JP2004028459A - Hot-water supply device, server, and network type hot-water supply system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a hot-water supply device allowing capacity reduction of a memory of the hot-water supply device for storing a control program. <P>SOLUTION: The hot-water supply device has a control means that is provided with a global IP address, can communicate with a server for control via a communication network, downloads the control program from the server via the communication network every operation (S3), and performs an operation based on the control program (S6). <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a hot water supply device using the Internet, a server for managing the hot water supply device, and a network type hot water supply system.
[0002]
[Prior art]
As a conventional hot water supply system using the Internet, for example, as described in JP-A-11-212230, when a control program for a hot water supply device is upgraded, a control program is downloaded from a management server to the hot water supply device. Systems are known.
[0003]
[Problems to be solved by the invention]
However, in the above-described conventional hot water supply system, all control programs necessary for controlling the hot water supply device are collectively downloaded to the hot water supply device, so that a large-capacity memory is required as the memory of the hot water supply device for storing the control program. There was a problem of becoming.
[0004]
Further, in the conventional hot water supply system, the remote control of the hot water supply device is performed by a remote controller fixed in a kitchen or a bathroom, and the remote control of the hot water supply device cannot be performed unless the user goes to the installation position of the remote controller. There was a problem.
[0005]
DISCLOSURE OF THE INVENTION
The present invention has been proposed in view of the above points, and provides a hot water supply device, a server, and a network-type hot water supply system capable of reducing the capacity of a memory of a hot water supply device for storing a control program. The purpose is.
[0006]
Still another object of the present invention is to provide a hot water supply device, a server, and a network type hot water supply system that allow a user to remotely control a remote controller without having to go to an installation position.
[0007]
In order to solve the above problems, the present invention takes the following technical measures.
[0008]
According to the first aspect of the present invention, a control program is provided with a global IP address and can communicate with a management server via a communication network, downloads a control program from the server via the communication network for each operation, A hot water supply device is provided, comprising control means for executing an operation based on the control program.
[0009]
According to the second aspect of the present invention, it is possible to communicate with a management server and an arbitrary number of home electric appliances to which a global IP address has been assigned, to which a global IP address has been assigned, and to communicate via a communication network. And control means remotely controlled according to a user's instruction operation on an operation screen displayed on a display screen of the home electric appliance based on a remote control program downloaded from the server to the home electric appliance. , A hot water supply device is provided.
[0010]
According to a preferred embodiment, the control means requests the server for information on the operating state of the water heater before power-off when the power of the water heater is turned on, and the operation before the power-off from the server via the communication network. Receive status information.
[0011]
According to another preferred embodiment, the control means downloads information related to weather in an area where the hot water supply device is installed via a communication network, and changes the operating condition based on the information.
[0012]
According to another preferred embodiment, the control means downloads information on the date and time of the area where the hot water supply device is installed via a communication network, and varies the operating condition based on the information.
[0013]
According to another preferred embodiment, there is provided notification means, and the control means downloads information on the energy usage and / or usage fee of the water heater via a communication network, and notifies the information to the notification means. .
[0014]
According to another preferred embodiment, after the hot water supply device is installed, the control means transmits the setting state data of the hot water supply device to the server and / or the home electric appliance via the communication network to thereby control the server and / or the home electric appliance. The setting state data is stored in the storage unit, and the setting state data stored in the storage unit is acquired via the communication network as needed.
[0015]
According to another preferred embodiment, the control means updates the setting state data of the water heater by the server via the communication network, and varies the operating condition based on the updated setting state data.
[0016]
According to another preferred embodiment, there is provided a health management data measurement unit, and the control unit transmits the measurement data obtained by the health management data measurement unit to a predetermined host device via a communication network to perform the measurement. The data is stored in the storage device of the host device.
[0017]
According to another preferred embodiment, the global IP address is an address corresponding to IPv6.
[0018]
According to the third aspect of the present invention, it is possible to communicate with an arbitrary number of water heaters to which a global IP address is assigned via a communication network, and to execute a control program for controlling the water heaters for each operation of the water heater. And a server for supplying the hot water supply device via a communication network.
[0019]
According to the preferred embodiment, when the control program is supplied to the hot water supply device via the communication network, if the control program has update information, the update information is added and transmitted.
[0020]
According to the fourth aspect of the present invention, it is possible to communicate with an arbitrary number of water heaters and home appliances to which a global IP address is assigned via a communication network, and to remotely operate the water heater on a display screen of the home appliance. A server is provided, which supplies a remote control program for displaying an operation screen to a home electric appliance via a communication network.
[0021]
According to the preferred embodiment, data on the life of the water heater is requested to the water heater via the communication network at a predetermined timing.
