JP2003322398A - Burning appliance - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a burning appliance with a signal converting means for using maintenance signals for the remote controlling of the burning appliance. <P>SOLUTION: In the burning appliance 20 to be remotely controlled with a remote controller, maintenance signals are used for the remote control of the burning appliance 20 by converting the monitor signals in the maintenance received from the burning appliance 20 to signals for extending the transmission distance and transmitting the signals to the remote controller 70. <P>COPYRIGHT: (C)2004,JPO

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a combustion device which is remotely controlled by a remote controller and is monitored.

[0002]

2. Description of the Related Art Conventionally, a combustion equipment maintenance system has been devised which is composed of a combustion equipment for outputting status information and failure information of the combustion equipment and a personal computer for maintaining the combustion equipment for the purpose of maintenance of the equipment. There is. A conventional example is shown in FIG. First, the configuration of the conventional example shown in FIG. 5 will be described. In FIG. 5, reference numerals 1, 8, 10 and 12 are combustion devices, 1 is a master unit, and 8, 10 and 12 are slave units. By controlling the master unit 1, the slave units 8, 10 and 12 are controlled. 2, 3,
Reference numeral 4 is a child device connection terminal of the parent device 1, 5 is a personal computer connection terminal of the parent device 1, 6 is a main body function part of the parent device 1, for example, when the parent device 1 is a water heater It has the original function as the first device. Reference numeral 7 is a combustion device control means including a CPU of the base unit 1. Reference numerals 9, 11, and 13 are parent machine connection terminals of the child machines 8, 10, and 12. Reference numeral 14 is a personal computer as a maintenance device, 15 is a device connection terminal of the personal computer 14, and 16 is a CPU of the personal computer 14.

Next, the operation of the conventional example shown in FIG. 5 will be described. The personal computer 14 creates an operation state request signal for the parent device 1, the child devices 8, 10 and 12 by the CPU 12 and uses the device connection terminal 15 to output the parent device 1
It is transmitted to the personal computer connection terminal 5 of. The signal received by the personal computer connection terminal 15 is interpreted by the master unit control means 7, and is transmitted to the master unit main body functional unit 6 or the slave units 8, 10, 12.
With respect to the slave unit connection terminals 2, 3, 4 and the master unit connection terminals 9, 1
1, 13 are transmitted. On the other hand, the main unit main body functional unit 6 or the sub units 8, 10 and 12 return their respective operating states to the main unit control means 4. The master unit control means 4 is a CPU via a personal computer connection terminal 5 and a device connection terminal 15.
The requested operation status information is returned to 16.

By the above operation, the personal computer 14 can know the operating state of the combustion equipment 1, 8, 10, 12 and can maintain the combustion equipment 1, 8, 10, 12 with this information. At this time, the communication between the master unit 1 and the personal computer 14 is carried out between the CPUs of the master unit 1 and the personal computer 14, that is, the UART serial communication in which the master unit control means 7 and the CPU 12 can be directly connected, and the unbalanced serial communication which is common in personal computer communication. RS232C communication, which is communication, is used.

[0005]

In the conventional example, the communication between the personal computer and the combustion equipment, that is, the communication between the personal computer connection terminal 5 and the equipment connection terminal 15 is carried out from the personal computer 14 by the combustion equipment 1, 8, 10, 12. However, there was no idea to use this mechanism as a combustion device for a remote control system. This maintenance connection terminal and its communication specifications are often the same regardless of the type and part number of the equipment, and combustion equipment that uses this mechanism for the remote control system builds a common remote control across the walls of different equipment. It is possible. Further, in equipment such as a water heater, a connection terminal for maintenance and its communication specifications are often defined throughout the industry, and it is possible to realize a combustion device that can use a common remote controller regardless of manufacturers.

