JP4037283B2 - Electric water heater system - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an electric water heater capable of accurately accumulating a power usage fee.
[0002]
[Prior art]
Conventionally, in an electric water heater, a control board that controls water supply to a hot water storage tank, boiling of hot water, hot water supply, etc. is provided on the hot water storage tank side, and in order to use midnight power, the control board is provided with a boiling start time and hot water supply. It is known that a remote controller for supporting a quantity or the like is provided in a building.
[0003]
The remote controller in the building and the control board on the hot water tank side are connected by a signal line. The heater for the hot water tank is connected to a 200V power line from the watt hour meter, and the heater and the power line are connected via a relay. The relay is turned on and off by a control signal from the control board to control the heating of the heater. The control board and the watt hour meter are connected by a power supply line extending from the watt hour meter, and the control board is provided with a power supply circuit for converting power from the power supply line into a low-voltage direct current for the control board. . Further, the control board of the hot water storage tank executes a control command as determined by the input setting of the remote controller for remote operation in the building.
[0004]
[Problems to be solved by the invention]
However, in the case of such an electric water heater, if the user sets the time of the remote controller incorrectly, it will not be heated up during the midnight electricity rate period at a reasonable real time, and the normal electricity rate will be in the daytime. There was concern that the electricity bill would be higher than the late-night electricity bill because it was expected to heat up.
[0005]
In addition, the clock function of the microcomputer on the control board or remote controller side may shift due to temperature changes, component constant errors, etc. If the clock shift accumulates, the start time and end time of the midnight power time zone There is a problem of mistakenly.
[0006]
The present invention has been made paying attention to such a problem, and an object of the present invention is to correct the time of the remote controller according to the time of the watt hour meter even if the time of the remote controller of the electric water heater is different from the actual time. And
[0007]
[Means for Solving the Problems]
In order to solve the above problems, an electric water heater system of the present invention includes a watt-hour meter having time data, an electric water heater, and a remote controller, and the power meter and a control circuit for the electric water heater body; An electric water heater system in which the control circuit of the electric water heater body and the control circuit of the remote controller are communicably connected to each other,
When the control circuit of the remote controller transmits a request for transmitting time data to the control circuit of the electric water heater main body, the time that the control meter of the electric water heater main body has in the watt-hour meter Send a request to send data,
The watt hour meter, after receiving the transmission request, transmits the time data of the watt hour meter itself to the control circuit of the electric water heater body,
The control circuit of the electric water heater body, by the time data of the electricity meter it receives, co when correcting the time data in which the control circuit itself stores the time data transmitted from the previous SL electricity meter, Transmitted to the control circuit of the remote controller,
The control circuit of the remote controller corrects the time data of the control circuit of the remote controller based on the received time data.
[0008]
Further, in summary, this electric water heater system is configured such that a watt hour meter having time data and a control circuit of the electric water heater main body are communicably connected, and the time data held by the watt hour meter itself is stored in the electric water heater. It transmits to the control circuit of a main body, The control circuit of the said electric water heater main body corrects the time data which the control circuit of the said electric water heater main body memorize | stores with the said received time data.
[0012]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, an electric water heater system according to an embodiment of the present invention will be described with reference to the drawings. FIG. 1 shows a block circuit diagram of this electric water heater system.
[0013]
In the electric water heater system of this embodiment, a watt hour meter 7 having time data and a microcomputer 9 which is a control circuit of the electric water heater main body 1 are communicably connected, and are a control circuit of the electric water heater main body. A microcomputer 9 and a microcomputer 11 which is a control circuit of the remote controller 4 are connected to be communicable.
[0014]
Under such circumstances, when the microcomputer 11 of the remote controller 4 transmits a time data transmission request to the microcomputer 9 of the electric water heater main body 1, the microcomputer 9 of the electric water heater main body 1 The transmission request of the time data which the electric energy meter 7 has is transmitted to the microcomputer 15 of a total of seven.
