JP3591580B2 - Power consumption suppression notification system - Google Patents

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a power consumption suppression notification system that reports a tight state of power supply and demand.
[0002]
[Prior art]
In recent years, with the diversification of electric appliances and the spread of various electric appliances, the demand for electric power has increased remarkably. Above all, air conditioning equipment requires a lot of electric power and operates intensively in the summer, especially in the time when the heat is severe, which causes a situation where the electric power demand is maximized in a specific season and time.
[0003]
Therefore, if a power generation company prepares power generation equipment so as to cope with an extremely high demand state, the power generation capacity will be maintained far exceeding the average power demand. In this case, the operation rate of the power generation equipment becomes extremely low except when the demand is maximized, resulting in large waste such as management costs. For this reason, various measures for avoiding temporary maximization of power demand have been studied.
[0004]
For example, Japanese Patent Laying-Open No. 2-294808 proposes a power consumption adjusting device that monitors the total amount of power consumption in a home so that the power consumption does not exceed a certain limit.
[0005]
Also, for example, in Japanese Patent Application Laid-Open No. Hei 4-210733, when the amount of power consumption in a house exceeds a predetermined set value, power supply to household devices is stopped in accordance with a predetermined priority. Home control systems have been proposed.
[0006]
Further, for example, Japanese Patent Application Laid-Open No. 10-94199 discloses that information on power consumption in a home is collected, and when starting use of an electric device, the power consumption is limited to a value that does not exceed an allowable power amount. 2. Description of the Related Art A power supply control system that permits power supply to an electric device has been proposed.
[0007]
[Problems to be solved by the invention]
As described above, the conventionally proposed system suppresses the power consumption at home so as not to exceed a predetermined set value. The only effect is that the amount of power consumption in the home can be limited to a certain limit or less, such as avoiding interruption of power supply due to the operation of the breaker.
[0008]
However, for night power, for example, there are many cases where there is a margin in the capacity of the power plant of the power generation company. In other words, it is better to avoid the maximization of power demand by averaging demand, such as by allocating the power consumption during the daytime to improve the efficiency of the power generation facilities, rather than reducing power consumption uniformly. Is more important as a more realistic and social issue.
[0009]
However, in the conventional method, the power consumption is simply limited so as not to exceed the set value. For this reason, for example, priority is given to the use of nighttime power, so that restrictions such as decentralization and averaging of power consumption are also restricted. There was a problem that it could not be handled.
[0010]
Therefore, the electric power company has proposed a method of restricting the power supply to the user when power supply and demand is tight. There is a risk that the power may be forcibly consumed without being misunderstood or that the power supply and demand is not tight.
[0011]
An object of the present invention is to provide a power consumption suppression notification system that reliably notifies a user of a tight power demand in response to a sudden increase in power demand.
[0012]
[Means for Solving the Problems]
The present invention has the following features in order to solve such a problem. In the following description of the means, a configuration corresponding to the embodiment is shown by parentheses as an example. Reference numerals and the like are reference numerals and the like in the drawings described later.
[0013]
The power consumption suppression notification system according to the first aspect of the present invention,An instruction transmitting device (for example, the electric power company side device 21 shown in FIG. 1) for transmitting an instruction signal (an electric power consumption suppressing signal) for instructing the suppression of the electric power consumption when the electric power supply and demand on the electric power supply side is tight; A power consuming device (e.g., the meter device 40 shown in FIG. 1) that is installed on a power consuming side that receives power supply from the power supply side and receives an instruction signal transmitted from the instruction transmitting device; An electric device (for example, an air conditioner 5 shown in FIG. 1) installed and controlled based on the instruction signal, wherein the power consuming device is a first device capable of transmitting and receiving to and from the instruction transmitting device. A transmission / reception unit (wireless communication unit 405), a control unit (401) for controlling the operation of the power consuming device, and a second transmission / reception unit (power line communication unit 403) capable of transmitting and receiving various information to and from the electric device And before An information storage unit (memory 402) for storing a control program executed by the control unit and information on the electric device connected to the power consuming device, wherein the control unit transmits the control program transmitted from the installed electric device. The information (production number, identification number, control method, etc.) relating to the electrical device is received by the second transmitting / receiving unit and stored in the information storage unit, thereby generating a control signal for controlling the electrical device. The electric device includes an input unit (infrared communication unit 511, switch 512) that can manually change an operation condition of the electric device, and a device transmission / reception unit ( A power line communication unit 507) and a device control unit (control unit) that controls the operation of the electric device based on an input signal from the input unit or a control signal from the power consuming device. 01) and output means (speaker 513, LED 514) capable of notifying predetermined contents to the outside, wherein the device control unit automatically sets the operating condition of the electric device based on the instruction signal by the control unit. When a first control signal for changing to the above is generated, and the first control signal is received by the device transmitting / receiving unit, the operating condition of the electric device is updated to the operating condition in which power consumption is reduced, and A second control unit that controls the output unit to output an instruction to change the operating condition of the electric device, and instructs the consumer to reduce the power consumption of the electric device based on the instruction signal by the control unit. A control in which, when a control signal is generated and the second control signal is received by the device transmission / reception unit, the output unit outputs a notification prompting to reduce the power consumption of the electric device. Is performed.
