JP2010010779A - Remote controller for water heater and water heater - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a remote controller for a water heater for easily canceling overlap even when a communication carrier wave frequency of a water heater body and an actual frequency of a sound signal carrier wave between remote controllers overlap. <P>SOLUTION: In constructing remote controllers 30A and 30B for a water heater which are used for a water heater 50 provided with a water heater body 1 for storing hot water and have a function to communicate with the water heater body by a communication carrier wave of single frequency and an intercom function of a frequency modulation system, a frequency of the communication carrier wave to the water heater body is resettable to a frequency outside an actual frequency band of the sound carrier wave when receiving a call by the intercom function. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to a remote controller for a water heater having a function of communicating with a water heater body of a water heater using a single frequency communication carrier wave and an intercom function of a frequency modulation method, and a water heater provided with the remote controller for a water heater. is there.

  In a water heater equipped with a water heater body that boils water into hot water and a remote controller that is used to input commands to the water heater body, receive response signals from the water heater body, receive information, etc. The main body is installed outdoors, and the remote controller is installed in a desired hot water supply destination such as a bathroom or kitchen. The power supply to the remote controller in this type of water heater is performed from the water heater main body side using a power line connecting the water heater main body and the remote controller, as described in Patent Document 1, for example. Communication between the water heater body and the remote controller is performed by a single frequency carrier wave using the power line. Normally, the frequency of the communication carrier varies between products, but each product has a specification that allows the variation.

  Nowadays, a water heater having a plurality of remote controllers having an intercom function has been developed in consideration of an accident during bathing. In the water heater, as described in Patent Document 1, for example, a remote controller such as a remote controller installed in a bathroom and a remote controller installed in a kitchen can transmit and receive calls. Transmission / reception between remote controllers is performed by the frequency modulation (FM) method using the above-mentioned power line and using audio signal carriers having different frequencies for each call direction in order to prevent interference.

  If the frequency of the communication carrier wave between the water heater body and the remote controller and the frequency of the audio signal carrier wave between the remote controllers overlap, the communication signal between the water heater body and the remote controller may be adversely affected, or between the remote controllers. The quality of the playback sound of the send / receive voice of the phone deteriorates. For this reason, the frequency of the communication carrier wave and the frequency of the audio signal carrier wave are usually selected in advance so as not to overlap each other in consideration of manufacturing errors of components and the like. The frequency of the sound signal carrier wave by the FM system is determined in advance to what extent by changing the maximum sound (maximum sound pressure level) and the minimum sound (minimum sound pressure level) that can be transmitted and received in advance. It can be estimated.

JP 2004-104290 A

  However, the actual frequency of the audio signal carrier is also affected by variations that are difficult to calculate in advance, such as variations in microphone mounting on the remote controller housing, and the design prediction range May fall off. If the actual frequency of the audio signal carrier deviates from the design prediction range and overlaps with the communication carrier frequency, the communication signal between the water heater main unit and the remote controller will be adversely affected, Sound quality may be degraded.

  The present invention has been made in view of the above circumstances, and even if the frequency of the communication carrier wave with the main body of the water heater and the actual frequency of the audio signal carrier wave between the remote controllers overlap, the hot water is easy to eliminate the overlap. An object is to obtain a remote controller for a device and a water heater using the same.

  A remote controller for a water heater of the present invention that achieves the above object is a remote controller for a water heater having a function of communicating with a water heater body storing hot water and a single frequency communication carrier wave and a frequency modulation intercom function, The frequency of the communication carrier wave to the main body of the water heater can be reset to a frequency outside the actual frequency band of the voice carrier wave when receiving a call by the interphone function.

  In addition, the water heater of the present invention that achieves the above-described object includes a water heater body that stores hot water, a plurality of hot water bodies having a function of communicating with the water heater body using a single-frequency communication carrier wave and a frequency modulation intercom function. Each of a plurality of remote controllers for water heaters, each of which is outside the actual frequency band of the voice carrier when receiving the frequency of the communication carrier wave to the main body of the water heater by the interphone function. The frequency can be reset.

  In the remote controller for a water heater of the present invention, the frequency of the communication carrier can be reset to a frequency outside the actual frequency band of the audio carrier. Therefore, the overlapping of these frequencies adversely affects the communication signal with the main body of the water heater. It is possible to easily prevent the sound quality during transmission / reception between remote controllers from being degraded.

  Hereinafter, embodiments of a remote controller for a water heater and a water heater according to the present invention will be described in detail with reference to the drawings. The present invention is not limited to the embodiments described below.

  FIG. 1 is a functional block diagram schematically showing an example of each of the water heater of the present invention and the remote controller for the water heater of the present invention. The water heater 50 shown in the figure includes a water heater main body 1 for boiling and storing water in hot water, and two water heater remote controllers 30A and 30B having an interphone function. The water heater body 1 includes, for example, a heat source device, a hot water storage tank, a water supply pipe, a hot water supply pipe, and a control device (all not shown), and boil water into hot water under the control of the control device. And hot water is supplied to a desired hot water supply destination. As the heat source device, for example, a heat pump unit, a heater disposed in a hot water storage tank, or the like is used.

