JP4999324B2 - Power generation system and display device - Google Patents

Description

  The present invention converts a DC power from a DC power source such as an independent solar battery into an AC power, and supplies power to an electric load and a commercial power system through a connection part such as an AC plug. The present invention relates to a power usage display at an electric load when generated power is generated.

Solar cells and wind power generators are known as simple and clean energy sources that do not emit harmful substances that use natural energy to output DC power. In particular, the DC power obtained by installing solar cells on the roofs and premises of private houses is converted to AC power, and the AC plug of the device is plugged into a dedicated AC outlet in the house and connected to the commercial power system. supplying an electrical load and an AC power to a commercial power system of the inner, and the generated electric power, there is a solar home systems for displaying the power consumption of the electric load (for example, see Patent documents 1 and 2) .

  FIG. 5 is a diagram illustrating an example of residential solar power generation. The background art will be described below with reference to FIG. The power generation device 1 includes a solar cell module 2, a power conversion unit 3 that converts DC power into AC power, an AC plug 4, and a conductive wire 5 that connects the power conversion unit 3 and the AC plug 4. Yes.

The power generation device 1 converts the DC power from the solar cell module 2 into AC power by the power converter 3 and supplies the AC power to the residential electrical load 11 and the commercial power system 16 via the AC plug 4. However, the purchaser of the power generation device 1 does not know how much AC power is generated by the power generation device 1 and supplies it to the in-house electric load 11 or the commercial power system 16. Therefore, a display device 507 that displays the generated power of the power generation device 1 as a separate device on the power generation device 1 is connected to the power conversion unit 3, and further, in each house of the distribution board 10 in the house where the power generation device 1 is installed. A plurality of power detectors 513 installed on a commercial 100 V line connected to the electric load 11 are connected to the display device 507. Then, it is possible to display the power consumption of the generated power and housing in an electrical load 11 to the power generation apparatus 1 to generate electric power to the display device 507, the purchaser of the power plant 1, the power consumption of the power generated and the housing within the electrical load 11 of the generator 1 Can be confirmed on the display device 507.
JP 2002-98720 A JP 2004-350359 A

However, in the prior art power generation systems, in order to display the generated power and residential power consumption in the display device, display construction and connecting the signal cable to the power generation device from the device, the residential power distribution of the power generation apparatus is installed Multiple power detectors must be connected to the commercial 100V line connected to each load in the panel's house, and there was a need for electrical work performed by a person qualified for electrical connection work. . In addition, simply checking the generated power displayed on the display device and the residential load power consumption makes it difficult to actually feel that the generated power from the power generator is being used for the electrical load in the home. It was not possible to evoke energy conservation awareness to reduce the power consumption of the internal electrical load as much as possible.

The present invention has been made in order to solve the above-described problems, and its purpose is to be installed by the power generation device purchaser himself / herself and to display power usage at an electric load according to the generated power. This is to provide a power generation system that allows the purchaser to easily experience the use of natural energy and to raise awareness of energy conservation.

According to one aspect of the present invention, a power generation system, a power generation unit that is a DC power source, a power conversion unit that converts DC power from the power generation unit into AC power, and the power conversion unit can be freely connected to a commercial power system And at least one display unit to which one or more electric loads are individually connected, and one or more electric loads according to the power converted by the power conversion unit. And a control unit for controlling the power usage display on at least one display unit.
Preferably, the connection portion includes a plug for connecting to an outlet.

Preferably, the display unit includes a power consumption detection unit that detects power consumption of one or a plurality of electric loads, a power consumption transmission unit that transmits power consumption from the power consumption detection unit, and a control unit. A display control signal receiving unit for receiving a signal, and a display means for displaying a power usage display based on information from the display control signal receiving unit, and the control unit detects supply power converted by the power conversion unit A generated power detection unit, a power consumption receiving unit that receives a signal from the power consumption detection unit, a power comparison unit that compares power supplied from the generated power detection unit and power consumption from the power consumption reception unit, A display control signal transmission unit that transmits a display control signal to the display control signal reception unit based on information from the power comparison unit.