[0015]
Next, after receiving the transmission request, the watt hour meter 7 transmits the time data of the watt hour meter 7 itself to the microcomputer 9 of the electric water heater main body 1, and the microcomputer 9 of the electric water heater main body 1. The time data stored in the microcomputer 9 itself is corrected by the received time data of the watt hour meter 7, and the microcomputer 9 of the electric water heater main body 1 uses the time data transmitted from the watt hour meter 7 as follows. It transmits to the microcomputer 11 which is a control circuit of the remote controller 4.
[0016]
The microcomputer 11 of the remote controller 4 corrects the time data held by the microcomputer 11 of the remote controller 4 based on the received time data.
[0017]
The watt-hour meter 7 and the electric water heater main body 1 are connected so that the watt-hour meter having the time data and the microcomputer 9 of the electric water heater main body 1 can communicate with each other, and the time data of the watt-hour meter 7 white body. Is transmitted to the microcomputer 9 of the electric water heater main body 1, and the microcomputer 9 of the electric water heater main body 1 corrects the time data stored in the microcomputer 9 of the electric water heater main body 1 with the received time data. It is characterized by.
[0018]
Further, the watt-hour meter 7 itself has a function of holding time data and transmitting the time data in response to a transmission request of, for example, the electric water heater main body 1 which is another electric device.
[0019]
Further, the electric water heater main body 1 is configured such that the microcomputer 9 of the electric water heater main body 1 requests the watt-hour meter 7 that is a device capable of outputting time data to transmit the time data, and the electric power that is the device. The microcomputer 9 has a feature of correcting the time data of the microcomputer 9 itself based on the time data received from the quantity meter 7.
[0020]
Further, the remote controller 4 requests the microcomputer 9 of the electric water heater main body 1 to transmit time data, and the microcomputer 9 of the electric water heater main body 1 is a microcomputer that is its own control circuit based on the time data transmitted by the microcomputer 9 of the electric water heater main body 1. The time data possessed by the computer 11 is corrected.
[0021]
Below, the above-mentioned electric water heater system will be described in more detail. The electric water heater main body 1 installed outside the building includes a hot water storage tank (not shown) that stores water and stores hot water, a water supply pipe that supplies water to the hot water storage tank, and hot water supply that supplies hot water in the hot water storage tank to the building. A control valve mechanism for controlling pipes, hot water supply to and from the hot water storage tank, heater 2 installed in the hot water storage tank, and the amount of hot water stored in the hot water storage tank, temperature, pressure, etc. are detected. And a control board 5 for controlling the control valve and the heater based on the detection amount from the various sensors 3 and the command from the remote controller 4 installed on the building side. The heater 2 of the electric water heater main body 1 is connected to a watt hour meter 7 via a relay 6.
[0022]
The control board 5 is provided with a power supply circuit 8, a microcomputer 9, and other peripheral circuits. The power supply circuit 8 includes a transformer and a switching power supply for converting the alternating current from the watt-hour meter 7 into direct current and converting the high voltage into a low voltage for the operation of the control board 5. The microcomputer 9 includes a microprocessor, a ROM in which programs and data are recorded, operation statuses of the electric water heater main body 1, detection values of various sensors 3, control commands and data from the remote controller 4 or watt hour meter 7, and the like. An input / output port that outputs data and a RAM that temporarily stores the control data and control commands are provided.
[0023]
The clock function 10 is realized by a time measurement program that displays the current time based on the clock signal of the microcomputer 9. This time measurement program and time data are stored in the ROM of the microcomputer 9, and a time correction or a predetermined time correction instruction from the watt hour meter 7 is transmitted from the remote controller 4 to the microcomputer 9. When the microcomputer 9 calls the time measurement program, the date and time data held by the microcomputer 9 can be corrected. The microcomputer 9 controls the boiling start time and the boiling end time and other operations related to time and time based on the date data. The microcomputer 9 conducts the relay 6 so that the heater 2 is energized at the boiling start time, compares the detected value from each sensor 3 such as a temperature sensor with the set value, and controls the relay 6 and the control valve mechanism. The relay 6 is cut off at the boiling end time.