[0014]
According to the power consumption suppression notification system according to the first aspect of the present invention, when the power supply and demand on the power supply side becomes tight, the instruction transmission device transmits an instruction signal for instructing suppression of power consumption by the instruction transmission device. Installed on the power consuming side receiving power supplyPower consuming deviceBy receiving the instruction signal transmitted from the instruction transmitting device,Power consuming deviceWhen an indication signal is received byOutput meansSince the notification operation is performed by this, it is possible to promptly notify the user on the power consumption side that the power supply and demand is tight. For this reason, rather than requesting users to reduce power consumption through general advertising, etc., it is possible to make an urgent and effective request with a high appealing power. Cooperation can be expected and it is effective to avoid maximizing power consumption. Further, when the operation of the electric device on the power consuming side is changed by the remote control on the power supply side and the power consumption is forcibly reduced, the power consumption suppression notification system of the present invention is applied. For users of electrical equipment installed inOutput meansIs notified that the power supply and demand is tight, it is possible to reduce a situation where the failure of the electric device is suspected or the operating condition of the electric device is updated again in a direction to increase the power consumption. .
[0015]
The invention according to claim 2 is the power consumption suppression notification system according to claim 1, whereinPower consuming deviceIs a power integrating means (for example, a power supply control unit 406 shown in FIG. 2) for integrating the amount of power supplied to the power consuming side, and an integration result for transmitting the integration result by the power integrating means to the instruction transmitting device. A transmission unit (for example, the wireless communication unit 405 shown in FIG. 2) is further provided.
[0016]
According to the invention described in claim 2,Power consuming deviceIntegrates the amount of power supplied to the power consuming side by the power integration means, and transmits the integration result by the power integration means to the instruction transmission device by the integration result transmission means, so that the reception device functions as a power meter. Thus, the receiving device can be installed in place of the conventional power meter, so that it is easy to secure an installation space. Also, since the result of integrating the amount of power is transmitted to the instruction transmitting device on the power supply side, there is no need for the worker to read and turn the power meter of each house as in the conventional case, reducing the labor burden, It is also possible to reduce personnel costs. Therefore, a power consumption suppression notification system that is effective for avoiding the maximization of power consumption can be easily realized at low cost, and the effect of cost reduction can be obtained at the same time.
[0019]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
[0020]
[First Embodiment]
FIG. 1 is a diagram showing a configuration of a power consumption adjusting system 1 according to the first embodiment of the present invention. As shown in FIG. 1, the power consumption adjustment system 1 is laid between a power company 2 as a power generation company or a power supply company, a plurality of houses 4, and the power company 2 and the house 4. The transmission line 3 is included.
[0021]
The transmission line 3 for supplying electric power from the electric power company 2 to the plurality of houses 4 is connected to a meter device 40 provided in each house 4.
In the house 4, an air conditioner 5 controlled by a meter device 40 is installed as described later. Although various electric devices can be installed in the house 4 in addition to the air conditioner 5, the air conditioner 5 is exemplified in the present embodiment.
[0022]
The meter device 40 is provided in each house 4 and measures the amount of power supplied to the house 4 and the like. The meter device 40 includes a wireless communication unit 405 (FIG. 2) as described later, and includes an antenna 41 outside the meter device 40.
[0023]
The power company 2 supplies power to a plurality of houses 4 via the power transmission line 3 and includes a power company side device 21 having an antenna 22. The power company side device 21 can perform wireless communication with the wireless communication unit 405 (FIG. 2) in the meter device 40 via the base station 10.
[0024]
The power company side device 21 and a wireless communication unit 405 (FIG. 2) in the meter device 40 described later are, for example, a PHS (Personal Handyphone System), a PDC (Personal Digital Cellular) system, or a CDMA (Code Division Multiplexed Multiplexed). The base station 10 provides a wireless communication line by a communication carrier corresponding to the communication device described above, using a communication method of a mobile communication device such as a digital mobile phone of the above type.