Preferably, there are a plurality of electrical loads, and the control unit further includes a calculation unit that calculates the power consumption by summing up the individual power consumption for each electrical load transmitted from the display unit.

Preferably, the control unit compares the power consumption of the electrical load which is the sum by the power converted by the power conversion unit arithmetic unit, when the direction of electric power converted by the power conversion unit large, electric load The power usage display is performed on the display unit.

Preferably, the display unit includes a plurality of indicators corresponding to each electrical load, the control unit compares the power consumption of the electrical load which is the sum by the power converted by the power conversion unit calculation unit, If better power converted by the power conversion unit smaller performs power usage display of the largest electrical load power consumption in the electrical load, on the display device its corresponding.

Preferably, the display unit includes an outlet with a display unit configured to be connectable in series between an outlet plug of one or a plurality of electrical loads and the outlet .

Preferably, the display unit detects that one or a plurality of electric loads are connected.
Preferably, the direct current power source is a solar cell.

According to another aspect of the present invention, a display device for displaying information related to power supplied from an outlet to a corresponding one or a plurality of electrical loads, the power consumption detecting unit detecting power consumption of the electrical load A power consumption transmitter that transmits power consumption from the power consumption detector to the outside, a display control signal receiver that receives a display control signal from the outside, and power use based on information from the display control signal receiver A display unit that displays a display and a supply unit that supplies electric power from the outside to an electric load connected in series.

It can be installed by the purchaser himself / herself and can display the power usage on the electric load on the display unit according to the generated power , so that the purchaser can easily experience the use of natural energy and have an awareness of energy saving. Aroused.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings. In the following description, the same parts are denoted by the same reference numerals. Their names and functions are also the same. Therefore, detailed description thereof will not be repeated.

FIG. 1 is a diagram showing a power generation system in the present embodiment. A power generation apparatus 1 that uses sunlight as a DC power source includes a solar cell module 2, a power conversion unit 3 integrated with a solar cell module 2 that converts DC power from the solar cell module 2 into AC power, and a power conversion unit 3. The AC plug 4 that connects the AC power from the power source 11 to the residential electrical load 11 and the commercial power system 16, and the wiring cable 5 that connects the power converter 3 and the AC plug 4 are provided. The power generation system according to the present invention includes, in addition to the power generation apparatus 1, a control unit 7 that compares the power consumption of the electrical load 11 in the house and the converted power of the power conversion unit 3, and a display based on a control signal from the control unit 7. And a display unit 8 for performing

  The power generation apparatus 1 converts the DC power generated by installing one solar cell module 2 (for example, rated 123 W, open voltage 21.3 V) into a house garden or a veranda using a dedicated installation tool. The unit 3 supplies AC output (for example, a maximum of about 100 W) to a dedicated outlet 6 provided on the wall surface of the house. The dedicated outlet 6 is connected to an in-house electric load 11 and a commercial system 16 via a distribution board 10. The distribution board 10 includes an electrical load dedicated breaker 12, a power generator dedicated breaker 14, and a main circuit breaker 15. The dedicated electrical load breaker 12 is further connected to an electrical load outlet 13 in each room of the house. Is done. The plurality of residential electric loads 11 are connected to a commercial power system 16 via an electric load dedicated breaker 12.

  The control unit 7 is provided with an outlet 7A into which the AC plug 4 can be inserted, and further provided with an outlet plug 7B so as to be connected to the dedicated outlet 6. Further, the display unit 8 is provided with an outlet 8A into which the AC plug 17 of the electric load 11 in the house can be inserted and an outlet plug 8B so as to be connected to the electric load outlet 13. The control unit 7 and the display unit 8 are connected by a signal cable 9 and can communicate with each other.