[0024]
The remote controller 4 is installed on a wall surface or the like inside a building, and includes an input operation unit 12 including a microcomputer 11, operation buttons for setting user's preferences, a liquid crystal display unit 13, and a clock function. 14
[0025]
The microcomputer 11 is connected to the microcomputer 9 of the electric water heater main body 1 so as to be able to transmit and receive each other, and commands set by the input operation unit 12 (for example, temperature setting command, boiling start time setting command, boiling) An end time command and other commands are transmitted to the microcomputer 9, and a signal indicating that the setting is received from the microcomputer 9 (a temperature setting command reception signal, a boiling start time / boiling end time reception signal, and completion of these settings) Signal, etc.) and current state (water temperature data in the hot water storage tank and other data) are received and stored in the RAM of the microcomputer 11.
[0026]
The input operation unit 12 includes an input button, a selection button, a setting button, and the like. For example, the boiling temperature, the amount of boiling water, the boiling start time, the boiling end time, the setting / correction time, and other settings It is for setting matters.
[0027]
The input state of the input button and the selection button is set in the liquid crystal display unit 13 based on the input setting program of the microcomputer 11, and the above-described boiling temperature, boiling water amount, boiling is input by inputting the setting button for determining the setting. The raising start time, the boiling end time, the setting / correction time, and other setting items are stored in the microcomputer 11 and transmitted to the microcomputer 9. The clock function 14 of the microcomputer 11 is realized based on the time measurement program stored in the ROM of the microcomputer 11 and the reference time data stored by the microcomputer 11 itself, like the clock function of the microcomputer 9 described above.
[0028]
The clock function 14 sets or corrects reference time data or operation time data based on a setting / correction time setting / correction command from the input operation unit 12. The input state (current eye time, date / time to be set or corrected, boiling start time or boiling end time to be set) is displayed on the liquid crystal display unit 13 in a confirming manner. These operation time data (determined boiling start time and boiling end time) are stored in the RAM according to a determination command when the temporarily set input state is determined, and the microcomputer 11 itself has a time setting reference. Reference time data (set date / time corrected) is stored in the RAM of the microcomputer 11 or the erasable ROM.
[0029]
The reference time data of the clock function 14 of the microcomputer 11 can be corrected based on the time data of the watt hour meter 7 transmitted via the microcomputer 9, and the time measurement program of the microcomputer 11 When a predetermined time is reached based on the stored reference time data, the time data of the watt hour meter 7 is called to rewrite the reference time data serving as a reference for the microcomputer 11. This clock correction is performed via the microcomputer 9, and the reference time data of the microcomputer 9 is also rewritten by the time measurement program of the microcomputer 9. As a result, the reference time data of the watt-hour meter 7 and the microcomputers 9 and 11 coincide.
[0030]
The watt-hour meter 7 that feeds the electric water heater main body 1 integrates the power consumption of the 200V current and the 100V current supplied to the home or the like from the power supply line, and integrates the power consumption. An integration circuit (not shown), a microcomputer 15 connected to the integration circuit for power consumption, a daytime meter 16 indicating the power consumption during the daytime, and the power consumption during the midnight power hours A night meter 17, a liquid crystal display unit 18, a clock function 19, and other necessary mechanisms and circuits are provided.
[0031]
The daytime meter 16, the nighttime meter 17, and the liquid crystal display unit 18 are connected to the microcomputer 15. The microcomputer 15 includes an integration program for integrating the power consumption and a clock program for realizing the clock function 19.
[0032]
The integration program calculates the power consumption from the circuit for integration of 100V current or 200V current, outputs the power consumption during the daytime period to the daytime meter 16, and calculates the power consumption during the midnight power hours at night. While outputting to the meter 17, the measured power consumption is recorded in the RAM of the microcomputer 15 or the erasable ROM.
[0033]
The watt-hour meter 7 has reference time data for operating the clock program. This reference time data is data recorded in the microcomputer 15 and is set in the microcomputer 15 when the watt hour meter 7 is installed in the building, and is rewritten from the outside only when predetermined instructions and conditions are satisfied. It is possible.