However, in the conventional example, since UART serial communication or unbalanced serial communication RS-232C communication is used for communication between the personal computer and the combustion equipment,
The communicable distance is about 10 m, which is short for communication between a personal computer installed in a general house and a combustion device. There has been a problem that the demand for remote control or monitoring of combustion equipment, which has been increasing in recent years, cannot be realized because the conventional communication system cannot obtain a sufficient communication distance. In addition, since there are various room configurations in general houses, it is often difficult to connect all rooms with wired communication means, and if you want to mix wired and wireless communication means. There was a problem that we could not respond. In such a case, it is often the case that the communication means is considered only after visiting the installation site. Therefore, from the standpoint of the installer, when extending the communication distance from the RS-232C communication at the installation site, a method capable of selecting various communication means is required.

On the other hand, the communication system mounted on the combustion equipment has a contradiction that it is often UART serial communication or unbalanced serial communication such as RS232C due to a simple circuit configuration and the like, which is a problem. . UART serial communication signals and RS232C installed in combustion equipment
It is extremely effective that the combustion equipment installed in the house can be remotely controlled / monitored from the remote controller installed in the house by using an unbalanced serial communication signal such as.

In order to solve the above-mentioned problems, the present invention uses a maintenance signal from a combustion device, secures a communication distance sufficient for remote control, and can select a signal conversion means according to the installation situation. The goal is to realize a combustion device that can be installed more easily.

[0009]

SUMMARY OF THE INVENTION The present invention is a combustion device which is remotely operated by a remote controller, and is provided with signal conversion means for converting a maintenance monitor signal received from the combustion device into a signal for extending a transmission distance. A combustion device is provided which includes a plurality of conversion signals and selects one of the conversion signals output from the plurality of signal conversion units and transmits the selected maintenance signals to the remote controller by using the maintenance signal for remote operation of the remote controller. In addition, the signal converting means is a separate casing that is inserted between the combustion device and the remote controller to make the signal converting means replaceable.

[0010]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The invention described in claim 1 is a combustion device which is remotely operated by a remote controller, and a signal conversion for converting a maintenance monitor signal received from the combustion device into a signal for extending a transmission distance. Equipped with a plurality of means,
1 from the converted signals output from the plurality of signal converting means
By using the monitor signal of the maintenance for the remote operation of the remote controller by using the selecting means for selecting one and transmitting it to the remote controller, the communication distance can be secured and the signal converting means can be selected according to the installation situation. It is possible to realize a combustion device that can be installed more easily.

According to a second aspect of the invention, the selection means is
By receiving one of the signals from the remote controller and selecting one of the plurality of signal converting means, it is possible to realize a combustion device that can be easily set.

[0012] The invention described in claim 3 is a combustion equipment U
By converting an ART serial communication signal or an unbalanced serial communication signal into a balanced serial communication signal, it is possible to realize a combustion device that uses a maintenance signal for remote operation of the device.

The invention described in claim 4 is a combustion equipment U
By converting an ART serial communication signal or an unbalanced serial communication signal into a specific low power wireless communication signal, it is possible to realize a combustion device that uses a maintenance signal for remote operation of the device.

The invention described in claim 5 is a combustion equipment U
By converting the ART serial communication signal or the unbalanced serial communication signal into the power line carrier wireless communication signal, it is possible to realize a combustion device that uses the maintenance signal for remote operation of the device.

The invention described in claim 6 is a combustion equipment U
By converting an ART serial communication signal or an unbalanced serial communication signal into a Bluetooth communication signal, it is possible to realize a combustion device that uses a maintenance signal for remote operation of the device.

The invention described in claim 7 is a combustion equipment U
By converting an ART serial communication signal or an unbalanced serial communication signal into an Ethernet communication signal, it is possible to realize a combustion device that uses a maintenance signal for remote operation of the device.

The invention described in claim 8 is a combustion equipment U
By converting an ART serial communication signal or an unbalanced serial communication signal into an Echonet communication signal, it is possible to realize a combustion device that uses a maintenance signal for remote operation of the device.

According to a ninth aspect of the present invention, the remote operation signal received from the remote controller is converted into a maintenance operation signal, and the communication signal is bidirectionally converted between the remote controller and the device, so that the maintenance signal of the device is converted. A combustion device used for remote control can be realized.