The purchaser of the power generation device 1 first adds the alternating current connected to the dedicated outlet 6 in order to connect the control unit 7 and the display unit 8 which are separate devices in addition to the power generation device 1 which has already been purchased and installed. The plug 4 is pulled out and inserted into the outlet 7A of the control unit 7, and the outlet plug 7B is inserted into the dedicated outlet 6 instead. If it does in this way, the control part 7 will detect the electric power generated from the electric power generating apparatus 1. FIG.

  Next, the purchaser pulls out the AC load 17 of the electric load from the electric load outlet 13 to which a plurality of electric loads that want to use the generated electric power are connected, and inserts it into the outlet 8A of the display unit 8, instead. The outlet plug 8B may be inserted into the electrical load outlet 13. In this way, the purchaser of the power generation device 1 can connect the control unit 7 and the display unit 8, which are separate devices, to the power generation device 1 by the purchaser himself without the need for electrical work.

FIG. 2 is a front view and a side view of the display unit 8.
The outlet 8A of the display unit 8 is provided with a protruding switch 8C as shown in FIG. When the AC plug 17 of the electrical load 11 in the house is inserted into the outlet 8A of the display unit 8, the projecting switch 8C is pushed by the AC plug 17 and the switch 8C is turned on, and the AC plug 17 of the electrical load 11 in the house is turned on. Is pulled out from the outlet 8A of the display unit 8, the protruding switch 8C is not pushed by the AC plug 17, so the switch 8C returns to its original state and turns off.

  As a result, when the AC plug 17 of the electrical load 11 in the house is not inserted into the display unit 8, the switch 8C of the display unit 8 is turned off, and the electrical load 11 in the house is connected to the display unit 8. It is detected that the display unit 8 is automatically stopped, and the display unit 8 does not consume electricity. In addition, the display unit 8 notifies the control unit 7 that the in-house electric load 11 is not connected, and notifies the control unit 7 that it is not necessary to display the use of the power generation amount.

FIG. 3 is a block diagram illustrating configurations of the control unit 7 and the display unit 8.
Furthermore, with reference to FIG. 3, the structure of the control part 7 and the display part 8 is demonstrated.

Control unit 7, the generated power detecting section 21 for detecting a generated power from the generator 1, and the consumption power receiver 22 for receiving the power transmitted from the display unit 8, obtained by the power consumption receiver 22 A calculation unit 23 that sums up each power consumption, a comparison unit 24 that compares the power generation amount obtained from the generated power detection unit 21 with the total power consumption obtained from the calculation unit 23 and outputs a display control signal; The display control signal transmission unit 25 transmits a display control signal from the comparison unit 24. The display unit 8 receives a power consumption detection unit 26 that detects the power consumption of the electrical load 11 in the house, a power consumption transmission unit 27 that transmits the power consumption to the control unit 7, and a display control signal from the control unit 7. The display control signal receiving unit 28 and a display 29 for displaying based on the display control signal are included.

  4A is a flowchart showing the operation of the control unit 7, and FIG. 4B is a flowchart showing the operation of the display unit 8.

Next, operations of the control unit 7 and the display unit 8 will be described with reference to FIG.
When the solar cell module 2 in the daytime is exposed to sunlight and the solar radiation intensity is sufficient, the power generation device 1 converts the DC power from the solar cell module 2 into AC power by the power conversion unit 3 to convert the wiring cable 5 and the AC plug. 4 and the control unit 7 are used to supply AC power to the dedicated outlet 6. The control unit 7 calls the routine shown in FIG. First, the generated power detection unit 21 detects the generated power P from the power conversion unit 3 at regular intervals (S4102). It is determined whether the generated power P detected by the generated power detection unit 21 is equal to or greater than a certain level (S4104). If it is determined that the certain level or more, receiving a plurality of power Qi detected by the power detection unit 26 in the display unit 8 every same period in power receiving unit 22 (S4106). First, a plurality of power consumptions Qi are ranked in descending order. Next, the total taken by the calculation unit 23 is set as the total power consumption Q (S4108). Then, the comparison unit 24 compares the generated power P and the total power consumption Q (S4110). When the generated power P is larger than the total power consumption Q (Yes in S4110), the control unit 7 notifies the display units 29 of all the display units 8 to which the electric loads are connected that the generated power is used. The display control signal Son is transmitted from the display control signal transmitting unit 25 to all the display control signal receiving units 28 to which the electric load is connected (S4112). On the other hand, if the comparison unit 24 compares the generated power P with the total power consumption Q and the generated power P is smaller than the total power consumption Q (No in S4110), the control unit 7 uses the power consumption in S4108. In order to display the fact that the generated power is used on the display unit 8 having the largest power consumption Qi in the ranking from the largest, the display control signal transmission unit 25 has the highest power consumption Qi. The display control signal Son is transmitted to the display control signal receiving unit 28 of the large display unit 8 (S4114).