[0025]
When the power supply and demand in the power company 2 becomes tight, the power company side device 21 executes a power consumption adjustment operation (FIG. 3) described later, and supplies the power consumption amount to the meter device 40 installed in the house 4. Send a suppression signal. Then, when a control signal is transmitted from the meter device 40 via the base station 10, the power company side device 21 receives this control signal to indicate that the operation of reducing the power demand in each house 4 has been completed. Confirm.
[0026]
Subsequently, the configurations of the meter device 40 shown in FIG. 1 and the air conditioner control device 50 which is a control device of the air conditioner 5 will be described.
[0027]
FIG. 2 is a block diagram showing the internal configuration of the meter device 40 and the air conditioner control device 50.
As shown in the figure, the meter device 40 includes components such as a control unit 401, a memory 402, a power line communication unit 403, a power supply circuit unit 404, a wireless communication unit 405, and a power supply control unit 406. The power supplied from the transmission line 3 extended from the power company 2 (FIG. 1) is supplied to each electric device in the house 4 (FIG. 1) via the power line 31.
[0028]
The control unit 401 reads and executes various system programs stored in the memory 402, controls each unit of the meter device 40, and controls various electric devices connected via the power line 31.
Specifically, the control unit 401 executes a basic control program stored in the memory 402, and the wireless signal transmitted from the power company side device 21 (FIG. 1) via the base station 10 is transmitted by the wireless communication unit 405. When received, the received signal is analyzed to determine an instruction to be transmitted to the air conditioner control device 50, a control signal indicating the instruction is generated and output to the power line communication unit 403, and the air conditioner is controlled via the power line 31. It is transmitted to the control device 50.
[0029]
Further, when information about the air conditioner control device 50 is transmitted from the air conditioner control device 50 installed in the house 4 via the power line 31, the control unit 401 transmits the transmitted information to the power line communication unit 403. The information is received and analyzed, and information on the air conditioner control device 50 is stored in the memory 402.
[0030]
That is, when the air conditioner 5 is installed in the house 4 and the power supply of the air conditioner 5 is connected to the power line 31, the air conditioner control device 50 issues a serial number, an identification number, or the air conditioner control device 50 Information about the control method is transmitted. Then, the meter device 40 can control the air conditioner control device 50 by storing the information transmitted from the air conditioner control device 50 in the memory 402.
[0031]
Further, when the power supply control unit 406 integrates the amount of power supplied from the power supply circuit unit 404 to the house 4 via the power line 31 and the integration result is input from the power supply control unit 406, This integration result is stored in the memory 402. The control unit 401 wirelessly transmits the integrated value of the electric energy stored in the memory 402 to the power company-side device 21 via the wireless communication unit 405 every predetermined period such as every day or every week. Send. In addition, an instruction to transmit the integrated value of the electric energy is transmitted from the power company-side device 21 to the meter device 40, and the integrated value of the electric energy is transmitted from the meter device 40 in response to the instruction. good.
[0032]
The memory 402 includes a storage medium including a semiconductor memory element, and stores various system programs executed by the control unit 401, information on these programs, information on the air conditioner control device 50, and the like.
[0033]
The power line communication unit 403 is a device called a so-called power line modem, and incorporates a modulation / demodulation circuit, an amplification circuit, a noise filter, and the like, and uses a frequency band of, for example, 100 kHz to 400 kHz (kilohertz) via the power line 31. To send and receive data.
More specifically, the power line communication unit 403 modulates and amplifies the control signal input from the control unit 401 and outputs it to the power supply circuit unit 404, and amplifies and amplifies the signal input from the power supply circuit unit 404. Demodulated and output to control section 401. Thereby, communication via the power line 31 between the control unit 401 and the air conditioner control device 50 can be performed.
[0034]
The power supply circuit unit 404 performs a process such as voltage transformation and rectification based on an AC voltage supplied from the power company 2 via the power transmission line 3 as appropriate under the control of the power supply control unit 406, so that the power supply circuit unit 404 can be used for ordinary households. The power is converted to a commercial AC voltage (for example, 100 volts, 50 Hz or 60 Hz) and supplied to the power line 31. The power supply circuit unit 404 has a built-in circuit such as a filter and outputs a signal of a predetermined frequency input from the power line communication unit 403 to the power line 31 and separates a signal of a predetermined frequency input via the power line 31. And outputs the result to the power line communication unit 403.
