JPH1118317A - Housing equipped with solar light generation facility - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a solar light generation facility equipped housing, wherein the demand factor for the solar light generation facility is increased and thereby the redemption period of the initial cost is shortened. SOLUTION: This housing is provided with a solar light generation means 10, including a solar battery 11 which generates power with solar light and a distribution board 3 for distributing power to various electric equipment. A secondary battery 5A mounted on an electric vehicle 5 can be connected between the solar light generation means 10, and the distribution board 3 and can be charged with the power generated by the solar battery 11. Due to this mechanism, the power generated by the solar battery 11 can be consumed not only in the house but also in the electric vehicle 5 and a demand factor for the solar battery can be increased. If this is converted into fuel cost for the electric vehicle, the redemption period of the initial cost of the solar light generation facility can be shortened significantly with the increase in the demand factor.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a photovoltaic power generation house in which electric power obtained by a solar cell receiving and generating sunlight can be used.

[0002]

BACKGROUND ART Unlike conventional thermal power generation, which burns fossil fuels such as petroleum, and nuclear power generation, in which waste disposal is difficult, power generation using clean solar energy, which has minimal impact on the global environment. Solar cells are known. In recent years, such solar cells have been adopted also in general houses and the like as their prices have fallen.
If a photovoltaic power generation facility that generates electricity with solar cells is provided, power can be supplied during the day without power transmission from the power company, so that the power usage fee paid to the power company can be reduced and the power generation during the day can be reduced. In some cases, the amount of power becomes surplus. In this case, surplus power can be sent back to the transmission line of the power company, and the amount corresponding to the amount of power can be offset from the power usage fee.

[0003]

However, if the photovoltaic power generation equipment has a capacity corresponding to the maximum load to which the photovoltaic power generation equipment is to supply electric power, the initial cost becomes high and the demand rate increases. Is significantly reduced. For this reason, in normal use, there is a problem in that if the initial cost is to be canceled by reducing the above-mentioned power usage fee, the cancellation will take decades.

[0004] It is an object of the present invention to provide a photovoltaic power generation house in which the demand rate of photovoltaic power generation equipment is improved and the period for eliminating initial costs is shortened.

[0005]

The present invention will be described with reference to the drawings. A solar power generation house 1 in which electric power generated by a solar cell 11 can be used by electric equipment in the solar cell 11 is shown. A solar power generation means 10 configured to include a solar cell 11 for receiving and generating sunlight, and a power distribution means 3 for distributing power to each of the electric devices. A secondary battery 5A provided in the electric vehicle 5 can be connected between the power distribution unit 3 and the power generated by the solar cell 11 can be stored in the secondary battery 5A. The power stored in the secondary battery 5A can be supplied to the electric device.

According to the present invention, the electric power generated by the solar cell is consumed not only by the electric equipment in the house but also by the electric vehicle, and the demand rate of the solar cell is improved. Also,
If the distance traveled by an electric vehicle is converted to the fuel consumed when traveling on a general vehicle, the initial cost of a photovoltaic power generation facility can be eliminated as a fuel cost for a vehicle whose unit price is higher than the electricity cost. Combined with an increase in the demand rate of the refuse, the retirement period will be significantly shortened. At this time, even if the electric vehicle is actively used, no exhaust gas containing carbon dioxide, nitrogen oxides, etc. is emitted, so that the natural environment is not impaired, and the active use of the electric vehicle is promoted. It can contribute to the spread of electric vehicles.

In the above, the power receiving means for receiving the AC power from the power company is provided, and the photovoltaic power generation means and the secondary battery are connected to the power distribution means via an inverter for converting DC to AC. Preferably, the power receiving means is directly connected. In this way, in the house, any of the power from the power company, the power generated by the solar battery, and the power stored in the secondary battery can be used. In addition, since the electric energy of an electric vehicle for 6 to 7 hours, which is used in ordinary households, can be stored in the secondary battery of the electric vehicle, electric power can be stored in the secondary battery of the electric vehicle during the daytime. For example, in the time period from sunset to midnight, the electric power stored in the secondary battery of the electric vehicle can be used, and the electric power of the electric power company can be used only at midnight. As a result, inexpensive late-night power (about 1/3 the cost of daytime power) can be used, and from this point, it is possible to shorten the initial cost of the solar power generation facility. The secondary battery of the electric vehicle can also be used as an emergency power supply at the time of a power failure due to a disaster.

