Solar power generation system

A solar power generation system is provided which can disconnect serial connection of a plurality of solar power generation panels in case of fire and prevent electric shock to a worker by water jetting. A solar power generation system 110 for converting solar energy to electric power includes a plurality of solar power generation panels 111 which is connected in series and a switch 115 which enables to disconnect or connect the serial connection of the plurality of solar power generation panels 111, and the switch 115 operates when receiving a specific control signal. This makes it possible to disconnect the serial connection of the plurality of solar power generation panels 111, and prevent electric shock to the worker by water jetting in case of fire.

TECHNICAL FIELD

The present invention relates to a solar power generation system for converting solar energy to electric power.

BACKGROUND ART

A solar power generation panel for generating power by solar light has been known. For the solar power generation panel, a plurality of cells is connected in series in the panel, and each cell includes a semiconductor device formed by PN junction. The power generation system is constituted by further connecting a plurality of the solar power generation panels.

For this type of solar power generation panels, technologies to improve safety have been developed. For example, the solar power generation panel described in Patent Document 1 includes a switch which is connected between a solar power generation cell and a connector outputting energy, thus making it possible to disconnect the connection during installation of the solar power generation panel and connect after the installation by the switch. This prevents connectors, connection boxes, and other electric components from receiving damages by arc discharge caused by connection and disconnection of a plug to which a voltage is applied.

CITATION LIST

Patent Document

SUMMARY OF INVENTION

Technical Problem

The technology described in Patent Document 1 is intended to improve the safety in installation of a solar power generation panel. On the other hand, safety problems may occur even after the installation of the solar power generation panel. For example, a fire may occur around or in the solar power generation system. In such a case, the firefighting should be started as soon as possible, but the normally operating solar power generation panel does not stop generation of a voltage.

Therefore, if a worker during the firefighting operation jets water to the solar power generation panel, electricity generated by the solar power generation panel flows through the water, and then the worker may receive an electric shock. Moreover, since there is a risk of such electric shock, the worker cannot jet water even upon request, and has nothing to do but wait for the solar power generation panel to be burned out.

The present invention was made in view of these circumstances and has an object to provide a solar power generation system which can disconnect serial connection of the plurality of solar power generation panels in case of fire and can prevent electric shock to a worker by water jetting.

Solution to Problem

(1) In order to achieve the object, a solar power generation system of the present invention is a solar power generation system for converting solar energy to electric power, includes a plurality of solar power generation panels connected in series and a switch which enables to disconnect or connect serial connection of the plurality of solar power generation panels, wherein the switch operates when receiving a specific control signal. As a result, the solar power generation system disconnects serial connection of the plurality of solar power generation panels in case of fire, and prevents a worker from receiving electric shock by water jetting. To disconnect the serial connection of the plurality of solar power generation panels means that the serial connection of a power generation function is divided into a plurality of sections regardless of a disconnection position.

(2) Moreover, in the solar power generation system of the present invention, the switch, when receiving an input signal from an outside which is generated, triggered by an operation, as the specific control signal, disconnects or connects the serial connection of the plurality of solar power generation panels in accordance with the input signal. As a result, when a fire occurs, the serial connection of the solar power generation panels can be disconnected from the outside by an intension of the worker.

(3) Moreover, in the solar power generation system of the present invention, the switch is provided at a position where the serial connection of the plurality of solar power generation panels can be disconnected so that an accumulated voltage in the serial connection is 200 V or less in each section. By disconnecting the serial connection of the solar power generation panels so that the voltage does not become larger than even a voltage of a household power supply, an electric current flowing through a human body during water jetting to the fire and electric shock can be prevented.

(4) Moreover, the solar power generation system of the present invention is characterized in that the switch is provided on a connecting line for connecting terminals of the solar power generation panels to disconnect and connect the connecting line by a control signal transmitted by a control line connected in parallel with the connection line. As a result, connection at a plurality of spots can be disconnected once by control from the outside, and an operation can be facilitated.

(5) Moreover, the solar power generation system of the present invention is characterized that the connection line is formed as a connector that can be connected to the terminal of the solar power generation panel. As a result, a system can be configured in which the serial connection of the solar power generation panels can be easily disconnected by connecting the connection line to the conventionally used solar power generation panel by the connector.

Advantageous Effects of Invention

According to the present invention, in case of fire, the serial connection of the plurality of solar power generation panels can be disconnected, and electric shock to the worker by water jetting can be prevented.

DESCRIPTION OF EMBODIMENTS

Subsequently, the embodiments of the present invention will be described by referring to the attached drawings. To facilitate understanding of the description, the same reference numerals are given to the same constituent elements in each drawing, and duplicated description will be omitted.