[0035]
The power supply control unit 406 controls the power supply circuit unit 404, integrates the power supplied from the power supply circuit unit 404 to the power line 31, and outputs the integrated value to the control unit 401. Further, the power supply control unit 406 operates as a breaker, and when the amount of power supplied to the various electric devices in the house 4 by the power supply circuit unit 404 exceeds a predetermined amount of power, the power supply control unit 406 The power supply to the power line 31 is cut off. Further, the power supply control unit 406 monitors the state of power supply from the power supply circuit unit 404, and when it is determined that an electric leakage has occurred in the house 4, the power supply control unit 404 sends the power supply circuit unit 404 to the power line 31. Cut off the power supply.
[0036]
The wireless communication unit 405 includes an antenna 41, receives a wireless signal transmitted from the base station 10 (FIG. 1) via the antenna 41, and outputs the content of the wireless signal to the control unit 401. In addition, the wireless communication unit 405 generates a wireless signal based on the signal input from the control unit 401, and transmits the wireless signal via the antenna 41.
[0037]
As shown in FIG. 2, the air conditioner control device 50 includes a control unit 501, a memory 502, a power supply unit 503, a compressor drive circuit 504, a blower fan drive circuit 505, an input unit 506, a power line communication unit 507, an output unit 508, and infrared communication. A unit 511, a switch 512, a speaker 513, and an LED (light emitting diode) 514 are provided.
[0038]
The control unit 501 operates the air conditioner 5 by controlling various units of the air conditioner control device 50 by executing various system programs stored in the memory 502. Specifically, the control unit 501 temporarily stores the operation type, temperature, and the like designated by operating the infrared communication unit 511 and the switch 512 connected to the input unit 506 as operation conditions in the memory 502, and thereafter, By operating the compressor drive circuit 504 and the blower fan drive circuit 505 in accordance with the operation conditions in the memory 502, various operations such as heating, cooling, and dehumidification in the room where the air conditioner 5 is installed so as to reach the designated temperature. Is performed.
[0039]
When the control signal transmitted from the meter device 40 via the power line 31 is received by the power line communication unit 507, the control unit 501 analyzes the content of the control signal and performs an operation according to the control signal. . For example, when the control signal received by the power line communication unit 507 is an instruction to increase the set temperature during cooling by 2 degrees, the air conditioner control device 501 sets the operating condition stored in the memory 502 The condition relating to the set temperature is updated, and the components such as the compressor drive circuit 504 and the blower fan drive circuit 505 are controlled in accordance with the updated operating conditions.
[0040]
Further, when updating the operating conditions in the memory 502, the control unit 501 causes the output unit 508 to output a predetermined guidance voice from the speaker 513 and also turns on the LED 514. Thus, the user can be notified that the operation of the air conditioner 5 changes according to the control signal from the meter device 40.
[0041]
Further, the control unit 501 controls the production number and identification number of the air conditioner 5 and the air conditioner control device 50 when the air conditioner 5 is installed in the house 4 and the air conditioner control device 50 is connected to the power line 31. Are transmitted to the power line 31 by the power line communication unit 507.
[0042]
The memory 502 includes a storage medium such as a semiconductor memory element, and stores various system programs executed by the control unit 501, data related to these system programs, and the like. And various information for controlling the air conditioner control device 50, driving information input via the input unit 506, and the like.
[0043]
The power supply unit 503 supplies power to each unit of the air conditioner control device 50 and the air conditioner 5 based on the AC voltage supplied by the power line 31. The power supply unit 503 has a built-in filter and the like. When a signal of a predetermined frequency transmitted from the meter device 40 is input via the power line 31, the power supply unit 503 separates the signal and outputs the separated signal to the power line communication unit 507. In addition, power supply unit 503 transmits a signal input from power line communication unit 507 to meter device 40 via power line 31.
[0044]
The power line communication unit 507 is a device called a so-called power line modem, and includes a modulation / demodulation circuit, an amplification circuit, a noise filter, and the like. To send and receive data.
More specifically, the power line communication unit 507 modulates and amplifies the control signal input from the control unit 501 and outputs it to the power supply unit 503, and amplifies and demodulates the signal input from the power supply unit 503. Output to the control unit 501. Thereby, communication via the power line 31 between the control unit 501 and the meter device 40 can be performed.
[0045]
The compressor drive circuit 504 and the blower fan drive circuit 505 are circuits that drive and control a compressor (not shown) and a blower fan (not shown) included in the air conditioner 5 under the control of the controller 501. The blower fan drive circuit 505 may control the direction of the fins that determine the blow direction, in addition to the blower fan.
[0046]
The input unit 506 is connected to the infrared communication unit 511 and the switch 512, and outputs an instruction input by operating the infrared communication unit 511 and the switch 512 to the control unit 501.
The infrared communication unit 511 has a built-in photo sensor and receives an infrared signal transmitted from the infrared remote control device. The switch 512 is a switch for inputting various instructions to the air conditioner control device 50 by manual operation.