According to a tenth aspect of the present invention, a plurality of signal converting means for converting a maintenance monitor signal received from the combustion equipment into a remote monitor signal for extending a transmission distance are provided, and the signal converting means is selected by the selecting means. By transmitting a reply to the remote monitor signal received from one to all the signal conversion means, it is possible to realize a combustion device capable of reporting the current state to all remote controls that can be remotely operated.

According to the eleventh aspect of the present invention, it is possible to monitor which remote controller has issued a remote operation instruction by providing a remote controller that has received a remote operation signal or display means for displaying a maintenance device. A combustion device can be provided.

According to the twelfth aspect of the present invention, it is possible to realize that the signal converting means can be replaced by inserting the signal converting means as a separate casing between the combustion equipment and the remote controller.

The invention described in claim 13 is a program for causing a computer to execute at least a part of the functions of the combustion equipment.

Since it is a program, a part or all of the combustion equipment of the present invention can be easily realized by using a home computer, an information terminal or the like.
Moreover, the program can be easily distributed by recording it on a recording medium or distributing the program using a communication line.

[0024]

EXAMPLES Examples of the present invention will be described below.

(Embodiment 1) First, the construction of the combustion equipment of this embodiment will be described. FIG. 1 is a block diagram showing an embodiment of the overall configuration of a remote control system including the combustion device of this embodiment. In FIG. 1, 20 is a combustion device (hereinafter, referred to as a device) of the present embodiment, 21 is a master device, and 40, 50, 60 are slave devices. In the present embodiment, the parent device 21 is a gas combustion device that produces hot water with gas and supplies water to a bath, kitchen, washroom or the like. Further, the child device 40 is a hot water floor heating device that functions by using the hot water generated by the parent device 21, and the child device 50 is a hot water bathroom drying device that functions by using the hot water generated by 21 and the child device 60.
Indicates an operation device having an operation unit of the master device 21 and installed in a bathroom or the like. The hot water floor heating system is a floor heating system that functions by circulating the hot water boiled in the combustion equipment.The hot water bathroom dryer uses the heat of the hot water boiled in the combustion equipment to dry the clothing and other items in the bathroom. It is a drying device having a function to do. In addition to these, although not described in the present embodiment, as a slave unit, a hot water air conditioner that functions by utilizing the amount of heat of hot water,
A fan heater or the like that functions by utilizing the amount of heat of hot water can be used.

Of course, the equipment 20 may be a water heater such as a gas water heater using electricity for control, an oil water heater, an electric water heater, a heat pump water heater, or the like.

Reference numeral 70 denotes a remote controller for remote control and status monitoring of the device 20, and 80 denotes a relay device installed between the device 20 and the remote controller 70 for converting signals from both devices. Two
2, 23 and 24 are device-to-device connecting means of the master device 21 connected to the slave devices 40, 50 and 60, 25 is a device-to-relay device connecting device of the master device 21 connected to the relay device 80, and 41, 51 and 61 are master devices. The parent device connecting means of the child devices 40, 50 and 60 connected to the device 21 is shown. 71 is a display part of the remote controller 70, 72, 73,
74 and 75 are operation switches of the remote controller 70, and 76 is a relay device connecting means of the remote controller 70 that is connected to the relay device 80. Reference numeral 81 is connection means to the master device of the relay device connected to the base device 21, 82, 83 and 84 are connection means to the remote control device of the relay device 80 connected to the remote controller 70, and 85 is the relay device 80.
The maintenance terminal of is shown.

2 is a detailed block diagram of the device 20 of this embodiment, FIG. 3 is a detailed block diagram of the remote controller 70 of this embodiment, and FIG. 4 is a detailed block diagram of the relay device 80 of this embodiment.

In FIG. 2, reference numeral 26 denotes a main body function part having functions such as boiling water and hot water, which are main body functions of the base unit 21, and 2.
Reference numeral 7 denotes a master unit control means including a CPU of the master unit 21, and the like.
Is a parent device information storage means for storing the operating state and failure information of the parent device 21, 29 is a child device control means for controlling the child devices 40, 50 and 60, and 30 is a remote controller 70.
A transmitting / receiving means for transmitting and receiving is shown. Also, 42, 52,
Reference numeral 62 denotes a slave unit control means including CPUs of the slave units 40, 50 and 60, and 43, 53 and 63 denote slave unit main body functional units having respective main body functions of the slave units 40, 50 and 60.