First Embodiment

FIG. 1is a block diagram illustrating a solar power generation array100. The solar power generation array100includes a solar power generation string110(solar power generation system), a power conditioner120, an alternating current power collection box130, and a cubicle140.

The solar power generation string110is constituted by connecting solar power generation panels111in series and converts solar energy into electric power. The solar power generation panels111, which is also called a solar power generation module, has a plurality of solar cells connected therein, is applied with waterproof treatment or the like, and is formed as a panel with metal frames attached. In the solar power generation string110, a switch for disconnecting serial connection of the solar power generation panels111is provided.

The power conditioner120is a type of inverter which converts a direct current flowing from the solar power generation string110to an alternating current so that it can be used in an environment such as home. The power conditioner120has a function of adjusting unstable inputs of voltage or current to stable outputs. It is preferable to design such that an operation portion is provided in the power conditioner120so that ON/OFF of the switch can be controlled.

The alternating current power collection box130collects outputs of the solar power generation strings110in alternating current via the power conditioner120and outputs them to the cubicle140. The cubicle140boosts an output voltage from the alternating current power collection box130to a voltage which is adapted to a system intended for selling the electricity or the like. The cubicle140includes instruments to measure and display voltage and the like, switches to perform switching of circuits, protective devices to perform protection, overvoltage suppression and the like of devices at occurrence of an overcurrent, and a transformer to transform a voltage.

FIG. 2is a block diagram illustrating the solar power generation string110(solar power generation system) in which the switch to disconnect the serial connection is provided on wiring and a power conditioner body120a. The solar power generation string110includes the plurality of solar power generation panels111, a connection line112, and a switch115. The connection line refers to a line constituting the serial connection of a power generation function.

The solar power generation string110has the plurality of solar power generation panels ill serially connected by the connection line112, boosts a direct current voltage converted from solar energy in the solar power generation panels111to a high voltage in the serial connection and outputs it to the power conditioner body120a. The switch115is provided for the connection line112and enables to disconnect the serial connection of the plurality of solar power generation panels111.

An operation portion116areceives an operation and sends a control signal for controlling the switch115. An ON/OFF operation received by the operation portion116ais transmitted to the switch115by a control line116, and whereby the switch115is turned ON/OFF. This makes it possible to disconnect the serial connection of the plurality of solar power generation panels111, and prevent electric shock to the worker by water jetting in case of fire.

The switch115is preferably provided at a position where the serial connection of the plurality of solar power generation panels is disconnected so that the voltage accumulated in the serial connection becomes 200 V or less in each section. By disconnecting the serial connection of the solar power generation panels so that the voltage does not become larger than even a voltage of a household power supply, an electric current flowing through a human body during water jetting in a fire and electric shock can be prevented.

The switch115is further preferably provided so that the voltage accumulated in the serial connection becomes 100 V or less in each section. In an example illustrated inFIG. 2, since the switch115is provided in each solar power generation panels111and the connection can be disconnected, the voltage accumulated in each section of the disconnected serial connection becomes several tens of volts or less.

The switch115is provided on the connection line112connecting terminals of the solar power generation panels111and disconnects and connects the connection line112by a signal transmitted by the control line116connected in parallel with the connection line112. This makes it possible to disconnect the connection at plural spots once by control from the outside, and to facilitate an operation. For example, the switch115can be designed so as to be turned ON when the signal from the outside is at a High Level. In the example, the switch115to disconnect the connection is provided at each solar power generation panels111, but the switch115may be provided at each string of the plurality of solar power generation panels111.

FIGS. 3A to 3Care examples of how to provide the switch to connect the solar power generation panels111, respectively. In any one of the examples illustrated inFIGS. 3A to 3C, a connection structure of a solar cell117in the solar power generation panels111is the same, and in the solar power generation panels111, a plurality of the solar cells117is connected in series using two connection lines117a. The solar cell117is a semiconductor device in which PN junction is formed on a silicon wafer and generates an electric current when it is exposed to sunlight.

The examples illustrated inFIGS. 3A to 3Cshow states of the solar cells117when seen from a light receiving surface side. Two connection lines117aconnected from the light receiving surface of the solar cell117to a back surface are connected with one tip ends of a large number of thin lines, which are provided such that the other tip ends are connected widely on the light receiving surface and collect the electric current. On the other hand, the back surface of the solar cell117, since it does not have to receive light, provides uniform electrodes on the whole surface of the back surface of the solar cell117. Two connection lines117aare preferable in efficiency, but one line is acceptable.

A bypass diode113is provided so as to connect terminals118for every predetermined number of serially connected solar cells117. The bypass diode113, even if a defect occurs in a part of the solar cells117, functions as a bypass for allowing the electric current to flow by avoiding a defective portion. This makes it possible to prevent damage of the defect from spreading over the entire solar power generation panels111.