[0047]
The output unit 508 is connected to the speaker 513 and the LED 514, and outputs a predetermined sound such as a beep sound from the speaker 513 according to a control signal input from the control unit 501, and turns on the LED 514.
[0048]
Next, the operation of the first embodiment will be described.
3A and 3B are flowcharts illustrating the power consumption adjusting operation in the power consumption adjusting system 1. FIG. 3A illustrates the operation of the power company-side device 21, FIG. 3B illustrates the operation of the meter device 40, and FIG. Shows the operation of the air conditioner control device 50.
[0049]
Prior to the operation shown in FIG. 3, when the air conditioner 5 is installed in the house 4 and the air conditioner control device 50 is connected to the power line 31, the air conditioner control device 50 instructs the meter device 40 to manufacture the air conditioner 5. It is assumed that a number, an identification number, and various information for controlling the air conditioner control device 50 are transmitted, and these information are stored in the memory 402.
[0050]
The power consumption adjustment operation shown in FIG. 3 is executed when the power supply and demand at the power company 2 becomes tight and the amount of power consumption at the house 4 needs to be reduced, for example, during the summertime.
[0051]
As shown in FIG. 3A, first, the power company side device 21 generates a power consumption suppression signal and transmits it to the meter device 40 from the antenna 22 via the base station 10 (step S11).
[0052]
The power consumption suppression signal transmitted in step S11 is transmitted to the meter device 40 as indicated by the symbol (1) in the figure.
[0053]
Then, as shown in FIG. 3B, the meter device 40 receives the power consumption suppression signal by the wireless communication unit 405. The wireless communication unit 405 outputs the received power consumption suppression signal to the control unit 401 (Step S21).
The control unit 401 analyzes the power consumption suppression signal input from the wireless communication unit 405 (step S22), generates a control signal for controlling the operation of the air conditioner control device 50 based on the analysis result, and generates a power line. The communication unit 403 causes the transmission to the power line 31 (step S23).
[0054]
The control signal transmitted in step S23 is transmitted to the air conditioner control device 50 as indicated by reference numeral (2) in the figure.
[0055]
As shown in FIG. 3C, the air conditioner control device 50 receives the control signal transmitted via the power line 31 by the power line communication unit 507. The power line communication unit 507 outputs the received control signal to the control unit 501 (Step S31).
Then, the control unit 501 controls the driving of the output unit 508 based on the control signal input from the power line communication unit 507, outputs a predetermined sound from the speaker 513, and turns on the LED 514 (step S32).
[0056]
Subsequently, the control unit 501 of the air conditioner control device 50 updates the operating condition stored in the memory 502 in accordance with the control signal received in step S31, and resets, for example, the set temperature of the cooling to a temperature twice higher (step S31). S33).
Then, the control unit 501 generates an adjustment completion signal indicating that the adjustment has been completed, and causes the power line communication unit 507 to transmit the signal to the power line 31 (step S34).
[0057]
As a result, the adjustment completion signal is transmitted to the meter device 40 via the power line 31, as indicated by reference numeral {circle around (3)} in the drawing.
[0058]
Then, meter device 40 receives the adjustment completion signal transmitted from air conditioner control device 50 by power line communication unit 403, and power line communication unit 403 outputs the received adjustment completion signal to control unit 401 (step S24).
The control unit 401 analyzes the adjustment completion signal input from the power line communication unit 403 (step S25), generates a control signal indicating that the adjustment in the air conditioner control device 50 is completed, and causes the wireless communication unit 405 to operate the power company. Wireless transmission is performed to the side device 21 (step S26).
[0059]
As a result, a control signal is transmitted from the meter device 40 to the power company-side device 21 via the base station 10 as indicated by reference numeral 4 in the drawing.
[0060]
Then, the power company side device 21 receives the control signal transmitted from the meter device 40 via the base station 10 via the antenna 22 (step S12), and the adjustment in the air conditioner control device 50 of the house 4 is completed. Make sure that
[0061]
As described above, according to the power consumption adjusting system 1 according to the first embodiment of the present invention, when the power supply and demand to the house 4 becomes tight in the power company 2, the power company side device 21 A power consumption suppression signal is transmitted via the station 10, and the meter device 40 receives the power demand suppression signal transmitted from the power company-side device 21, and sends a signal to the air conditioner control device 50 of the air conditioner 5. A control signal instructing a change in the set temperature is transmitted via power line 31. Then, in the air conditioner control device 50, the control signal transmitted from the meter device 40 is received, a predetermined sound is output from the speaker 513, and the LED 514 is turned on. Further, in the air conditioner control device 50, the operating condition relating to the set temperature of the air conditioner 5 is updated in accordance with the received control signal, and an adjustment completion signal indicating that the adjustment of the set temperature has been completed is generated and transmitted to the meter device 40. You. Then, in the meter device 40, the adjustment completion signal transmitted from the air conditioner control device 50 is received, a control signal is transmitted to the power company side device 21, and the power company side device 21 transmits the adjustment completion signal from the meter device 40. By receiving the control signal, it is possible to detect that the adjustment of the operating temperature of the air conditioner 5 installed in the house 4 has been completed.