[0022]
According to another preferred embodiment, the first storage means for storing the control data of the hot water supply device in the latest predetermined period, and the control data of the hot water supply device at the time when the abnormality occurrence data is received from the hot water supply device And second storage means for storing
[0023]
According to the fifth aspect of the present invention, for managing an arbitrary number of water heaters provided with a global IP address, an arbitrary number of home electric appliances provided with a global IP address and having display means, and a water heater. Server, and a communication network that connects the hot water supply device, the home appliance, and the server to each other so as to be communicable with each other. A network-type hot water supply system is provided, which is downloaded from a server to a hot water supply device.
[0024]
According to the sixth aspect of the present invention, it is possible to manage an arbitrary number of water heaters provided with a global IP address, an arbitrary number of home electric appliances provided with a global IP address and having display means, and a water heater. And a communication network that connects the hot water supply device, the home appliance, and the server to each other so that they can communicate with each other. A remote control program for remotely operating the hot water supply device is transmitted from the server to the home appliance via the communication network. A network-type hot water supply system is provided, wherein the hot water supply device can be remotely operated by using an operation screen downloaded and displayed on a display screen of a home appliance by a remote control program.
[0025]
According to a preferred embodiment, the water heater and / or the household electric appliance downloads information on the energy consumption and / or the usage fee of the water heater via the communication network, and notifies the predetermined information means.
[0026]
According to another preferred embodiment, after installing the hot water supply device, the hot water supply device transmits setting state data of the hot water supply device to a server and / or a home appliance via a communication network, and the server and / or the home electrical device Stores the received setting state data in its own storage means, and when there is a request for setting state data from the hot water supply device, reads out the setting state data from the storage means and transmits it to the hot water supply apparatus.
[0027]
According to another preferred embodiment, the hot water supply device has health management data measurement means, and transmits measurement data obtained by the health management data measurement means to a predetermined host device and / or home electric appliance, and And / or storing the measurement data in the home appliance.
[0028]
According to the present invention, the control program is downloaded from the server via the communication network for each operation, and the operation is performed based on the control program. Therefore, all necessary functions for realizing all the functions of the water heater are provided. Since it is not necessary to previously store the control program in the memory, the capacity of the memory of the water heater for storing the control program can be reduced.
[0029]
Further, according to the present invention, the control means of the water heater supplies the user's instruction to the operation screen displayed on the display screen of the home appliance based on the remote control program downloaded from the server to the home appliance via the communication network. Since the remote control is performed in response to the operation, the user can remotely control the hot water supply device with the home electric device without having to go to the installation position of the remote controller.
[0030]
Other features and advantages of the present invention will become more apparent from the detailed description given below with reference to the accompanying drawings.
[0031]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, preferred embodiments of the present invention will be specifically described with reference to the drawings.
[0032]
FIG. 1 is a conceptual explanatory diagram of a network type hot water supply system of the present invention. This network-type hot water supply system includes a hot water supply device 1, a home appliance 2, a server 3, and a communication network 4. The hot water supply device 1 and the home electric appliances 2 are installed in each home, and the hot water supply devices 1 and the home electric appliances 2 of many homes can always communicate with the server 3 via the communication network 4 including the Internet and a home LAN. is there. The server 3 is a computer system that manages the hot water supply device 1 and is connected to a hard disk device 5 for constructing a database, and is operated by a manufacturer or a service organization of the hot water supply device 1. An arbitrary number of home appliances 2 are installed in each home, for example, a personal computer, a set-top box of a television receiver, a refrigerator, a microwave oven, an entrance phone, or a portable terminal device such as a portable telephone device or a PDA. Is a digital home appliance in a so-called broad sense that includes a display device and can be connected to the Internet. A global IP address is assigned to each of the hot water supply device 1 and each household electric appliance 2.
[0033]
FIG. 2 is a circuit block diagram of a control unit of hot water supply device 1. The control unit of the water heater 1 includes a CPU 11, an EEPROM 12, a RAM 13, and an interface circuit 15. To the interface circuit 15, a communication unit 17, a number of controlled circuits 18, and a number of sensors 19 are connected.
[0034]
The EEPROM 12 includes a predetermined control program such as a communication control program for communicating with the server 3 or the like via the communication network 4 by the communication unit 17 and a control program for download, and a predetermined control program such as a product type and a product number. Data is stored at the factory shipment stage. Note that data and programs that are not updated among the contents stored in the EEPROM 12 may be provided in a separate ROM and stored in the ROM.
[0035]
The RAM 13 provides a working area for the CPU 11. The RAM 13 stores a control program transmitted from the server 3 via the communication network 4 and table data used in the control program.