[0008] It is preferable that the secondary battery can be connected to the power receiving means via a converter for converting AC to DC. This way, during the day,
Even when the secondary battery cannot be charged with the electric power generated by the solar cell due to the use of the electric vehicle, the secondary battery can be charged with inexpensive late-night power. As the converter, both a converter mounted on an electric vehicle and a converter provided on a house side can be adopted.

Further, it is preferable that switching means for switching the connection with the secondary battery from one of the photovoltaic power generation means side and the power receiving means side to the other is provided.
In this way, depending on the time of use of the electric vehicle,
The rechargeable battery can be charged by selecting either the power of the solar cell or the late-night power of the power company, and the short-term reduction of the initial cost of the photovoltaic power generation facilities will not hinder the operation of the electric vehicle. Can be achieved.

Preferably, a 24-hour timer for controlling the switching operation of the switching means is provided. In this way, when charging the secondary battery of the electric vehicle, the power of the solar cell and the power company are set so that the most economical power is used in that time according to the charging time. One of the midnight power is automatically selected to prevent the power company from using electricity during expensive daytime hours, and to promptly reduce the initial cost of photovoltaic power generation facilities. Become.

[0011]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS One embodiment of the present invention will be described below with reference to the drawings. FIG. 1 shows a solar power generation house 1 according to the present embodiment. This solar power house 1
Comprises a solar power generation means 10 for generating power with sunlight,
Solar energy has become available inside it. In addition to the photovoltaic power generation means 10, the photovoltaic power generation house 1 includes a power receiving panel 2 which is a power receiving means for receiving AC power from a power company, and a power distribution means for distributing power to each of the electric devices inside the home 1 And a distribution board 3, which is As shown in FIG. 2, a photovoltaic power generation means 10 is connected to the distribution board 3 via an inverter 4 for converting a direct current into an alternating current. It can be supplied to each of the electrical appliances for use. Also,
The power distribution panel 3 is directly connected to the power receiving panel 3 so that AC power from a power company can be supplied to each of the above-described electric devices. An electric vehicle 5 using electric power as driving energy is parked in a car port 1A of the solar power generation house 1.
The electric vehicle 5 is equipped with a secondary battery 5A as shown in FIG. The secondary battery 5A is configured to exchange power with the photovoltaic power generation house 1 via a switch box 6 as switching means.

The photovoltaic power generation means 10 collects the photovoltaic cells 11 composed of a plurality of power generation modules and the power generated by the plurality of photovoltaic modules 11 and prevents the power from flowing back to the photovoltaic cells 11. And a connection box 12 for absorbing surge. Among them, the secondary terminal of the connection box 12 is connected to both the inverter 4 and the switch box 6. The power receiving panel 2 includes a power meter 2A that integrates a power meter that measures power received from the power company and a power meter that measures power transmitted to the power company, and a secondary power meter 2A. And a breaker 2B connected to the side. The secondary side of the power receiving board 2 is connected to a switch box 6 via a converter 7 for converting AC to DC, in addition to the power distribution board 3. This switch box 6
A switch 6A for switching the connection with the secondary battery 5A from one of the converters 7 on the solar power generation means 10 side and the converter 7 on the power receiving panel 2 side and a switch 24A for controlling the switching operation of the switch 6A. A time timer 6B is provided. The changeover switch 6A has a solenoid driven by the voltage of the electric power company, and when a voltage is applied to the solenoid, the connection with the secondary battery 5A is established.
When the voltage of the solenoid is released, the connection with the secondary battery 5A is switched from the power receiving panel 2 to the solar power generation means 10 side. 2
The four-hour timer 6B performs a switching operation for switching the connection with the secondary battery 5A from the converter 7 to the solar power generation means 10 at time 7 and a switching operation for switching from the solar power generation means 10 to the converter 7 at time 23. Is what you do. Thus, the charging operation of charging the secondary battery 5A with the electric power from the electric power company is performed only at midnight (between time 23:00 and 7:00).