[0062]
Thus, when the power company 2 wants to suppress the amount of power consumption in the house 4, the operating condition of the air conditioner 5 can be changed in a direction in which the power consumption decreases. For this reason, in the normal state, the power consumption can be reliably suppressed only when the power supply and demand is tight and the maximization of the power consumption can be avoided without impairing the convenience of the user using the house 4. . In addition, avoiding the maximization of power consumption can open the way to effective use of social capital.
[0063]
In the first embodiment, when the operating condition of the air conditioner 5 is updated, a predetermined sound is output from the speaker 513 and the LED 514 is turned on as shown in step S32 of FIG. . For this reason, the user using the air conditioner 5 is notified that the operating conditions of the air conditioner 5 are updated due to the tight power supply and demand in the power company 2 and the operating state changes. For this reason, since there is no strange impression on the user, the operating condition of the air conditioner 5 can be changed again without suspicion of the failure of the air conditioner 5 or without the user noticing the tightness of the power supply and demand in the power company 2. Updates can be reduced.
[0064]
In the first embodiment, the operating condition of the air conditioner 5 installed in the house 4 is controlled by the air conditioner control device 50. However, the present invention is not limited to this. It is possible to support various home appliances used in the house 4, such as a cooking home appliance such as a microwave oven and a rice cooker, a lighting home appliance, a television, and an audio-related home appliance. In this case, since information on each electric appliance is stored in the memory 402 of the meter device 40, control according to each electric appliance can be performed based on this information. As an example, for the home appliance for cooking, the operation state is not updated after the operation is started, or for the television, a message indicating that the power supply and demand in the power company 2 is tight is displayed on the screen. And the like.
[0065]
Further, the power company-side device 21 can confirm that the adjustment of the use condition of the air conditioner 5 has been completed. Therefore, in the power company 2, only the user of the house 4 whose use condition of the air conditioner 5 has been adjusted can supply and receive power. It is also possible to provide services such as lowering electricity rates as a reward for helping to avoid maximization.
[0066]
Further, in the first embodiment, the power consumption suppression signal and the control signal are transmitted from the power company side device 21 of the power company 2 to the meter device 40 of the house 4 via the wireless communication line via the base station 10. Although it is configured to transmit and receive signals, the present invention is not limited to this. For example, it is of course possible to transmit and receive signals via a wired public telephone line network. Not limited to a power company, a transformer installed at a substation, a power pole, or the like, a configuration installed on an indoor distribution panel, and other detailed configurations can be appropriately changed.
[0067]
[Second embodiment]
Next, a power consumption adjusting system 100 according to a second embodiment of the present invention will be described. Since the power consumption adjusting system 100 described below has the same components as those of the power consumption adjusting system 1 in the first embodiment, the same parts are denoted by the same reference numerals and will not be described. Omitted.
[0068]
FIG. 4 is a block diagram illustrating a configuration of a power consumption adjustment system 100 according to the second embodiment. As shown in FIG. 4, in the power consumption adjusting system 100, a notification unit 6 is connected to the meter device 40, and an air conditioner 7 is connected to the notification unit 6.
[0069]
A power line 31 is provided between the meter device 40 and the notification unit 6, and the notification unit 6 and the air conditioner 7 are connected via a power line 32. That is, the notification unit 6 is provided on a power supply line between the meter device 40 and the air conditioner 7.
[0070]
The air conditioner 7 is a normal home air conditioner, and performs air conditioning such as cooling, heating, and dehumidification indoors where the air conditioner 7 is installed in accordance with an operation using a remote controller or the like. Power is supplied to the air conditioner 7 by the power line 32.
[0071]
The notification unit 6 includes a power line communication unit 61, an output unit 62, a speaker 63, and an LED 64.
[0072]
The power line communication unit 61 is a device called a so-called power line modem, includes a modulation / demodulation circuit, an amplification circuit, a noise filter, and the like, and is transmitted from the power supply circuit unit 404 of the meter device 40 via the power line 31. For example, a control signal in a frequency band of 100 kHz to 400 kHz (kilohertz) is received.