[0036]
The communication unit 17 performs communication with the home electric appliance 2, the server 3, and the like via the communication network 4.
[0037]
The controlled circuit 18 is a circuit for controlling various devices controlled by the CPU 11, such as a drive circuit for a motor such as a fan or a three-way valve, and a drive circuit for a solenoid for various solenoid valves.
[0038]
As the sensor 19, for example, a temperature sensor for detecting the temperature of hot water in each section, a flow rate sensor for detecting the flow rate of hot water in each section, a water level sensor for detecting a water level of a bathtub, a heating tank, or the like, a rotation for detecting the rotation speed of a fan motor There are a number sensor, a position sensor as a limiter for detecting the limit position of the hot water supply flow rate adjusting stepping motor, and the like.
[0039]
FIG. 3 is a circuit block diagram of a control unit of home electric appliance 2. The control unit of the home electric appliance 2 includes a CPU 21, a ROM 22, a RAM 23, an EEPROM 24, and an interface circuit 25. The communication unit 27, the display device 28, and the operation unit 29 are connected to the interface circuit 25. Although not shown, the interface circuit 25 is connected to a control circuit, a sensor, and the like for exhibiting a function unique to each home appliance 2.
[0040]
The RAM 23 stores a remote control program downloaded from the server 3. When downloading the remote control program, the user transmits personal data such as an address and a name to the server 3, and the server 3 registers the personal data in the database of the hard disk device 5. This remote operation program causes a display screen of the display device 28 to display a remote control screen for remotely operating the hot water supply device 1, and transmits an instruction signal corresponding to a user operation to the hot water supply device 1. On the remote control screen, in addition to various operation keys, an operation state of the hot water supply device 1 such as hot water supply, bath, and heating, and information indicating that operation of the operation keys has been received are displayed. In this remote control screen, the display contents, the arrangement of icons, and the like can be freely changed according to the setting of the user, and the function assignment of each key switch of the operation unit 29 can also be freely changed. In the case of the home appliance 2 that is difficult to set, such as a portable telephone device, the setting of the remote operation program may be changed by the home appliance 2 that is easily set, such as a personal computer, and transmitted.
[0041]
The EEPROM 24 stores a communication control program for communicating with the server 3 and the like via the communication network 4, a control program for downloading, and the like. Data and programs that are not updated among the contents stored in the EEPROM 24 may be stored in the ROM 22.
[0042]
The communication unit 27 executes communication with the hot water supply device 1 and the server 3 via the communication network 4.
[0043]
The display device 28 is composed of, for example, a liquid crystal display, and performs various displays under the control of the CPU 21.
[0044]
The operation unit 29 includes, for example, a plurality of key switches, and supplies an operation signal corresponding to a user operation to the CPU 21.
[0045]
Next, the operation will be described.
[0046]
When the user wants to remotely control the hot water supply device 1, the user performs a predetermined operation on the operation unit 29 of the household electric appliance 2. As a result, the CPU 21 of the home electric appliance 2 starts the remote control program stored in the RAM 23 and causes the display screen of the display device 28 to display the remote control screen. When the user performs a desired operation on the operation unit 29 while looking at the remote control screen, the operation signal is transmitted from the household electric appliance 2 to the hot water supply apparatus 1. This operation may be any of a method of clicking the display screen using a mouse or the like, a method of pressing a key, or a touch panel input method. In the case of the home electric appliance 2 such as a television and a portable terminal installed in a bathroom, it is desirable to have a waterproof structure.
[0047]
When water heater 1 receives an operation signal from home electric appliance 2, CPU 11 processes the operation signal according to the content of the operation signal. That is, if the operation signal is a setting signal, the setting content is stored in the RAM 13. If the operation signal is a signal to start the operation, the operation is started as described later.
[0048]
FIG. 4 is a flowchart illustrating the operation of CPU 11 when operating water heater 1.
[0049]
First, the CPU 11 determines whether or not the operation of the water heater 1 should be started (S1). Specifically, the CPU 11 checks whether or not an operation signal to start the operation from the home electric appliance 2 has been received, or whether or not the user has performed an operation to start the operation such as opening a hot water tap. When the hot-water tap is opened, the CPU 11 starts the hot-water supply operation when the operation switch is on and the hot-water supply flow rate is equal to or higher than the minimum operation flow rate. Further, the combustion operation is performed based on the detection values of the various sensors 19. After confirming that it is safe to start, the combustion operation is started.
[0050]
If the operation is to be started (S1: YES), the CPU 11 executes the operation start program stored in the EEPROM 12 (S2). Specifically, CPU 11 transmits the name and version of the control unit of hot water supply device 1 stored in EEPROM 12 and the version of the control program to server 3.
