit, and connects and disconnects between the commercial power supply and the power storage control unit, and a system linking power switch between the commercial power supply and the power storage control unit. And a transformer for transforming the voltage. Accordingly, the system linking unit is easily configured, and the photovoltaic power supply system is suitably implemented.

Further, the system control unit of the control center includes a storage power detection unit that detects a storage power amount of the common storage battery;
Based on the detection result of the stored power detection means, when the stored power value becomes equal to or less than a predetermined minimum value, the system link power switch of the system link unit is configured to supply the power of the commercial power to the storage control unit. It is preferable to include a system linkage control unit that controls Thereby, the system control unit is simply configured, and the photovoltaic power supply system is suitably implemented.

Further, the system linking control means of the system control unit of the control center further, based on the detection result of the storage power detection means, when the storage power amount exceeds a predetermined maximum value, the storage power of the common storage battery. It is preferable to control the system link power switch of the system link so that the power flows backward to the commercial power supply. Thereby, the system control unit is simply configured, and the photovoltaic power supply system is suitably implemented.

[0023]

BRIEF DESCRIPTION OF THE DRAWINGS FIG.
A preferred embodiment of the photovoltaic power supply system according to the present invention will be described in detail. In the description of the drawings, the same or corresponding elements will be denoted by the same reference characters, without redundant description.

FIG. 1 is a schematic configuration diagram of a photovoltaic power supply system according to the present invention. The photovoltaic power supply system 1 of the present invention includes a plurality of power generation load units 10 and a single control center 20 to which each of the power generation load units 10 is connected.

The power generation load unit 10 includes a solar cell 11 having a predetermined power generation capacity and generating power according to sunlight, an orthogonal transformation unit 12 connected to the solar cell and converting DC power to AC power, and a connection to the orthogonal transformation unit 12. And the orthogonal transform unit 12
An AC load 13 to which AC power is supplied from is provided.

The control center 20 includes a power storage control unit 21 connected to the orthogonal transformation unit 12 of each power generation load unit 10.
A common storage battery 22 connected to the power storage control unit 21; a system linking unit 23 for connecting the external commercial power supply 50 and the power storage control unit 21 to exchange power between them; 1 System control unit 2 for controlling the whole
4 is provided.

The orthogonal transform section 12 of the power generation load unit 10
As shown in FIG. 2, includes a current control type inverter 15, converts DC power generated by the solar cell 11 into AC power, and supplies the AC power to the AC load 13 or the power storage control unit 21 of the control center 20. . Also, the orthogonal transform unit 12
An orthogonal transformation unit power switch 16 is provided between the current control type inverter 15 and the power storage control unit 21 of the control center 20, and receives an instruction from a unit power transfer control unit 44 (described later) of the system control unit 24 of the control center 20. To open and close, and supply all the power generated by the solar cell 11 to the AC load 13, supply a part of the power to the power storage control unit 21 of the control center 20 as surplus power, and conversely,
From the power storage control unit 21 to the AC load 13. Further, the power generation load unit 10 includes a voltmeter 17 connected between the AC load 13 and the current control type inverter 15 for measuring the AC voltage V _ac1 output from the current control type inverter 15.

The power storage control unit 21 of the control center 20 includes a voltage control type inverter 31. The predetermined AC power extracted from the orthogonal transform unit 12 of an arbitrary power generation load unit 10 is converted by the voltage control type inverter 31. While being converted to DC and stored in the common storage battery 22, the common storage battery 2
2 is converted into a predetermined AC voltage and frequency and supplied to the orthogonal transform unit 12 of an arbitrary power generation load unit 10. The power storage control unit 21 includes a voltmeter 37 that is connected between the power storage control unit 21 and the orthogonal transform unit power switch 16 and that measures an AC voltage in the voltage-controlled inverter 31.

The system linking section 23 includes a system linking section power switch 33, and is capable of controlling power supply from the commercial power supply 50 to the power storage control section 21 and reverse power flow from the power storage control section 21 to the commercial power supply 50. With a transformer 34,
In the case of power supply or reverse power flow, the commercial power supply 50 and the power storage control unit 2
Transform between one.

The system control unit 24 includes a unit power detecting means 43 for detecting whether the power generated by each of the power generating load units 10 is excessive or deficient. In order to control the transmission and reception of electric power to and from the unit 21, the orthogonal transformation unit 12 of each power generation load unit 10 and the power storage control unit 2 of the control center 20
1 and a storage power detection means 4 for detecting the storage power amount of the common storage battery 22.
2 and a system linkage control unit 41 that controls the system linkage unit 23 to control the transfer of electric power between the commercial power supply 50 and the storage control unit 21 based on the amount of stored power detected by the stored power detection unit 42. It has.