Next, the operation of the photovoltaic power generation house 1 of the present embodiment will be described. During the daytime from 7:00 to sunset, electric power generated by sunlight is supplied to each electric device in the house 1. Here, when the electric vehicle 5 is not used, as shown in FIG. 3, electric power generated by sunlight is also supplied to the secondary battery 5A of the electric vehicle 5, and the secondary battery 5A is charged. It becomes a daytime charging mode. On the other hand, when the electric vehicle 5 is used, or when the secondary battery 5A of the electric vehicle 5 is sufficiently charged, as shown in FIG. The surplus power that cannot be used in each of the electric devices is in a power selling mode in which the surplus power is supplied to a transmission line of a power company.

Between sunset and time 23:00, as shown in FIG. 5, the electric power charged in the secondary battery 5A is in a discharge mode in which the electric equipment in the house 1 is supplied to each electric device. When the electric vehicle 5 is used during this time,
An electric power purchase mode is provided in which electric power from the electric power company is supplied to each electric device in the house 1 (not shown). In the middle of the night between 23:00 and 7:00, the inexpensive midnight power of the power company can be used, so as shown in FIG.
It becomes a late-night charging mode in which the secondary battery 5A of the electric vehicle 5 is charged.

According to this embodiment, the following effects can be obtained. That is, as a load of the solar cell 11, the secondary battery 5A provided in the electric vehicle 5 can be connected, and the power generated by the solar cell 11 can be stored in the secondary battery 5A. The power generated by
Not only each electric device inside the house 1 but also the electric vehicle 5 is consumed, and the demand rate of the solar cell 11 can be improved.

If the distance traveled by the electric vehicle 5 is converted into fuel consumed when traveling by a general vehicle, the initial cost of the facility such as the solar power generation means 10 is higher than the power cost. It can be retired as fuel for automobiles, and in combination with the above-mentioned increase in demand rate, the retirement period can be significantly reduced. At this time, even if the electric vehicle 5 is actively used, no exhaust gas containing carbon dioxide, nitrogen oxide, and the like is emitted at all, so that the natural environment is not impaired.
Active use of electric vehicles 5 is promoted, and electric vehicles 5
Can contribute to the spread of

Further, a power receiving panel 2 for receiving AC power from a power company is directly connected to a distribution panel 3 for distributing electric power to each electric device in the house 1, and a direct current is supplied to the distribution panel 3 to the distribution panel 3. Via the inverter 4 for converting into AC, the solar power generation means 10
Since the secondary battery 5A is connected, the house 1 can use any of the electric power from the power company, the electric power generated by the solar cell, and the electric power stored in the secondary battery. In addition, since the amount of power for 6 to 7 hours used in ordinary households can be stored in the secondary battery 5A of the electric vehicle 5, power is supplied to the secondary battery 5A of the electric vehicle 5 during the day. If the power is stored, the power stored in the secondary battery 5A of the electric vehicle 5 can be used in the time period from sunset to midnight, and only the inexpensive power of the power company at midnight can be used. From this point, it is possible to shorten the initial cost cancellation of the facilities such as the solar power generation means 10.

Further, since the secondary battery 5A can be connected to the power receiving panel 3 via the converter 7 for converting AC into DC, since the electric vehicle 5 is used during the day, the solar battery 11 is used. Even when the secondary battery 5A cannot be charged with the generated power, the secondary battery 5A can be charged with inexpensive midnight power.

Further, a switch box 6 for switching the connection with the secondary battery 5A from one of the photovoltaic power generation means 10 side and the power receiving panel 2 side to the other is provided. Since the secondary battery 5A of the electric vehicle 5 is charged by selecting one of the electric power 11 and the late-night power of the electric power company, the operation of the electric vehicle 5 is not hindered. It is possible to shorten the initial cost cancellation of the equipment such as.