[0051]
The server 3 that has received the name and version of the control unit and the version of the control program selects a control program based on the information and the information obtained from the contractor at the time of installing the hot water supply device 1, and sends the control program to the hot water supply device 1. Send. When the control program has been upgraded, text data such as the content of the change, the explanation of the operation, and the precautions for use are also transmitted to the water heater 1 together. The control program is divided for each operation of the water heater 1. More specifically, control is performed for each operation such as hot water supply combustion control, fan motor control, proportional valve control, hot water control, dropping control, water level control, bath combustion control, bath circulation control, heating hot water temperature control, and heating combustion control. The program exists. Further, a control program exists for each control unit name and each control unit version. The information obtained from the contractor is the gas type of the hot water supply device 1, the exhaust variation, and the setting state of the dip switch corresponding to the special site, and these information are registered in the database of the hard disk device 5. These pieces of information may be transmitted from the hot water supply device 1 to the server 3 when the hot water supply device 1 is installed, or may be transmitted to the server 3 from a personal computer of an enforcement company.
[0052]
When receiving the control program from the server 3, the CPU 11 stores the control program in the RAM 13 (S3). For example, when the user opens the hot water tap, it is necessary to execute various operations for realizing the hot water supply function, so that the hot water supply combustion control program, the fan motor control program, the proportional valve control program, and the hot water control program are executed. The control programs transmitted from the server 3 are stored in the RAM 13. In addition, when the user operates the operation unit 29 of the household electric appliance 2 to turn on the automatic switch, it is necessary to execute various operations for realizing the automatic hot water filling function for the bathtub. A program, a fan motor control program, a proportional valve control program, a hot water control program, a drop control program, and a water level control program are transmitted from the server 3, and the control programs are stored in the RAM 13.
[0053]
Next, the CPU 11 determines whether version control information is attached to the control program from the server 3 (S4).
[0054]
If the version upgrade information is attached to the control program from the server 3 (S4: YES), the CPU 11 transmits the version upgrade information to each home appliance 2 (S5).
[0055]
Thus, when the remote control program is started, the CPU 21 of each home appliance 2 displays the received upgrade information, that is, the changed content, the operation explanation, the precautions for use, and the like on the display screen of the display device 28.
[0056]
Next, the CPU 11 operates based on the control program stored in the RAM 13 to execute each operation (S6).
[0057]
Next, the CPU 11 transmits various information associated with the operation of the water heater 1 to the server 3 or the like (S7). The information transmitted to the server 3 includes information on the life of the hot water supply device 1, information for failure diagnosis of the hot water supply device 1, information necessary for returning from an instantaneous power failure of the power supply, and the like. In addition, information on health obtained during bathing of the user is transmitted to the server of the health care provider via the communication network 4. Such information will be described later in detail.
[0058]
Next, CPU 11 determines whether or not the operation of hot water supply device 1 may be stopped (S8). For example, it is determined whether the automatic filling of the bathtub has been completed, whether the user has closed the hot water tap, or whether the user has operated the operation unit 29 of the household electric appliance 2 to turn off the heating switch. .
[0059]
If the operation of the water heater 1 can be stopped (S8: YES), the CPU 11 deletes unnecessary control programs from among various control programs stored in the RAM 13 (S9), and terminates this routine. .
[0060]
In step S8, if it is not necessary to stop the operation of hot water supply device 1 (S8: NO), the process returns to step S6 to continue the operation.
[0061]
In step S4, if the version upgrade information is not attached to the control program from the server 3 (S4: NO), the process proceeds to step S6.
[0062]
If the operation should not be started in step S1 (S1: NO), this routine ends.
[0063]
The CPU 11 of the water heater 1 executes various processes in addition to the above basic processes.
[0064]
For example, the CPU 11 acquires the weather information of the area where the hot water supply device 1 is installed from the server of the weather information providing organization appropriately or at predetermined time intervals. The weather information includes the current weather, temperature, humidity, wind speed, barometric pressure, maximum temperature, minimum temperature, average temperature, and maximum wind speed within the latest specified period, and weather, temperature, humidity, wind speed, and air pressure after the specified period. Such as predicted values. Then, based on the weather information, the control parameters for each operation of the water heater 1 stored in the EEPROM 12 are changed to optimal initial values. Further, for example, the start temperature of the freeze prevention control is changed to an optimum value according to the current wind speed. In addition, for example, based on the predicted maximum temperature or the predicted minimum temperature of the day, the start time of the hot water filling operation to the bathtub or the hot water storage operation to the hot water storage tank is calculated so that the energy consumption is minimized, and the operation is performed at that time. Let it start. In addition, for example, the antifreeze operation is controlled based on the predicted maximum temperature and the predicted minimum temperature of the day. In addition, for example, it is determined whether or not dew condensation occurs inside the hot water supply device 1 during combustion based on the current weather, temperature, humidity, incoming water temperature of the hot water supply device 1, ambient temperature, and the like. In such a case, the temperature rise inside the hot water supply device 1 is suppressed by lowering the combustion capacity, the suction of rainwater into the inside of the hot water supply device 1 is prevented by lowering the fan speed during combustion, Condensation is evaporated by rotating the fan inside.