The unit power detecting means 43 is a voltmeter 17
To obtain the voltage _Vac1 applied to the AC load 13 of each power generation load unit 10 measured by the voltmeter 37 and the voltage _Vac0 measured by the voltmeter 37 in the power storage control unit 21 of the control center 20. in the case of V _ac1 ≧ V _ac0,
It determines that the surplus is in the generated power, in the case of V _ac1 <V _ac0 determines that the generated power is insufficient.

When the unit power detection unit 43 determines that the power generated by the power generation load unit 10 has a surplus, the unit power transfer control unit 44 controls the orthogonal transform unit 12 and the power storage control unit 21 to generate the power. The surplus power of the load unit 10 is stored in the common storage battery 22. When the unit power detection unit 43 determines that the power generated by the power generation load unit 10 is insufficient, the unit power detection unit 43 controls the orthogonal transforming unit 12 and the power storage control unit 21 to discharge the power of the common storage battery 22 and discharge the power of the power generation load. The power is supplied to the unit 10 to replenish the power shortage.

The storage power detection means 42 is a common storage battery 22
The stored power amount of the common storage battery 22 is detected by a stored power measurement device (not shown) connected to the storage battery.

When the amount of stored power exceeds a predetermined maximum value based on the amount of stored power detected by the stored power detection means 42, the system link control means 41 determines that the stored power has a surplus. In order to sell the surplus power to the outside, the system linking unit 23 is controlled so that the stored power of the common storage battery 22 flows backward to the commercial power supply 50, and the stored power value becomes equal to or less than a predetermined minimum value. In such a case, it is determined that the storage power is insufficient. In order to replenish the storage power of the common storage battery 22 or to replenish the power of the quadrature conversion unit 12 of the power generation load unit 10 with the insufficient power, the power storage control unit 21
The system linking unit 23 is controlled so that power is supplied to the power supply.

With the specific configuration as described above, a simple configuration of the photovoltaic power supply system 1 is possible.

The power generation load unit 10 as shown in FIG.
As shown in FIG. 1, for example, the control center 20 is installed for each consumer such as a private house, a store, a business establishment, a public facility such as a school or a park, and the control center 20 is a group of these consumers, for example, a village, a town and a village. , One in a unit area such as an apartment house, a district, or the like.

Next, the operation of the photovoltaic power supply system 1 will be described. Each power generation load unit 1
0 solar cell 11 receives light and generates DC power, and the DC power is supplied to the current control type inverter 15 of the orthogonal transformation unit 12.
Is converted into desired AC power by the power generation load unit 1
0 is supplied to the AC load 13. At this time, the unit power detection unit 43 determines whether the power generation of each power generation load unit 10 is excessive or deficient, and when it is determined that there is a surplus, the unit power transfer control unit 44 of the system control unit 24 controls the power generation load unit. The 10 orthogonal transform units 12 and the power storage control unit 21 of the control center 20 are controlled, and surplus power is stored in the common storage battery 22 from the orthogonal transform unit 12 via the power storage control unit 21. On the other hand, when it is determined that there is a shortage, the unit power transfer control unit 44 of the system control unit 24 controls the orthogonal transformation unit 12 of the power generation load unit 10 and the power storage control unit 21 of the control center 20 as described above. Then, the stored power of the common storage battery 22 in which the surplus power is stored is discharged and supplied to the orthogonal transformation unit 12 via the power storage control unit 21 to compensate for the shortage.

Further, the stored power amount of the common storage battery 22 is detected by the stored power detection unit 42, and based on the detected stored power amount, the system linkage control unit 41 determines whether the stored power amount of the common storage battery 22 is excessive or insufficient. Is done. And
When it is determined that the storage power of the common storage battery 22 is insufficient, the system linkage control unit 41 controls the system linkage unit 2.
3 is controlled, the electric power of the commercial power supply 50 is supplied to the power storage control unit 21, and the electric power of the common storage battery 22 and the supply to the orthogonal transformation unit 12 of the power generation load unit 10 in which the insufficient power has occurred are performed. On the other hand, when it is determined that the stored power of the common storage battery 22 has a surplus, the grid connection unit 23 is controlled by the grid connection control unit 41 so that the stored power of the common storage battery 22 is reversely flown to the commercial power supply 50 and the power sale is performed. Done.