The display unit 8 calls the routine shown in FIG. 4B at the same cycle as the control unit 7. First, the control unit the same constant for each period and the detection period of the generated power P being performed by generated power detecting section 21 of 7, detects the power consumption Qi in residential electric load 11 which is connected (S4202), The detected power consumption Qi is transmitted to the control unit 7 via the power consumption transmission unit 27 (S4204). Further, it is determined whether the display control signal Son transmitted from the control unit 7 is received by the display control signal receiving unit 28 at regular intervals (S4206). When the display control signal Son is received, the display 29 performs display (S4208). On the other hand, if the display control signal Son is not received at regular intervals, the display 29 does not display (S4210). The display method on the display device 29 is constituted by an LED (Light Emitting Diode), and the LED is turned on when the display control signal Son is received, and the LED is turned off when the display control signal Son is not received. To do.

If comprised in this way, when the electric power generating apparatus 1 is generating electric power, the use display of generated electric power will be displayed on the display part 8 connected to the electrical load 11 in a house, and the purchaser of the electric power generating apparatus 1 will use the generated electric power. Looking at the display, you can feel that the power generator generates power and supplies power to the electrical load in the house. And if there is an electric load with low usage frequency in the electric load 11 in the house where the use indication of the generated power is displayed, the purchaser of the power generation device 1 stops the operation of the electric load or the low output Power consumption can be reduced by switching to driving, and the purchaser can be reminded of energy saving to reduce power consumption of the electrical load in the house as much as possible.

In the present embodiment, as a method of connecting the power generation device to the commercial power system, the power generation device with an AC plug using an AC plug has been described, but a power generation device using an AC terminal block instead of the AC plug is used. May be. In addition, although a wired signal cable is used for communication between the control unit 7 and the display unit 8, a wireless device may be used. Moreover, although the indicator 29 is comprised with LED and the use display of generated electric power was performed by LED lighting or extinction, it may comprise with a speaker instead of LED and the use display of generated electric power may be performed with the presence or absence of an audio | voice. If the generated power P is smaller than the total power consumption Q as a result of the comparison between the generated power P and the total power consumption Q in the comparison unit 24, the control unit 7 ranks the power consumptions in descending order in S4108. Among them, the display unit 8 with the largest power consumption Qi displays to notify that the generated power is being used. However, the display unit 8 connected to the specific electric load set by the user is notified. May be.

With the configuration and control described above, there is no need for electrical work to install a power detector on the distribution board to detect the power consumption of the electrical load in the house, and the power generator purchaser himself connects the device to the commercial system. It can be installed at the same time, and it can be felt that the power generator generates electricity and supplies power to the electrical load in the house, and it can raise awareness of energy saving that reduces the power consumption of the electrical load in the house as much as possible. .

  The embodiment disclosed this time should be considered as illustrative in all points and not restrictive. The scope of the present invention is defined by the terms of the claims, rather than the description above, and is intended to include any modifications within the scope and meaning equivalent to the terms of the claims.