[0065]
Further, the CPU 11 acquires time information from a server of the time information providing organization in Japan Standard Time or the home electric appliance 2 when the power is turned on, at predetermined time intervals, or appropriately. The time information includes the current year, month, day, time, and the like. Then, based on the weather information corresponding to the time information, the control parameters for each operation of the hot water supply apparatus 1 are changed to optimal initial values according to the season and the date and time. The control parameters are stored in the EEPROM 12.
[0066]
Further, the CPU 11 acquires information on the usage amount and the fee from the servers of the power supply company, the gas supply company, and the water supply company at predetermined time intervals or as appropriate. The information on the usage amount and the fee includes information on the current month, the last month, the year before the same month, the year, and the like. Then, the CPU 11 transmits these pieces of information to the respective home electric appliances 2. Thus, the user can view the usage amounts and charges of electricity, gas, and water on the display screen of the display device 28 by performing a predetermined operation on the operation unit 29 of each home appliance 2. Note that the CPU 21 of the household electric appliance 2 may acquire information on the usage amount and the fee from the servers of the power supply company, the gas supply company, and the water supply company. Further, information relating to the usage amount and the charge may be displayed on a display device of a remote controller of the hot water supply device 1 installed in a kitchen, a bathroom, or the like.
[0067]
In addition, the CPU 11 collects information on health while the user is taking a bath, and transmits the information to the server of the health examination organization. That is, the hot water supply device 1 has a function of measuring the heart rate, the body fat percentage, and the blood pressure of the user who is taking a bath, and these measurement data are transmitted to the server of the health examination execution organization via the communication network 4. Sent automatically. Thereby, the server of the health examination execution organization takes the received measurement data into a database for managing the health of each individual, and transmits the result of the health examination based on the database to the home electric appliance 2. Thereby, the user can browse the result of the health examination on the display screen of the display device 28 of the home electric appliance 2. Of course, the home appliance 2 may be configured to notify the result of the health check by voice. In addition, a health examination program is installed in the home electric appliance 2 composed of a personal computer, and the measurement data is transmitted to the personal computer. The personal computer performs a health examination by constructing a database, analyzing the measurement data, and reporting the result. You may be comprised so that it may perform.
[0068]
Further, CPU 11 transmits to server 3 information for determining the life of hot water supply device 1 at predetermined time intervals or as appropriate. This information is, for example, the number of times of burning, the burning time, and the like. Thereby, the server 3 fetches the information for determining the life into the database of the hard disk device 5 and executes the life margin judgment using a predetermined arithmetic expression stored in advance. If it is determined that the service life is reached, the fact is transmitted to the water heater 1. Thereby, CPU 11 of hot water supply device 1 transfers information indicating that the life is expired to each household electric appliance 2. As a matter of course, the server 3 may directly transmit the end of life to the home electric appliance 2. Therefore, the user can know on the display screen of the display device 28 of the home electric appliance 2 that the life of the water heater 1 has expired. In addition, according to the judgment result of the server 3, the manufacturer or the service organization can immediately know the information on the user of the hot water supply device 1 whose life has expired, so that the replacement is promoted by e-mail, telephone, or home visit. Approach can be easily implemented.
[0069]
Further, the CPU 11 transmits information necessary for failure diagnosis to the server 3 in step S7 in FIG. The information necessary for failure diagnosis is, for example, a failure signal, a hot water supply flow rate, an incoming water temperature, an outgoing water temperature, and the like. As a result, the server 3 takes in the information necessary for the failure diagnosis into the database of the hard disk device 5 and keeps the information for a certain period of time. Then, when a failure signal is received from the hot water supply device 1, the server 3 stores information necessary for a failure diagnosis for a certain period of time before that time, estimates a cause of the failure based on the information, and stores the estimation result in a database. Store. Thus, in response to a service call from the user, the service center service staff accesses the database of the server 3 to find out the cause of the failure, prepares parts and explanatory materials, and repairs the product at the user's house. Go out. Therefore, the problem can be solved with one visit.