A junction box114is provided integrally with the solar power generation panels111and has a function of a connector to connect a connection line112cable to the terminal118of the solar power generation panels111. The junction box114is preferably arranged on the back surface of the solar power generation panels111.

The solar cell117is always in a power generation state, when it is exposed to light. In such a state, a part of the solar power generation string110or a part of electrode (active portion) of the solar power generation panels111is exposed due to a fire or the like, a water jetting operator gets electric shock through water by water jetting for firefighting. By providing the switches115ato115c, such an accident can be prevented, and an output voltage of the solar power generation string110or an output voltage of the section, on which water may splash, of the solar power generation panels111can be lowered.

The solar power generation string110is usually formed by connecting the plurality of solar power generation panels111in series so as to generate a voltage of several hundred Volt. The switch for turning ON/OFF using an external signal is provided inside the solar power generation panels111or at a connection portion between the solar power generation panels111.

As a result, by disconnecting the serial connection to the single solar power generation panels111or the small-scale solar power generation string110(with the output voltage at 100 V or less), the output voltage of the solar power generation string110can be lowered.

The output voltage in the single solar power generation panels111is different depending on the case but it is usually several tens volt or less, therefore there is no risk of electric shock by water jetting, and the fire can be handled similarly to a fire of an ordinary house.

In the example illustrated inFIG. 3A, the switch115ais provided at a terminal portion of the solar power generation panels111, and ON/OFF control of the switch115ais performed by the control line116which is connected to the connection line112in parallel. Moreover, the control line116controlling the switch115ais provided to integrate by a cable to extract electric power of the solar power generation panels111, and the control line116and the connection line112are connected to the solar power generation panels111by the same cable. When the switch115ais turned OFF, serial connection of solar power generation panels111of each is disconnected.

In the example illustrated inFIG. 3B, the switch115bis provided at the terminal portion of the solar power generation panels111, and ON/OFF control of the switch115bis performed by the control line116which is connected to the connection line112in parallel. This is similar to the example illustrated inFIG. 3Ain these points. However, the connection line112and the control line116are connected to the solar power generation panels111by cables which are different from each other.

In the example illustrated inFIGS. 3A and 3B, the connection line112being provided in the junction box114can be formed as a connector which enables to be connected to a terminal of the solar power generation panels111. As a result, by connecting the connection line112to the solar power generation panels111which has been used conventionally using the terminal by the junction box114, a system which can be disconnected easily the serial connection by the solar power generation panels111can be provided.

In the example illustrated inFIG. 3C, each of the four switches115cis provided for each serial connection of the plurality of solar cells117in the solar power generation panels111, and when the switch115cis turned OFF, the connection is disconnected for each serial connection of the plurality of solar cells117. Therefore, in this case, the disconnected section in the serial connection becomes shorter and the voltage becomes lower than those in the examples inFIGS. 3A and 3B. In this case also, the turning ON/OFF control of the switch115cis performed by the control line116which is connected to the connection line112in parallel. Moreover, the connection line112and the control line116are connected to the solar power generation panels111using different cables, but may be connected using the same cable.

In the examples illustrated inFIGS. 3A to 3C, the switches115ato115care provided integrally with the solar power generation panels111. In case of the solar power generation panels111being serially connected, the control line116is preferably provided with a wiring facility capable of connection with a daisy chain. As a result, the solar power generation panels111can be provided in accordance with the scale.

FIG. 4is a view illustrating another example of how to provide a switch to the connection of the solar power generation panels111. In the example illustrated inFIG. 4, the switch115dis provided outside of the solar power generation panels111and the junction box114. The ON/OFF control of the switch115dis performed by the control line116which is connected to the connection line112in parallel. When the switch115dis turned OFF, the serial connection is disconnected in solar power generation panels111of each.

In the example illustrated inFIG. 4, the switch115dis provided in the middle of the connection line112between the solar power generation panels111. Therefore, wiring which includes the switch115can be easily mounted on the solar power generation array100which is used now.

Second Embodiment

In the embodiment, the switch is provided for each solar power generation panels111or for each serial connection of the plurality of solar cells117, but the switch may be provided as a device structure in the solar cell117.FIG. 5is a block diagram illustrating a solar power generation panel211in which a switch is provided in the solar cell.

As illustrated inFIG. 5, the solar power generation panel211is formed by a connection of solar cells217using a connection line217a. The solar cell217is composed of a semiconductor device formed by PN-junction on a silicon wafer, and a switch215dand a power generation portion217bis provided in the semiconductor device.

In the solar cell217, when an OFF control signal is transmitted to the switch215dthrough a control line216from an operation portion216a, the switch215ddisconnects serial connection of the solar cell217for each solar cell217. As a result, the serial connection of the solar cells is disconnected by the switch in the solar power generation panels111, and a voltage in the disconnected section can be lowered.