Then, the power line communication unit 61 controls the output unit 62 according to the received control signal, thereby outputting a predetermined sound from the speaker 63 and lighting the LED 64.
[0073]
The output unit 62 is connected to the speaker 63 and the LED 64, and outputs a predetermined sound such as a beep sound from the speaker 63 and turns on the LED 64 according to the control of the power line communication unit 61.
[0074]
In the power consumption adjustment system 100 configured as described above, when a power consumption suppression signal is transmitted from the power company-side device 21 via the base station 10, the control unit 401 of the meter device 40 controls the control signal. Is generated, and a control signal is transmitted from the power supply circuit unit 404 via the power line 31.
[0075]
In the notification unit 6, the power line communication unit 61 receives the control signal transmitted via the power line 31, and controls the output unit 62 when the control signal is an instruction to reduce the power consumption. Then, a predetermined sound is output from the speaker 63 and the LED 64 is turned on.
[0076]
Therefore, the user using the air conditioner 7 is notified by the sound output from the speaker 63 and the lighting of the LED 64 that the power supply and demand in the power company 2 is tight.
Thereby, it is possible to request the user of the air conditioner 7 to cooperate with the operation for reducing the power consumption.
[0077]
In particular, in the power consumption adjusting system 100, only when the power demand in the power company 2 becomes tight, the sound is output from the speaker 63 and the LED 64 is lit, so that the power company 2 always calls for the suppression of the power consumption. It is more effective in urging users than urgency. It can be expected that the user's cooperation can be obtained at a high rate by making a call that has a stronger appeal than ordinary advertisements.
[0078]
Further, the power consumption adjusting system 100 can be easily installed at low cost by installing the notification unit 6 in the house 4 in which the air conditioner 7 is already installed. For this reason, it is possible to request the house 4 not equipped with an air conditioner having a special function to suppress the power consumption in response to the tight supply and demand of electric power.
[0079]
In the second embodiment, if the notification unit 6 is provided with an infrared transmitting device or the like and is operable as a remote control device of the air conditioner 7, a sound is output from the speaker 63 and the LED 64 is turned on. The operating conditions of the air conditioner 7 can be changed, and the same effect as the power consumption adjusting system 1 in the first embodiment can be obtained.
[0080]
In addition, in the power consumption adjusting system 100, in addition to the air conditioner 7, various household appliances used in the house 4, such as a household appliance for cooking such as a microwave oven and a rice cooker, a household appliance for lighting, a television, and an audio-related household appliance. As for home appliances, users can be encouraged to use them to reduce their power consumption, so broader cooperation can be expected.
[0081]
【The invention's effect】
According to the first aspect of the present invention, it is possible to promptly notify the user on the power consumption side that the power supply and demand is tight. For this reason, rather than requesting users to reduce power consumption through general advertising, etc., it is possible to make an urgent and effective request with a high appealing power. Cooperation can be expected and it is effective to avoid maximizing power consumption. Further, when the operation of the electric device on the power consuming side is changed by the remote control on the power supply side and the power consumption is forcibly reduced, the power consumption suppression notification system of the present invention is applied. The notification device notifies the user of the electrical equipment installed in the area that the power supply and demand is tight, so that the failure of the electrical equipment may be suspected, or the operating conditions of the electrical equipment may reduce the power consumption. It is possible to reduce situations such as updating again in the increasing direction.
[0082]
According to the second aspect of the present invention, since the receiving device can be installed in place of the conventional power meter, it is easy to secure an installation space. Also, since the result of integrating the amount of power is transmitted to the instruction transmitting device on the power supply side, there is no need for the worker to read and turn the power meter of each house as in the conventional case, reducing the labor burden, It is also possible to reduce personnel costs. Therefore, a power consumption suppression notification system that is effective for avoiding the maximization of power consumption can be easily realized at low cost, and the effect of cost reduction can be obtained at the same time.
[0083]
According to the third aspect of the present invention, when the supply and demand of electric power becomes tight, the amount of power consumption can be rapidly reduced, and the maximization of the amount of power consumption can be avoided. In addition, since the notification device notifies the user of the electric device installed on the power consuming side that the power supply and demand is tight, it is possible to suspect that the electric device is out of order or to determine the operating conditions of the electric device. Can be reduced in the direction in which the power consumption increases. Thus, it is possible to efficiently and effectively avoid maximizing the power consumption.
[Brief description of the drawings]
FIG. 1 is a diagram showing a schematic configuration of a power consumption adjusting system 1 according to a first embodiment of the present invention.
FIG. 2 is a block diagram showing an internal configuration of a meter device 40 and an air conditioner control device 50 in the power consumption adjusting system 1 of FIG.