[0070]
In addition, the CPU 11 transmits information on the operation mode to the server 3 in step S7 in FIG. The information on the operation mode includes, for example, ON / OFF of an operation switch, ON / OFF of an automatic switch, and ON / OFF of a heating switch. Thereby, the server 3 takes in the information on the operation mode into the database of the hard disk device 5.
[0071]
Then, when the power of the water heater 1 is turned on, the CPU 11 communicates with the server 3 via the communication unit 17 and transmits data on the water heater 1 stored in the EEPROM 12. The data relating to the water heater 1 includes a product type of the water heater 1, a unique product number of each water heater 1, a name of the control unit, a version of the control unit, a version of the control program, a production date, and the like.
[0072]
Thereby, server 3 determines whether the hot water supply device 1 has been registered or not registered, based on the product number from hot water supply device 1. That is, it is checked whether or not data relating to the hot water supply device 1 exists in the database of the hard disk device 5. If not registered, the received data from the water heater 1 is added to the database of the hard disk device 5. If it is already registered, the information about the operation mode before the power supply of the water heater 1 is stored in the database of the hard disk device 5 is transmitted to the water heater 1.
[0073]
As a result, the CPU 11 of the water heater 1 returns the water heater 1 to the operation mode before the power was turned off, based on the information on the operation mode from the server 3. Therefore, even if the instantaneous power failure of, for example, about 0.2 seconds or more occurs during the use of the hot water supply device 1 and the hot water supply device 1 stops, it is possible to quickly return to the original operation mode simultaneously with the elimination of the power failure.
[0074]
In addition, the CPU 11 transmits information on various settings of the water heater 1 to the server 3 in step S7 of FIG. The information on the various settings includes, for example, the maximum rating number, gas type, exhaust variation, bath function grade such as full auto, semi-auto and standard, and other program selection. As a result, the server 3 takes in information on various settings into the database of the hard disk device 5. When the board realizing the control unit of the hot water supply apparatus 1 is replaced, the CPU 11 mounted on the new board accesses the server 3 to acquire information on various settings and stores them in the EEPROM 12. . Thus, when replacing the board, various settings of the hot water supply apparatus 1 are performed quickly and reliably without requiring labor. Of course, information about various settings of the hot water supply apparatus 1 may be transmitted to the home electric appliance 2 and stored in the EEPROM 24, and information about various settings may be acquired from the EEPROM 24 of the electric home appliance 2 when the board is replaced. Good.
[0075]
As described above, since the water heater 1 can be remotely controlled by the home electric appliance 2, the user does not need to go to the installation position of the remote controller such as a kitchen or a bathroom, and can operate the water heater 1 from each room or operate the water heater. 1 can be monitored. Therefore, it is not always necessary to install a remote controller in a kitchen, a bathroom, or the like.
[0076]
In addition, since the user can arbitrarily change the settings of the contents of the display screen of the remote operation by the display device 28 of the home electric appliance 2 and the function assignment of each key switch of the operation unit 29, the usability is improved.
[0077]
In addition, since the water heater 1 can be remotely controlled by the portable home electric appliance 2, it is possible to operate and monitor the water heater 1 even when going out or on the way home.
[0078]
In addition, since a control program is downloaded from the server 3 via the communication network 4 for each operation and the operation is performed based on the control program, all the functions necessary for realizing all the functions of the hot water supply device 1 are performed. Since the control program does not need to be stored in a memory such as the RAM 13 in advance, the capacity of the memory such as the RAM 13 for storing the control program can be reduced.
[0079]
In addition, since operation can always be performed with the latest control program, all users can enjoy the elimination of malfunctions and the addition of new functions. In addition, each user does not need to download the latest control program by himself / herself, so that the number of operations can be reduced and, at the same time, unfairness among users can be eliminated. Further, it is not necessary to individually transmit the latest control program from the manufacturer or service organization to the user.
[0080]
In addition, when the version of the control program is upgraded, the user can browse the changed content, the operation explanation, the precautions, and the like on the display device 28 of the home electric appliance 2, so that the usability is improved.
[0081]
In addition, since various setting items such as gas type, exhaust variation, and DIP switch settings set by the installer when the hot water supply device 1 is installed are taken into the database of the hard disk device 5, maintenance work, inspection work, repair work, and replacement are performed. Work can be done quickly and accurately.
[0082]
In addition, since information relating to weather is taken in through the communication network 4 and optimal operation control and dew condensation prevention control are executed based on the information, the capability of the hot water supply device 1 can be sufficiently exhibited, and at the same time, failures can be reduced. Can be planned. Further, a thermistor for measuring the temperature, water temperature, and the like can be omitted.