The switch box 6 is provided with a 24-hour timer 6B for controlling the switching operation of the changeover switch 6A,
When charging the secondary battery 5A of the electric vehicle 5, one of the solar cell power and the power company's midnight power is used so that the most economical power is used in the time according to the charging time. Is automatically selected, thereby avoiding the power company's use of electricity during expensive daytime hours and reliably shortening the initial cost cancellation of facilities such as the solar power generation means 10. it can. Further, as the changeover switch 6A, a switch having a solenoid driven by the voltage of the power company is adopted, and when a voltage is applied to the solenoid, the connection with the secondary battery 5A is established from the solar power generation means 10 side. When the voltage is switched to the power receiving panel 2 and the voltage of the solenoid is released, the connection with the secondary battery 5A is switched from the power receiving panel 2 to the photovoltaic power generation means 10 side. Even if the power supply is stopped, the power of the solar cell 11 can be used during the daytime, while the power of the secondary battery 5A can be used at nighttime, so that an emergency power supply can be secured.

The present invention is not limited to the above-described embodiment, but includes the following modifications and the like. That is, in the above-described embodiment, a converter for converting AC power from a power company into DC is provided on the house side, but the converter may be provided on the electric vehicle side.

Further, in the above embodiment, the AC power from the power company is directly supplied to the distribution board. However, as shown in FIG. 7, the AC power from the power company is a converter for converting the AC power into DC. 7, the DC power may be supplied to the inverter 4 that converts DC power into AC. At this time, a changeover switch 6C is provided on the primary side of the inverter 4 so that one of the power on the solar power ground 11 side and the power from the power company can be switched to the other, and the power is supplied to the house according to the time zone. It is desirable that the power to be used can be selected. In this way, even if the power supply of the power company is stopped, the distribution board 3
In this case, power is continuously supplied without an instantaneous power failure, so that even if a power failure occurs during use of the personal computer, the power supplied to the personal computer is not interrupted and stored in the personal computer. Data can be prevented from being destroyed.

[0023]

As described above, according to the present invention,
The demand rate of the photovoltaic power generation equipment can be improved, and the period for canceling the initial cost can be shortened.

[Brief description of the drawings]

FIG. 1 is a perspective view showing an entire embodiment of the present invention.

FIG. 2 is a block diagram showing a main part of the embodiment.

FIG. 3 is a block diagram showing a daytime charging mode of the embodiment.

FIG. 4 is a block diagram showing a power selling mode of the embodiment.

FIG. 5 is a block diagram showing a discharge mode of the embodiment.

FIG. 6 is a block diagram showing a late-night charging mode of the embodiment.

FIG. 7 is a block diagram showing a modification of the present invention.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Solar power generation house 2 Power receiving panel as power receiving means 3 Power distribution panel as power distribution means 4 Inverter 5 Electric vehicle 5A Secondary battery 6 Switch box as switching means 6B 24 hour timer 7 Converter 10 Solar power generating means 11 Solar battery

Claims (5)

[Claims] Claims: 1. A solar power generation house in which electric power generated by a solar cell can be used by electric equipment inside the solar cell, wherein the solar cell includes a solar cell that receives and generates electric power. Power generation means, and a power distribution means for distributing power to each of the electrical devices, between the photovoltaic power generation means and the power distribution means,
A secondary battery provided in an electric vehicle can be connected, power generated by the solar cell can be stored in the secondary battery, and power stored in the secondary battery can be supplied to the electric device. A photovoltaic house characterized by: 2. The photovoltaic power generation house according to claim 1, further comprising a power receiving means for receiving AC power from a power company, wherein said power distribution means is provided with an inverter for converting DC to AC. A solar power generation house, wherein the solar power generation means and the secondary battery are connected, and the power receiving means is directly connected. 3. The photovoltaic power generation house according to claim 2, wherein said secondary battery is connectable to said power receiving means via a converter for converting alternating current to direct current. Solar power house. 4. A photovoltaic power generation house according to claim 2 or 3, wherein the switching means for switching the connection with the secondary battery from one of the photovoltaic power generation means side and the power receiving means side to the other is provided. A solar power house characterized by being provided. 5. The photovoltaic house according to claim 4, further comprising a 24-hour timer for controlling a switching operation of said switching means.