FIG. 3 shows a detailed block diagram of the remote controller 70. In FIG. 3, reference numeral 77 is a remote controller control means constituted by the CPU of the remote controller 70, 78 is a timer setting means, 79
Indicates a transmitting / receiving means for transmitting / receiving to / from the relay device.

FIG. 4 is a detailed block diagram of the relay device 80. In FIG. 4, reference numeral 86 is a relay device control means constituted by the CPU of the relay device 80, 87, 88 and 89 are signal conversion means, 90, 91 and 92 are transmission / reception means for transmitting / receiving with the remote controller 70, and 93 is transmission / reception with the master device 21. Sending and receiving means, 94
Is a timer means, 95 and 96 are priority setting means A, and priority setting means B and 97 are selection means.

Next, the operation of this embodiment will be described. When controlling on / off of the main unit (combustion device) 21, temperature setting, water amount setting, automatic bath hot water filling, etc., a slave unit (hot water floor heating device) 40 and a slave unit (hot water bathroom dryer) 50 When performing control such as on / off and temperature setting, remote control is performed from a remote controller 70 which is not necessarily installed near the parent device 21 and the child devices 40 and 50. For example, the operation switch 72 is operated to control ON / OFF of the master unit. When setting the temperature of the hot water, the operation switch 73 is operated. In addition, child machine (hot water floor heating system) 4
To control ON / OFF of 0, the operation switch 74 is operated. In addition, when controlling the on / off of the child device (hot water bathroom dryer) 50, the operation switch 75
To operate. When performing other functions, control is performed by operating the operation switches not shown.
In addition, the operating state, the setting state, the failure state, and the history of these of the master device 21 and the slave devices 40 and 50 are not necessarily the master device 21 and the slave device 4.
Remote monitoring is performed with the remote controller 70 not installed near 0 and 50.

The locations of these units are, for example, the base unit 2
It is possible to install 1 on the pipe shaft of an apartment or an outdoor wall. In addition, child device 40 (hot water floor heating device)
It is possible to install the device in a living room, a bedroom, a child's room, a study, etc., the child device 50 (hot water bathroom dryer) in the bathroom, and the child device (operating device) 60 in the bathroom. Also, the remote controller 70
Can be installed in the kitchen, living room or corridor.

The detailed operation of this embodiment will be described below. Maintenance information, operation state information, setting information, failure information and history information of the slave unit (hot water floor heating device) 40 are transmitted from the slave unit control means 42 via the master unit connecting means 41 and the slave unit connecting means 22. It is stored in the child device information storage means 31. Also,
Maintenance information, operating state information, setting information, failure information, and history information of the parent machine are stored in the parent machine information storage means 28.
Here, the maintenance information is information indicating the states of the parent device and the child device, and is, for example, the combustion temperature of the heater, the rotation speed of the fan, the amount of water that can be turned into hot water, the amount of running water of the pipe in the device, and the like. In addition, the operating state information and information indicating whether the parent device or the child device is currently in the on state, in the off state, or in the standby state. The setting information is the setting information of the parent device and the child device such as the temperature setting value of boiling hot water, the boiling flow rate setting value, and the automatic hot water filling setting state. Further, the failure information is information on the currently failed parts. The history information is information indicating the history of various information described above. The master unit 20 transmits the information stored in the slave unit information storage unit 31 and the master unit information storage unit 28 from the transmission / reception unit 30, and receives the information by the transmission / reception unit 93 via the relay device connection unit and the master unit connection unit 81. , To the relay device control means 86.