It is a figure showing the electric power generation system in this Embodiment. It is the front view and side view of the display part 8. 3 is a block diagram illustrating configurations of a control unit 7 and a display unit 8. FIG. (A) is a flowchart showing the operation of the control unit 7, and (b) is a flowchart showing the operation of the display unit 8. It is a figure which shows an example of the solar power generation for houses.

DESCRIPTION OF SYMBOLS 1 Power generation device, 2 Solar cell module, 3 Power conversion part, 4 AC plug, 5 Wiring cable, 6 Dedicated outlet, 7 Control part, 7A Control part 7 outlet, 7B Control part 7 outlet plug, 8 Display part, 8A Display unit 8 outlet A, 8B Display unit 8 outlet plug, 8C Display unit 8 switch, 9 signal cable, 10 distribution board, 11 residential electrical load, 12 electrical load breaker, 13 electrical load outlet, 14 Power generation device dedicated breaker, 15 main breaker, 16 commercial power system, 17 AC plug, 21 generated power detection unit, 22 power consumption reception unit, 23 calculation unit, 24 comparison unit, 25 display control signal transmission unit, 26 power consumption detection unit 27 Power consumption transmitter, 28 Display control signal receiver, 29 Display, 507 Display device, 513 Power detector.

Claims (10)

A power generation unit that is a DC power supply;
A power conversion unit that converts DC power from the power generation unit into AC power;
A power generation device including a connection portion that can freely connect the power conversion portion to a commercial power system,
At least one display unit to which one or more electrical loads are individually connected;
A power generation system further comprising: a control unit that controls the power usage display at the one or more electrical loads to be performed on the at least one display unit according to the power converted by the power conversion unit. The power generation system according to claim 1, wherein the connection portion includes a plug for connecting to an outlet. The display unit
A power consumption detector that detects power consumption of the one or more electrical loads;
A power consumption transmitter that transmits power consumption from the power consumption detector to the controller;
A display control signal receiving unit for receiving a signal from the control unit;
Display means for displaying a power usage display based on information from the display control signal receiving unit;
The controller is
A generated power detection unit that detects supply power converted by the power conversion unit;
A power consumption receiver for receiving a signal from the power consumption detector;
A power comparison unit that compares the supply power from the generated power detection unit and the power consumption from the power consumption reception unit;
The power generation system according to claim 1, further comprising: a display control signal transmission unit that transmits a display control signal to the display control signal reception unit based on information from the power comparison unit. The electrical load is plural,
The power generation system according to claim 3 , wherein the control unit further includes a calculation unit that calculates the power consumption by summing the individual power consumption for each of the electric loads transmitted from the display unit. The control unit compares the power converted by the power conversion unit and the power consumption of the electric load summed by the calculation unit, and when the power converted by the power conversion unit is larger, The power generation system according to claim 4 , wherein the display unit is configured to display power usage at the electric load. The display unit includes a plurality of indicators corresponding to the electrical loads,
The control unit compares the power converted by the power conversion unit and the power consumption of the electric load summed by the calculation unit, and when the power converted by the power conversion unit is smaller, The power generation system according to claim 4 , wherein a power usage display of an electric load having the largest power consumption among the electric loads is displayed on the corresponding display. The power generation system according to claim 1, wherein the display unit includes a display-attached outlet configured to be connected in series between an outlet plug and an outlet of the one or more electric loads. The power generation system according to claim 1, wherein the display unit detects that the one or more electric loads are connected.   The power generation system according to claim 1, wherein the DC power source is a solar battery. A display device for displaying information on power supplied to one or a plurality of electric loads corresponding from an outlet,
A power consumption detector for detecting power consumption of the electrical load;
A power consumption transmitter that transmits the power consumption from the power consumption detector to the outside;
A display control signal receiver for receiving a display control signal from the outside;
A display unit for displaying a power usage display based on information from the display control signal receiving unit;
And a supply unit that supplies electric power from the outside to the electric loads connected in series.

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