3 is a flowchart showing the operation of the power consumption adjusting system 1; FIG. 3 (a) shows the operation of the power company side device 21; FIG. 3 (b) shows the operation of the meter device 40; The operation of the air conditioner control device 50 will be described.
FIG. 4 is a block diagram showing an internal configuration of a meter device 40, a notification unit 6, and an air conditioner control device 52 included in a power consumption adjustment system 100 according to a second embodiment of the present invention.
[Explanation of symbols]
1,100 Power consumption adjustment system
2 Electricity companies
21 Power company equipment
22 Antenna
3 Transmission line
31, 32 Power line
4 house
40 Meter device
401 control unit
402 memory
403 Power line communication unit
404 Power supply circuit
405 Wireless communication unit
406 power supply control unit
5,7 Air conditioner
50 Air conditioner control device
501 control unit
502 Memory
503 Power supply section
504 Compressor drive circuit
505 blower fan drive circuit
506 Input unit
507 Power line communication unit
508 Output unit
511 Infrared communication unit
512 switch
513 Speaker
514 LED
6 Notification unit
61 Power line communication unit
62 Output unit
63 speaker
64 LEDs

Claims (2)

When the power supply and demand on the power supply side is tight, an instruction transmitting device that transmits an instruction signal for instructing suppression of power consumption,
Is installed in the power consumer which receives power from the power supply side, and the power consumer apparatus for receiving an instruction signal transmitted from the instruction sending device,
An electric device installed on the power consuming side and controlled based on the instruction signal,
The power consuming device is capable of transmitting and receiving to and from the instruction transmitting device, a control unit that controls the operation of the power consuming device, and capable of transmitting and receiving various information to and from the electric device. A second transmission / reception unit, and an information storage unit that stores a control program executed by the control unit and information about an electric device connected to the power consuming device,
The control unit is a control signal for controlling the electric device by receiving information about the electric device transmitted from the installed electric device by the second transmitting / receiving unit and storing the information in the information storage unit. Can be generated,
The electric device includes an input unit that can manually change an operation condition of the electric device, a device transmitting / receiving unit that can transmit and receive to and from the power consuming device, and an input signal from the input unit or the power consuming device. A device control unit that controls the operation of the electric device based on a control signal from the device, and an output unit that can notify predetermined content to the outside,
The device control unit includes:
A first control signal for automatically changing the operating condition of the electric device based on the instruction signal is generated by the control unit, and when the first control signal is received by the device transmitting / receiving unit, Update the operating condition of the electric device to the operating condition in which the power consumption is reduced, and perform control to output the effect of changing the operating condition of the electric device by the output unit,
A second control signal for instructing a consumer to reduce the power consumption of the electric device based on the instruction signal is generated by the control unit, and when the second control signal is received by the device transmission / reception unit, Controlling the output means to output a notification prompting the user to reduce the power consumption of the electric device . A power consuming device that is installed on a power consuming side that receives power supply from a power supply side, receives an instruction signal transmitted from the power supply side, and controls an electric device installed on the power consuming side based on the instruction signal. And
The power consuming device,
Power integrating means for integrating the amount of power supplied to the power consuming side, and a first transmitting and receiving unit for transmitting the result of integration by the power integrating means to the power supplying side and receiving an instruction signal from the power supplying side A control unit for controlling the operation of the power consuming device; a second transmitting and receiving unit capable of transmitting and receiving various information to and from the electric device; a control program executed by the control unit; An information storage unit that stores information related to the electrical device connected to the
The control unit is a control signal for controlling the electric device by receiving information about the electric device transmitted from the installed electric device by the second transmitting / receiving unit and storing the information in the information storage unit. Can be generated,
The electric device includes an input unit that can manually change an operation condition of the electric device, a device transmitting / receiving unit that can transmit and receive to and from the power consuming device, and an input signal from the input unit or the power consuming device. A device control unit that controls the operation of the electric device based on a control signal from the device, and an output unit that can notify predetermined content to the outside,
The device control unit includes:
A first control signal for automatically changing the operating condition of the electric device based on the instruction signal is generated by the control unit, and when the first control signal is received by the device transmitting / receiving unit, Update the operating condition of the electric device to the operating condition in which the power consumption is reduced, and perform control to output the effect of changing the operating condition of the electric device by the output unit,
A second control signal for instructing a consumer to reduce the power consumption of the electric device based on the instruction signal is generated by the control unit, and when the second control signal is received by the device transmission / reception unit, Is a device that controls the output unit to output a notification urging the power consumption of the electric device to be reduced.

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