In this embodiment, the communication between the transmitting / receiving means 30 and the transmitting / receiving means 93 is assumed to be unbalanced serial communication. The relay device control means 86 transfers the signal transmitted to the relay device 80 to the signal conversion means 87, 88, 89, and the signal conversion means 87, 88, 89 converts the unbalanced serial communication signal and various communication signals. In the unbalanced serial communication, for example, the RS232C system has a communicable distance of about 10 m, and there is a limit to where it can be used. However, conversion to various communication signals enables communication of several hundred meters.

In this embodiment, the signal conversion means 87 converts an unbalanced serial communication signal and a balanced serial communication signal such as RS422 or RS485. Further, the signal conversion means 88
Converts unbalanced serial communication signals and specified low power wireless communication signals. Further, the signal converting means 89 converts an unbalanced serial communication signal and an Ethernet communication signal. Besides this, although not described in the present embodiment, it is conceivable to convert an unbalanced serial communication signal and a power line carrier communication signal, a Bluetooth communication signal, an Echonet communication signal and the like. Here, the signal converting means 87 which normally performs balanced serial communication is selected by the selecting means 97 in accordance with the situation in the house where the remote controller 70 is installed, and the selecting low power radio is selected by the selecting means 97 in the field where wired connection is difficult. The signal conversion means 88 for communication is selected, and if the home already has an Ethernet network, the selection means 97 selects the signal conversion means 89 for Ethernet communication. In this way, by selecting the signal converting means by the selecting means 97, it is possible to perform the installation work according to the situation in the house. The selection means 97 is, for example, a switch and is selected by the installer.

Further, in this embodiment, the signal converting means 87, 8
Although the configuration is such that the relay devices 8 and 89 and the relay device control means are connected to each other through dedicated paths, the configuration may be such that the relay device control means is connected to a plurality of signal conversion means via a common route. In this case, the signal transmission from the relay device control means 86 to the signal conversion means 87, 88, 89 divides the signal into appropriate packets, and the first packet is transmitted to the signal conversion means 87 first, not simultaneously, and then To the signal conversion means 88,
Then, the signal is transmitted to the signal converting means 89. Next, the second packet is transmitted to the signal converting means 87, then to the signal converting means 88, and then to the signal converting means 89, from the relay device controlling means 86 to the signal converting means 87, 88. 8
There is a method of transmitting signals to 9 in time series.

Further, there is a system in which the signal converting means used by the selecting means 97 is selected and the relay device controlling means transmits the signal only to the selected signal converting means. Further, the selecting means 97 uses the signal converting means used when receiving the signal transmitted from the remote controller 70 as the relay device controlling means 86.
By detecting the signal input state to the relay device 80, the transmitting / receiving means of the relay device 80 which can be received is detected, and the relay device control means 86 transmits the signal only to the signal converting means connected to the transmitting / receiving means. Thus, the signal conversion means to be used can be automatically selected. As a result, the neutral device control means 86 can minimize the processing time for transmitting and receiving signals, so that it is possible to use the control means having a low processing speed.

The transmitting / receiving means 90, 91, 92 transmit the signals converted in the communication system by the signal converting means 87, 88, 89 to the remote controller 70 via the remote controller connecting means 82, 83, 84.
To the relay device connecting means 76. In this embodiment, there are three sets of the signal conversion means, the transmission / reception means, and the remote control connection means of the relay device 80, but it goes without saying that one set may be provided, or more sets may be provided. . Needless to say, the transmitting / receiving means and the remote-control connecting means may be shared by a plurality of signal converting means.

The information transmitted to the remote controller 70 is transmitted / received by the transmitting / receiving means 7.
It is received at 9 and reaches the remote control means 77. Selection means 9
7 has a function of transmitting, to all of the converting means 87, 88, 89, a reply of a change in the operating state or setting state of the device 20 caused by a remote control signal received from one of the signal converting means 87, 88, 89. In this case, the state change of the device 20 according to the operation information performed by one remote controller can be shared by all the remote controllers. In this way, the device 20
By sharing the state changes of all the remote controllers, it is possible for all the remote controllers to know the state changes caused by other remote controllers.
The state of 0 can be grasped.