Third Embodiment

In the solar power generation array of the above embodiment, a direct current which is generated by the solar power generation string is converted to an alternating current and then the current is collected and outputted to the cubicle, but it may be a solar power generation array in which a direct current which is generated in the solar power generation string is first collected and in a rear stage, the direct current is converted to an alternating current and outputted to the cubicle.

FIG. 6is a block diagram illustrating a solar power generation array300. The solar power generation array300includes the solar power generation string110(solar power generation system), a direct current connection box320, a direct current power collection box325, a power conditioner330, and the cubicle140.

The direct current connection box320outputs a direct current which is generated in the solar power generation string110to the direct current power collection box325. The direct current power collection box325collects an output of the solar power generation string110in direct current via the direct current connection box320and outputs it to the power conditioner330. The power conditioner330converts the input direct current to an alternating current so that it can be used in an environment such as a household and outputs it to the cubicle140. The cubicle140raises the output voltage to a voltage satisfying the purpose.

FIG. 7is a block diagram illustrating the solar power generation string110(solar power generation system) in which a switch for disconnecting serial connection in a wiring is provided and the direct current connection box320. The solar power generation string110includes a plurality of the solar power generation panels111, the connection line112, and the switch115.

The solar power generation string110raises the direct current voltage which is converted from the solar energy in the solar power generation panels111in a high voltage by serial connection and outputs it to the direct current connection box320. The switch115is provided in the connection line112and the switch115makes the serial connection by the plurality of solar power generation panels111disconnect in accordance with an operation from the operation portion116a.

In the embodiment, the solar power generation string is described as the solar power generation system of the present invention, but the solar power generation array or the solar power generation panel can be also understood as the solar power generation system of the present invention.

Fourth Embodiment

In the solar power generation system of the embodiment, the switch connects or disconnects the serial array on the basis of the operation of turning ON/OFF which is received in the operation portion by the user, but the switch may connect or disconnect the serial array on the basis of an ON/OFF signal by a temperature sensor.

The solar power generation system of this embodiment is provided with a temperature sensor to detect a temperature of the plurality of solar panels. The switch which disconnects or connects the serial connection by the plurality of solar power generation panels in accordance with an output signal of the temperature sensor.

A connection between the temperature sensor and the switch in this case can be realized by replacing the operation portion116aby the temperature sensor in the configuration illustrated inFIG. 2. Moreover, in the case of the configuration illustrated inFIG. 5, the operation portion216amay be replaced by the temperature sensor and in the case of the constitution illustrated inFIG. 7, the operation portion116amay be replaced by the temperature sensor.

At least one temperature sensor provided per solar power generation string functions and the temperature sensor is provided in the vicinity of any one of the solar panels. For example, the temperature sensor is preferably provided on a back side of the light receiving surface of any one of the solar panels. The temperature sensor may be formed on the back side of the light receiving surface together with circuits of a switch and the like.

The temperature sensor preferably transmits a signal to turn OFF the switch triggered by reaching a predetermined temperature at 100° C. or more and 200° C. or less. Although depending on an environment where the solar panel is used, the temperature usually reaches 70 to 80° C. at the highest, so it may be determined abnormality occurred when the solar panel reaches the temperature of 100° C. or more. Moreover, a temperature of 200° C. or less is preferable for reaction in combustion. Considering a variation during production, the switch is preferably turned ON/OFF based on a temperature within the above temperature range as a trigger. The predetermined temperature range is more preferably between 150° C. or more and 200° C. or less.

As described above, in any one of the embodiments of the present invention, the control line is provided separately from the connection line to transmit electricity for each solar power generation string, and the switch is turned ON/OFF by transmitting a signal to the control line. In the example of a circuit illustrated inFIG. 3A, the control line116is configured by being bundled integrally with the cable for power output, but even in this case, each line is provided independently.

On the other hand, a method of overlapping and transmitting signals from the power conditioner side to the cable which is used for sending electric power which is generated in the solar power generation panel can be employed. However, in such a method, in case that devices such as a power collection box and the like are arranged between a signal generator and the switch, the circuit may not function normally and the switch becomes uncontrollable.

In the present invention, surely stopping power transmission in an emergency such as occurrence of a fire is made much account of. The solar power generation system of the present invention, in case that the device is arranged between the signal generator and the switch, is more excellent than the system in which a power transmission line also works as the control line in a view of the switch can being reliably turned OFF.

REFERENCE SIGNS LIST

100solar power generation array

110solar power generation string

111solar power generation panel

120apower conditioner body

130alternating current power collection box

211solar power generation panel

217bpower generation portion

320direct current connection box

325direct current power collection box