As described above, the plurality of power generation load units 10
Is provided, one expensive common storage battery 22, one control center 20 or the like may be used, and cost reduction is achieved, thereby improving economic efficiency. Further, when the power generation of some of the power generation load units 10 becomes insufficient due to an increase in the AC load 13, bad weather, or a failure of the solar cell 11 due to a disaster, etc.
Is supplied to the power generation load unit 10 having insufficient power generation via the common storage battery 22, so that the commercial power supply 50 does not always have to be used. Even if power is supplied from the commercial power supply 50, The amount can be reduced, and cost reduction is achieved.

When the power shortage becomes remarkable and the discharge from the common storage battery 22 is not sufficient,
Is supplied to the power storage control unit 21 from the common storage battery 22.
And the power generation load unit 10 deficient in power supply can be supplied to the orthogonal transform unit 12, so that the reliability of the photovoltaic power supply system 1 is improved. Further, when there is a surplus in the generated power even after storing the common storage battery 22, the generated power can be sold, so that the operation cost can be further reduced.

FIG. 4 is a circuit diagram showing another configuration of the power generation load unit 10. As shown in FIG. Here, the power generation load unit 10
Further includes a unit storage battery 18 connected to the orthogonal transformation unit 12 in parallel with the solar cell 11. Unit storage battery 18 has a long time constant in charge and discharge characteristics. According to such a photovoltaic power supply system 1, since the unit storage battery 18 has a long time constant, the AC power supplied to the AC load 13 and the AC power output to the power storage control unit 21 The rapid fluctuation of the voltage value is suppressed, and high-quality power supply and distribution can be performed. It goes without saying that the photovoltaic power supply system 1 is also suitably implemented in such a power generation load unit 10.

FIG. 5 is a circuit diagram showing still another configuration of the power generation load unit 10 and the control center 20. Here, the power generation load unit 10 further includes a unit storage battery power switch 19 for conducting / cutting off between the unit storage battery 18 and the orthogonal transformation unit 12, and a storage power measurement for measuring the amount of storage power of the unit storage battery 18. The container 29 is provided.

The control center 20 further includes a unit stored power detection means 45 for obtaining the stored power amount of the unit storage battery 18 of each power generation load unit 10 measured by the stored power measuring unit 29, Unit storage control means 46 for controlling unit storage battery power switch 19 of each power generation load unit 10 based on the amount of power
And

The unit power storage control means 46 controls the power generation load unit 10 detected by the unit power storage power detection means 45 for the power generation load unit 10 which is determined by the unit power detection means 43 to have excess power generated by the solar cell 11. When the amount of power stored in the unit storage battery 18 of the load unit 10 is larger than a predetermined amount, the unit storage battery 18 is not required to be charged any more, and the unit storage battery power switch 19 is shut off to further stop the unit storage battery 18. When the amount of power stored in the unit storage battery 18 is equal to or less than a predetermined amount, the unit storage battery 18 needs to be stored. The unit storage battery 18 is charged.

As a result, overcharging of the unit storage battery 18 is prevented. And it goes without saying that the photovoltaic power supply system 1 is also suitably implemented in such a power generation load unit 10 and the control center 20.

The photovoltaic power supply system according to the present invention is not limited to the above-described embodiment, but can take various modifications.

For example, in the above embodiment, the power generation load units 10 are arranged for each customer such as a private house, and one control center 20 is installed for the plurality of customers. However, the present invention is not limited to this. The power generation load units 10 may be installed collectively by consumers, or one user may install a plurality of power generation load units. In addition, a plurality of control centers 20 are provided for a plurality of power generation load units 10.
May be installed.

The orthogonal transform unit 12 of the above embodiment is
Current control type inverter 15 and quadrature converter power switch 1
6, but other configurations can be employed as long as they perform the same function.

In the above embodiment, the system linking unit 23
Includes a system link power switch 33 and a transformer 34, but may have another configuration as long as it has a similar function.

Further, the unit power detecting means 43 of the above embodiment compares the voltage value of the AC power in the orthogonal transform unit 12 with the voltage value of the AC power in the power storage control unit 21 and Although it is determined whether the power is excessive or insufficient, the invention is not limited to this. The DC voltage of the solar cell 11 or the common storage battery 2
The determination may be made by acquiring the DC voltage or the like of No. 2.

In the above embodiment, the system linking unit 23 for supplying power from the commercial power supply 50 and performing reverse power flow to the commercial power supply 50, and the system linking control unit 41 for controlling the system linking unit 23 are provided. However, these may be related to only one of the power supply and the reverse power flow. In the case where power is not transferred to and from the commercial power supply 50, the system includes the system linking unit 23 and the system link control unit 41. It is not necessary.