Remote control means 77 displays information 7
By displaying the information on the device 1, information on the device 20 can be monitored by the remote controller 70 not necessarily installed near the device 20. In addition, by displaying which remote controller is the remote controller that has instructed the remote control signal on the display unit 71,
It is possible to monitor not only the state change of the device 20 caused by remote operation but also which device the remote operation signal is issued from.

Further, for example, the remote controller control means 77 operates the operation switch 74 to issue a control command for turning on the slave unit 40 from the transmission / reception means 79 in balanced serial communication (eg RS48).
When transmitted in 5), the transmission / reception unit 91 receives the control command of the slave unit 40 via the relay device connection unit 76 and the remote control connection unit 83. The signal converting means 88 is the transmitting / receiving means 9.
1 converts the control command of the slave unit 40 received by the balanced serial communication into the unbalanced serial communication (for example, RS232C), and transmits the unbalanced serial communication from the transmission / reception unit 93 via the relay device control unit 86. The transmission / reception means 30 receives the control command of the slave unit 40 via the master unit connection unit 81 and the relay device connection unit 25, and the slave unit control unit 29 transmits the slave unit 40 as an ON signal to the slave unit 40 via the master unit control unit. Machine connection means 2
3. The slave unit control unit 42 turns on the slave unit main body function unit via the master unit connection unit 41. The ON / OFF control of the parent device 21 and the other child device 50 and the setting control such as the temperature setting can be performed in the same manner.

The maintenance terminal 85 has a function of outputting a maintenance signal of the equipment received by the relay device 80 from the equipment 20, and the maintenance of the equipment 20 is performed by connecting a personal computer or the like to the maintenance terminal 85. Information can be monitored. The device 20 can also be controlled from a personal computer connected to the maintenance terminal 85. Signal for maintenance is base unit 2
1, maintenance information, operating status information, setting information, failure information, and history information of these. Originally, this signal is a signal output from the relay device connection means 25 of the master device 21, and by connecting a personal computer to the relay device connection means 25, the status information of the master device 21 and the slave devices 40 and 50 can be obtained, It is a signal that can control the master device 21 and the slave devices 40 and 50, and is a relay device 80 of this embodiment.
Is configured to output a maintenance signal from the maintenance terminal 85, and even if the master device connection means 81 is connected to the relay device connection means 25, the device can be connected by connecting the personal computer to the maintenance terminal 85. Can be maintained. Further, when the remote-control connecting means 82, 83, 84 and the maintenance terminal 85 are used at the same time, when the priority setting means A95 is set, the output from the remote-control connecting means 82, 83, 84 is output from the maintenance terminal 85 rather than the output. It has the function of prioritizing signals. Further, it has a function of not outputting a signal from the remote control connection means 82, 83, 84 when the priority setting means B is set. Further, when the timer means 94 sets an arbitrary time, a function of transmitting a control signal to the device 20 after a lapse of the time set by the timer means 94 from the time when the relay device 80 receives the control command from the remote controller 70 is provided. Have Further, the timer setting means 78 is a timer means 94.
You can set the set time to. It goes without saying that the device 20 can be controlled from an outdoor PDA, mobile phone, personal computer or the like via the remote control 70 by connecting to the web from the remote control, or the information of the device 20 can be monitored by an outdoor PDA, mobile phone, personal computer or the like. Yes. In this embodiment, the signal conversion means 87, 88,
Although 89 is mounted in the relay device 80 and is mounted in a separate housing from the device 20, the signal converting means 87, 88, 89 may be integrated with the device 20. It goes without saying that 87, 88, 89 or the relay device 80 may be built in the housing of the device 20. Further, it goes without saying that the device 20 may not include any child device and may be configured only by the parent device, and the remote control device 70 may be configured by a personal computer.