[0083]
In addition, since the information about the time is taken in through the communication network 4 and the optimal operation control is executed based on the information, the capability of the hot water supply apparatus 1 can be sufficiently exhibited. For example, the temperature control, freezing prevention control, linting control, and the like of the hot water supply device 1 can be optimally performed, and the set temperature of hot water supply and bath can be switched between summer and winter. Further, in the case of the hot water supply device 1 having an air conditioner function, that is, a hot water supply device connected to a terminal device that performs heating by circulating hot water and cooling by refrigerant gas, the operation such as cooling, drying, and heating can be switched according to the season. it can. In addition, the initial setting values of the air conditioner and floor heating save operation and capacity switching can be changed according to the season.
[0084]
In addition, since information on the amount of consumption of gas, water, electricity, and the like is acquired via the communication network 4, each user can access the server of the gas, water, electricity, etc. individually, at any time, without having to access the server. The usage amount and the charge can be known, and the usability is improved.
[0085]
In addition, since the health check is performed by the server 3 and the home electric appliance 2 based on the health information measured by the hot water supply device 1, the user has to troublesomely measure and transmit the health information by himself. No, you can always know your health level.
[0086]
Further, since information about the life of the hot water supply device 1 is transmitted from the hot water supply device 1 to the server 3, a manufacturer or a service organization can automatically search for the hot water supply device 1 whose service life is approaching, and without having to bother the user. And the service organization can approach the user. As a result, the replacement of the hot water supply device 1 can be promoted before the end of its life and serious failure or performance degradation occurs.
[0087]
Further, since information about the failure of the hot water supply device 1 is transmitted from the hot water supply device 1 to the server 3, the cause of the failure can be accurately estimated, and appropriate and prompt after-sales service can be performed. In addition, since the service call is not necessarily a failure, by storing information on the long-term failure and analyzing the use state of the hot water supply device 1, an appropriate answer can be provided to the user.
[0088]
In addition, since information about the operation mode of the water heater 1 is transmitted from the water heater 1 to the server 3, even if an instantaneous power failure occurs while the water heater 1 is in use, the user does not need to bother the user before the power failure. Operation mode can be quickly and reliably returned to. When the power outage is resolved, the user may be inquired of whether to return to the operation mode before the power outage, using the display device 28 of the home electric appliance 2 or the like.
[0089]
Further, since information about the setting of the hot water supply device 1 is transmitted from the hot water supply device 1 to the server 3 or the home electric appliance 2 and stored in the database of the hard disk device 5 or the EEPROM 24 of the home electric appliance 2, When replacing a board, information about the setting can be easily taken in a new board, and the replacement operation can be performed quickly without error.
[0090]
In the above embodiment, the EEPROMs 12 and 24 are used as the non-volatile memory of the control unit of the water heater 1 and the home electric appliance 2, but other non-volatile memories such as a flash memory, FeRAM, MRAM, and OUM are used. Is also good.
[0091]
In the above embodiment, the remote control screen is displayed on the display screen of the display device 28 of the home electric appliance 2 and the hot water supply device 1 is remotely operated by the operation unit 29. And a remote operation by a voice recognition function.
[0092]
【The invention's effect】
As described above, according to the present invention, the control program is downloaded from the server via the communication network for each operation, and the operation is performed based on the control program, so that all functions of the water heater are realized. Since it is not necessary to previously store all the control programs necessary for the control in the memory, the capacity of the memory of the water heater for storing the control programs can be reduced.
[0093]
Further, according to the present invention, the control means of the water heater supplies the user's instruction to the operation screen displayed on the display screen of the home appliance based on the remote control program downloaded from the server to the home appliance via the communication network. Since the remote control is performed in response to the operation, the user can remotely control the hot water supply device with the home electric device without having to go to the installation position of the remote controller.
[Brief description of the drawings]
FIG. 1 is a conceptual explanatory diagram of a network type hot water supply system of the present invention.
FIG. 2 is a circuit block diagram of a control unit of the water heater.
FIG. 3 is a circuit block diagram of a control unit of the home electric appliance.
FIG. 4 is a flowchart illustrating an operation of a CPU when the water heater is operated.