[0034]
Of course, the watt-hour meter 7 is provided with a receiver that receives standard radio waves, and the receiver periodically receives the standard radio waves and rewrites the reference time data stored in the microcomputer 15 with the received standard radio waves. It may be modified. Alternatively, the watt-hour meter 7 is provided with a mobile phone or a transmitter / receiver, for example, a standard radio wave is received at a totaling department that totals the amount of power consumed at each home or company, and the time of the received standard radio wave is received from the totaling department. The reference time data of the watt-hour meter 7 may be set / corrected by transmitting to a mobile phone or a transceiver.
[0035]
The microcomputer 15 of the watt hour meter 7 is connected to the microcomputer 9 of the electric water heater main body 1 via the cable 20. The control board 5 includes an interface circuit 21, so that the microcomputer 15 can execute the control instruction of the microcomputer 9 and the microcomputer 9 can execute the control instruction of the microcomputer 15. Then, one control instruction is converted so that the other can be executed. The interface circuit 21 may be alternately connected to an empty input / output port of the microcomputer 9 of the control board 5.
[0036]
The clock program for realizing the clock function 19 transmits the reference time data sent from the microcomputer 15 to the microcomputer 9 based on the transmission request for the reference time data sent from the microcomputer 11 via the microcomputer 9. To do. The microcomputer 9 rewrites its own reference time data with the reference time data sent from the microcomputer 15. At the same time, the microcomputer 9 transmits the reference time data of the microcomputer 15 to the microcomputer 11. The microcomputer 11 rewrites its own reference time data with the reference time data transmitted from the microcomputer 9.
[0037]
As shown in FIG. 2, an optical signal transmission / reception unit 22 made of an infrared communication device (Irda) is connected to the microcomputer 15 of the watt hour meter 7, and the light made of the infrared communication device is connected to the microcomputer 9 on the control board 5 side. The signal transmission / reception unit 23 may be connected to transmit / receive the time data described above between the optical signal transmission / reception units 22 and 23. Since the other structure is the same as that of the electric water heater system of FIG. 1, the description is used.
[0038]
【The invention's effect】
According to the electric water heater system according to the present invention, even if the time data of the control board of the electric water heater or the remote controller is different from the actual time, it is corrected by the time of the watt hour meter, so that the user can start the boiling start / end time Even if the time data of the microcomputer is incorrect or the time data of the microcomputer is different from the actual time, the midnight power can be accurately captured, and the electric water heater can be operated based on the time of the watt hour meter.
[Brief description of the drawings]
FIG. 1 is a conceptual diagram of an electric water heater system according to a first embodiment of the present invention.
FIG. 2 is a conceptual diagram of an electric water heater system according to a second embodiment of the present invention.
[Explanation of symbols]
1 Electric Water Heater Body 4 Remote Controller 5 Control Board 7 Electricity Meter 9 Control Board Microcomputer (Control Circuit)
10 Control board clock function 11 Remote controller microcomputer (control circuit)
14 Clock function of remote controller 15 Microcomputer (control circuit) of electricity meter
19 Clock function of watt-hour meter 22 Optical signal transmitter / receiver 23 Optical signal transmitter / receiver

Claims (1)

A watt-hour meter having time data, an electric water heater, and a remote controller, wherein the power meter and a control circuit of the electric water heater body are communicably connected, and the control circuit of the electric water heater body and the remote An electric water heater system that is communicably connected to a controller control circuit,
When the control circuit of the remote controller transmits a request for transmitting time data to the control circuit of the electric water heater main body, the time that the control meter of the electric water heater main body has in the watt-hour meter Send a request to send data,
The watt hour meter, after receiving the transmission request, transmits the time data of the watt hour meter itself to the control circuit of the electric water heater body,
The control circuit of the electric water heater main body corrects the time data stored in the control circuit itself based on the received time data of the watt-hour meter, and converts the time data transmitted from the watt-hour meter to the remote Sent to the controller's control circuit,
The control circuit of the remote controller corrects the time data of the control circuit of the remote controller based on the received time data.

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