[0044]

As described above, in the conventional example, the communication between the personal computer and the combustion device is for maintenance, and the unbalanced serial communication such as the UART serial communication or the RS-232C communication is used. Is as short as about 10 m, and there is an increasing demand for remote control or monitoring of equipment in recent years. However, the conventional method cannot provide a sufficient communication distance and remote control is not possible, and there are various configurations. There was a problem that it was difficult to handle when installing in a general house. However, according to the invention,
Since unbalanced serial communication such as RS232C is used between the device and the relay device, the communicable distance is short, but balanced serial communication such as RS422 and RS485 between the relay device and the remote controller, specific low power wireless communication, By using power line carrier communication, Bluetooth communication, Ethernet communication, Echonet communication, etc., secure a communicable distance of about several hundred meters, and select the signal conversion means according to the installation situation to improve the installability. A combustion device that can be improved can be realized.

[Brief description of drawings]

FIG. 1 is a block diagram showing the configuration of a remote control system including a combustion device according to an embodiment of the present invention.

FIG. 2 is a block diagram showing a configuration of a combustion device that is an embodiment of the present invention.

FIG. 3 is a block diagram showing a configuration of a remote controller that constitutes a remote controller system including a combustion device according to an embodiment of the present invention.

FIG. 4 is a block diagram showing a configuration of a relay device that is an embodiment of the present invention.

FIG. 5 is a block diagram showing a configuration of a conventional example.

[Explanation of symbols]

20 equipment (combustion equipment) 21 Base unit (combustion device body) 40 handset (hot water floor heating system) 50 handset (hot water bathroom dryer) 60 Remote unit (operating device) 70 remote control 71 display means 80 relay device 87, 88, 89 Signal conversion means 97 Selection means

   ─────────────────────────────────────────────────── ─── Continued front page    (72) Inventor Yasuo Yoshimura             1006 Kadoma, Kadoma-shi, Osaka Matsushita Electric             Sangyo Co., Ltd. F term (reference) 5K048 AA02 BA14 DA02 DB01 DC01                       DC03 EB02 EB08 EB12 EB13                       FA07 FB05 HA03 HA21

Claims (13)

[Claims] 1. A combustion device which is remotely operated by a remote controller, comprising a plurality of signal conversion means for converting a maintenance monitor signal received from the combustion device into a signal for extending a transmission distance, and output from the plurality of signal conversion means. Combustion equipment for using the maintenance monitor signal for remote operation of the remote controller using a selecting means for selecting one of the converted signals and transmitting it to the remote controller. 2. The combustion device according to claim 1, wherein the selection means selects one signal conversion means from a plurality of signal conversion means by receiving a signal from the remote controller. 3. The combustion device according to claim 1, wherein the signal conversion means converts a UART serial communication signal or an unbalanced serial communication signal into a balanced serial communication signal. 4. The combustion device according to claim 1, wherein the signal conversion means converts the UART serial communication signal or the unbalanced serial communication signal into a specific low power wireless communication signal. 5. The combustion device according to claim 1, wherein the signal conversion means converts a UART serial communication signal or an unbalanced serial communication signal into a power line carrier communication signal. 6. The combustion device according to claim 1, wherein the signal conversion means converts a UART serial communication signal or an unbalanced serial communication signal into a Bluetooth communication signal. 7. The combustion device according to claim 1, wherein the signal conversion means converts a UART serial communication signal or an unbalanced serial communication signal into an Ethernet (registered trademark) communication signal. 8. The combustion device according to claim 1, wherein the signal converting means converts the UART serial communication signal or the unbalanced serial communication signal into an Echonet communication signal. 9. The signal converting means converts a remote operation signal received from a remote controller into a maintenance operation signal, and bidirectionally converts a communication signal between the remote controller and a device.
The combustion device according to any one of 1 to 8. 10. The signal conversion means comprises a plurality of signal conversion means for converting a maintenance monitor signal received from the device into a remote monitor signal for extending a transmission distance, and the remote monitor received from one of the signal conversion means. The combustion device according to claim 9, further comprising selection means for transmitting a reply to the signal to all the signal conversion means. 11. The signal conversion means according to claim 9, further comprising display means for displaying a remote controller that has received a remote control signal. 12. The combustion equipment according to claim 1, wherein the signal conversion means is inserted as a separate casing between the combustion equipment and the remote controller, and the signal conversion means is replaceable in the previous period. 13. A program for causing a computer to execute a part or all of the functions of the combustion device according to claim 1.