[0052]

As described above, according to the photovoltaic power supply system according to the present invention, since one control center is provided for a plurality of power generation load units, an expensive common storage battery or control center is required. In this case, cost reduction is achieved and economic efficiency is improved. In addition, when an AC load is increased, the weather is poor, or a failure of a solar cell due to a disaster or the like occurs, when power is insufficient in some power generation load units,
Since the surplus power of other power generation load units is supplied to the power generation load unit with insufficient power generation via the common storage battery, it is not always necessary to use a commercial power supply, even if power is supplied from the commercial power supply. The amount can be reduced, and the cost can be further reduced.

[Brief description of the drawings]

FIG. 1 is a schematic configuration diagram of a photovoltaic power supply system of the present invention.

FIG. 2 is a circuit diagram showing a specific configuration of a power generation load unit and a control center in FIG.

FIG. 3 is a conceptual diagram showing an installation form of the photovoltaic power supply system of FIG.

FIG. 4 is a circuit diagram showing another configuration of the power generation load unit in FIG. 1;

FIG. 5 is a circuit diagram showing still another configuration of the power generation load unit and the control center in FIG. 1;

[Explanation of symbols]

DESCRIPTION OF SYMBOLS 1 ... Photovoltaic power supply system, 10 ... Generation load unit, 11 ... Solar cell, 12 ... Orthogonal converter, 13 ... AC load, 15 ... Current control type inverter, 16 ... Orthogonal converter power switch, 18 ... Unit storage battery 19, a unit storage battery power switch, 20 a control center, 21 a power storage control unit, 22 a common storage battery, 23 a system link unit, 24 a system control unit, 31 a voltage control type inverter, 33 a system link unit power switch , 34: transformer, 41: grid connection control means, 42: stored power detection means, 43: unit power detection means, 44: unit power transfer control means, 45 ...
Unit storage power detection means, 46 unit storage control means, 50 commercial power supply.

 ──────────────────────────────────────────────────続 き Continuation of the front page (71) Applicant 000141060 Kandenko Co., Ltd. 4-83-3, Shibaura, Minato-ku, Tokyo (71) Applicant 000006633 Kyocera Corporation 6-6 Takeda Toba-cho, Fushimi-ku, Kyoto-shi, Kyoto (71 000003687 Tokyo Electric Power Co., Inc. 1-3-1 Uchisaiwaicho, Chiyoda-ku, Tokyo (71) Applicant 000003078 Toshiba 1-1-1 Shibaura, Minato-ku, Tokyo (71) Applicant 000004282 (72) Inventor, Shinji Wakao 3-4-1 Okubo, Shinjuku-ku, Tokyo Waseda Univ., Science and Engineering Research Center, Science and Engineering Research Center (72) Inventor, Akira Ishida, Kanagawa 1, Tayacho, Sakae-ku, Yokohama-shi, Japan Sumitomo Electric Industries, Ltd.Yokohama Works (72) 2-7 Kashima Construction Co., Ltd. (72) Inventor Kazutoshi Ohira 4-83-3, Shibaura, Minato-ku, Tokyo Kandenko Co., Ltd. (72) Masami Kurosawa 1-4-4 Daisaku, Sakura City, Chiba Prefecture # 3 Kyocera Corporation Chiba Sakura Plant (72) Kazuo Natori 1-3-1 Uchisaiwaicho, Chiyoda-ku, Tokyo Tokyo Electric Power Company, Energy and Environment Research Laboratory (72) Inventor Toshiaki Mochizuki Shibaura, Minato-ku, Tokyo 1-1-1 1-1 Toshiba Corporation Head Office (72) Inventor Tatsuya Kawamatsu F-Term (reference) 5G003 BA02 CA02 CA12 CC02 CC08 DA17 DA18 GB03 GB06 5G066 CA08 CA09 DA08 HB03 HB06 HB09 JA13 JB03

Claims (13)