[Explanation of symbols]
1 Hot water supply device
2 Home appliances
3 Server
4 Communication network
5 Hard disk drive
11 CPU
12 EEPROM
13 RAM
17 Communication unit
21 CPU
24 EEPROM
27 Communication unit
28 Display device
29 Operation unit

Claims (20)

A global IP address is assigned, and it is possible to communicate with a management server via a communication network, download a control program from the server via the communication network for each operation, and perform an operation based on the control program. A hot water supply device comprising control means for executing. A global IP address is assigned, and it is possible to communicate with a management server and an arbitrary number of home appliances to which a global IP address is assigned via a communication network, and to be downloaded from the server to the home appliance via the communication network. A hot water supply device comprising: a control unit that is remotely operated in response to a user's instruction operation on an operation screen displayed on the display screen of the home appliance based on the remote control program. The control means requests information on an operation state of the water heater before power-off from the server when the power of the water heater is turned on, and transmits information on an operation state before power-off from the server via the communication network. The hot water supply device according to claim 1, which receives the water. The water heater according to any one of claims 1 to 3, wherein the control unit downloads information related to weather in an area where the water heater is installed via the communication network, and varies an operation state based on the information. The water heater according to any one of claims 1 to 4, wherein the control unit downloads information on a date and time of an area where the water heater is installed via the communication network, and varies an operation state based on the information. It has a notification means,
The hot water supply according to any one of claims 1 to 5, wherein the control unit downloads information on an energy usage amount and / or a usage fee of the hot water supply device via the communication network and notifies the information to the notification unit. apparatus. After the hot water supply device is installed, the control means transmits setting state data of the hot water supply device to the server and / or the home electric appliance via the communication network to store the setting state data in the storage means of the server and / or the home electric appliance. The hot water supply apparatus according to claim 1, wherein the setting state data stored in the storage unit is acquired via the communication network as needed. 8. The control device according to claim 1, wherein the setting state data of the water heater is updated by the server via the communication network, and the operation state is changed based on the updated setting state data. 9. Water heater. Has health management data measurement means,
2. The control unit transmits the measurement data obtained by the health management data measurement unit to a predetermined host device via the communication network, and stores the measurement data in a storage unit of the host device. 3. A hot water supply apparatus according to any one of claims 1 to 8. The water heater according to any one of claims 1 to 9, wherein the global IP address is an address corresponding to IPv6. A control program for controlling the water heater can be communicated with an arbitrary number of water heaters provided with a global IP address via a communication network, and the hot water heater is controlled via the communication network for each operation of the water heater. A server characterized in that it is supplied to a device. The server according to claim 11, wherein when the control program is supplied to the water heater through the communication network, if the control program has update information, the server transmits the update information with the update information added. A remote control program capable of communicating with an arbitrary number of water heaters and home appliances to which a global IP address is assigned via a communication network, and displaying an operation screen for remotely operating the water heater on a display screen of the home appliance. Server to the home appliance via the communication network. The server according to any one of claims 11 to 13, wherein at a predetermined timing, data relating to the life of the water heater is requested to the water heater via the communication network. First storage means for storing control data of the water heater for the latest predetermined period;
The server according to any one of claims 11 to 14, further comprising a second storage unit configured to store control data of the hot water supply device when abnormality occurrence data is received from the hot water supply device. An arbitrary number of water heaters provided with a global IP address;
An arbitrary number of home appliances which are provided with a global IP address and have display means;
A server for managing the water heater,
A communication network that connects the hot water supply device, the home appliance, and the server so that they can communicate with each other,
A network-type hot water supply system, wherein a control program for controlling the hot water supply device is downloaded from the server to the hot water supply device via the communication network for each operation of the hot water supply device. An arbitrary number of water heaters provided with a global IP address;
An arbitrary number of home appliances which are provided with a global IP address and have display means;
A server for managing the water heater,
A communication network that connects the hot water supply device, the home appliance, and the server so that they can communicate with each other,
Downloading a remote control program for remotely controlling the water heater from the server to the home appliance via the communication network,
A network-type hot water supply system, wherein the hot water supply device can be remotely operated using an operation screen displayed on a display screen of the home electric appliance by the remote control program. 17. The water heater and / or the household electrical appliance download information on energy consumption and / or usage fee of the water heater through the communication network, and notify the information to a predetermined notification unit. 18. A network-type hot water supply system according to item 17. After installing the hot water supply device, the hot water supply device transmits setting state data of the hot water supply device to the server and / or the home electric appliance via the communication network, and the server and / or the home electric appliance receive the setting state data. The storage device according to any one of claims 16 to 18, wherein the setting state data is stored in its own storage means, and when there is a request for the setting state data from the water heater, the setting state data is read from the storage means and transmitted to the water heater. A network-type hot water supply system according to item 1. The hot water supply device has a health management data measurement unit, and transmits measurement data obtained by the health management data measurement unit to a predetermined host device and / or the home appliance, and transmits the measurement data to the host device and / or the home appliance. 20. The network-type hot water supply system according to claim 16, wherein the measurement data is stored.

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