[Claims] 1. An orthogonal conversion unit for converting DC power into AC power, a solar cell having a predetermined power generation capacity and supplying generated power to the orthogonal conversion unit, and an AC supplied with AC power from the orthogonal conversion unit A plurality of power generation load units each having a load; a common storage battery having a predetermined capacity; and converting at least a part of the AC power converted by the orthogonal conversion unit of any of the power generation load units into DC power to store the power in the common storage battery. And a power storage control unit that converts DC power stored in the common storage battery into AC power and enables supply to the orthogonal transform unit of any of the power generation load units; and For a power generation load unit having a surplus in the power generated by the solar cell with respect to the power consumption of the AC load, the surplus power is stored by the orthogonal transform unit in the storage. The power is stored in the common storage battery via the power control unit. For a power generation load unit in which the power generated by the solar cell is insufficient with respect to the power consumption of the AC load, the common power is stored in the orthogonal transformation unit of the unit. And a control center including a system control unit that supplies the stored power of the storage battery via the power storage control unit. 2. The solar system according to claim 1, wherein the power generation load units are arranged for each power consumer, and the control center is arranged for each unit including a plurality of the power consumers. Photovoltaic power supply system. 3. The orthogonal transformation unit of the power generation load unit,
A current control type inverter that performs orthogonal transformation of electric power between the solar cell and the AC load or the power storage control unit, and is controlled by the system control unit, between the current control type inverter and the power storage control unit. The photovoltaic power supply system according to claim 1 or 2, further comprising: a quadrature converter power switch for conducting / cutting off. 4. The power storage control unit of the control center according to claim 1, further comprising a voltage control type inverter for converting AC power and DC power to each other and adjusting voltage and frequency. The photovoltaic power supply system according to claim 1. 5. A system control unit of the control center, comprising: a unit power detection unit that detects an excess or deficiency of power generated by a solar cell of each of the power generation load units; and a detection result of the unit power detection unit. Predetermined power is stored in the common storage battery via the power storage control unit of the control center from the orthogonal transform unit of the power generation load unit having a surplus of generated power, and the control center Unit power for controlling the orthogonal transform units of the respective power generation load units and the power storage control unit such that predetermined power is supplied from the common storage battery to the orthogonal transform unit of the power generation load unit via the power storage control unit. 5. A transfer control means, comprising:
A photovoltaic power supply system according to item 6. 6. The unit power detection means includes: a voltage value of AC power in the orthogonal transform unit to which power generated by a solar cell of each of the power generation load units is supplied; and a power storage control unit of the control center. The photovoltaic power supply system according to claim 5, wherein the voltage value of the AC power is obtained and compared to determine whether the power of each of the power generation load units is sufficient or not. 7. The photovoltaic power generation system according to claim 1, wherein the power generation load unit includes a unit storage battery having a predetermined capacity connected in parallel with the solar cell. Feeding system. 8. The power generation load unit includes a unit storage battery power switch capable of controlling input and output of electric power to and from the unit storage battery, and the system control unit of the control center stores the power of the unit storage battery of the power generation load unit. Unit stored power detection means for detecting the amount of power, based on a detection result of the unit stored power detection means,
When the amount of power stored in the unit storage battery of the power generation load unit having a surplus in the power generated by the solar cell is smaller than a predetermined minimum value, the surplus generated power of the solar cell is stored in the unit storage battery, When the amount of power stored in the unit storage battery of the power generation load unit having a surplus in the power generated by the battery is larger than a predetermined maximum value, the unit storage battery power is set so that the surplus generated power of the solar cell is not stored in the unit storage battery. The solar power generation system according to claim 7, further comprising: a unit storage control unit that controls a switch. 9. The control center further includes a system linking unit that supplies power from a commercial power supply to the power storage control unit.
The system control unit controls the system linking unit such that the power of the commercial power supply is supplied to the power storage control unit when a shortage occurs in the stored power of the common storage battery. The photovoltaic power supply system according to any one of claims 1 to 8. 10. The system linking unit can further cause the storage power of the common storage battery to flow backward to the commercial power supply via the storage control unit, and the system control unit determines that the common storage battery has a surplus power. The power supply system according to claim 9, wherein the control unit controls the system linking unit such that the surplus stored power is reversely flown from the common storage battery to the commercial power source when the stored power is included. Solar power supply system. 11. A system linking unit of the control center, wherein the system linking unit is controlled by the system control unit, and connects / disconnects between the commercial power supply and the power storage control unit. The photovoltaic power supply system according to claim 10, further comprising: a transformer for transforming a voltage between the control unit and the control unit. 12. A system control unit of the control center, comprising: a storage power detection unit for detecting a storage power amount of the common storage battery; and a storage power value based on a detection result of the storage power detection unit, the storage power value being a predetermined minimum value. In the case of the following, system link control means for controlling the system link unit power switch of the system link unit so that the electric power of the commercial power supply is supplied to the power storage control unit. The photovoltaic power supply system according to claim 11, wherein: 13. The system link control means of the system control unit of the control center further includes:
When the amount of stored power exceeds a predetermined maximum value, the system link unit power switch of the system link unit is controlled such that the stored power of the common storage battery flows backward to the commercial power supply. The photovoltaic power supply system according to claim 12.