  Each of the water heater remote controllers 30A and 30B is connected to the control device of the water heater main body 1 by the power line 5 and is supplied with commercial power from the water heater main body 1 side, and is connected to the control device by a single frequency communication carrier wave. The power line 5 is used to input a command and receive a response signal and information from the control device. Moreover, the remote controllers 30A and 30B for the water heater have a function of performing transmission / reception with each other using the power line 5. That is, each of the water heater remote controllers 30 </ b> A and 30 </ b> B is a remote controller with an interphone function that functions as an input device of the water heater body 1. The water heater remote controller 30A is installed in the bathroom (hereinafter referred to as “bathroom remote controller 30A”), and the water heater remote controller 30B is installed in the kitchen (hereinafter referred to as “kitchen remote controller 30B”).

  The bathroom remote controller 30A includes a housing 10, a frequency mixing / separating unit 11, a communication transmitting / receiving unit 13, a communication control unit 15, a microphone 17, a frequency modulating unit 19, a frequency demodulating unit 21, a speaker housed in the housing 10. 23, a reception frequency detection unit 25, an input / output unit 27, a frequency resetting unit 29, and a power supply circuit unit (not shown). In FIG. 1, for convenience, the housing 10 is indicated by a one-dot chain line.

  The frequency mixing / separating unit 11 is connected to the power line 5 and separates and extracts a communication carrier wave transmitted from the control device of the water heater body 1 and propagating through the power line 5 from the commercial power source, The audio signal carrier wave transmitted from the controller 30B and propagating through the power line 5 is separated from the commercial power source and extracted. In addition, the communication carrier wave transmitted from the communication transmitting / receiving unit 13 and the audio signal carrier wave transmitted from the frequency modulation unit 19 are output to the power line 5 and superimposed on the commercial power source.

  The communication transmitter / receiver 13 demodulates the frequency carrier / separator 11, demodulates the extracted communication carrier wave, and sends it to the communication controller 15. Further, it operates under the control of the communication control unit 15 to create a communication carrier wave of a predetermined frequency and sends it to the frequency mixing / separation unit 11.

  The communication control unit 15 includes a control unit 15a and a storage unit 15b. The control unit 15a controls the operation of the communication transmitting / receiving unit 13 according to the control program and information stored in the storage unit 15b. When the communication transceiver 13 demodulates the communication carrier wave and sends a predetermined signal, the control unit 15a performs predetermined processing according to the signal, for example, displays the operation status of the water heater main body 1 on the input / output unit 27 When an instruction is input from the input / output unit 27, a predetermined process corresponding to the instruction is performed, for example, an instruction to create a communication carrier wave having a single frequency to the communication transceiver 13 is performed.

  On the other hand, in addition to the above control program, the storage unit 15b has a command such as a boiling operation start instruction input from the input / output unit 27, information such as a boiling operation start time input from the input / output unit 27, and the like. Is stored. The storage unit 15b includes a rewritable storage element (not shown), and the rewritable storage element stores a program or information for specifying a frequency of a communication carrier wave to the water heater body 1. The control unit 15a controls the frequency of the communication carrier wave generated by the communication transmitting / receiving unit 13 to a setting value specified by a program or information stored in the rewritable storage element.

  The microphone 17 converts the sound into an electrical signal (sound signal) and sends it to the frequency modulation unit 19, and the frequency modulation unit 19 frequency-modulates the sound signal sent from the microphone 17 to create a predetermined sound signal carrier wave. Send to mixing / separation unit 11.

  The frequency demodulator 21 demodulates the audio signal carrier wave transmitted from the kitchen remote controller 30B and separated and extracted by the frequency mixing / separation unit 11, and sends a predetermined electric signal (audio signal) to the speaker 23. The speaker 23 The audio is reproduced based on the audio signal sent from the frequency demodulator 21. The reception frequency detection unit 25 detects the frequency of the audio signal carrier wave transmitted from the kitchen remote controller 30B, separated and extracted by the frequency mixing / separation unit 11, and sends it to the input / output unit 27.

  The input / output unit 27 includes an input unit, an output terminal, and a display unit (not shown). The input / output unit for the communication control unit 15, a function selection device for using the interphone function, and an interface for frequency resetting described later Functions as a device. The input unit includes, for example, an input key and an input terminal, and the display unit includes, for example, a liquid crystal display panel and a display lamp.

  The frequency resetting unit 29 is connected to the communication control unit 15 and the input / output unit 27. The frequency resetting unit 29 receives the frequency of the communication carrier wave from the frequency resetting device such as a portable computer connected to the input terminal of the input / output unit 27. When there is an instruction to reset the frequency to be reset, the above rewritable storage element is accessed to rewrite the program or information for specifying the frequency of the communication carrier wave. As a result, the setting value when the communication control unit 15 controls the frequency of the communication carrier to the setting value is reset.

  On the other hand, the kitchen remote controller 30B shown in FIG. 1 has the same structure and function as the bathroom remote controller 30A described above, except for the frequency band of the audio carrier used for transmission. About the component of the kitchen remote controller 30B, the same referential mark as the component in the corresponding bathroom remote controller 30A is attached | subjected, and the description is abbreviate | omitted. In the water heater 50, a communication frequency detection unit 40 is connected to the power line 5 in order to detect the frequency of the communication carrier wave between the water heater body 1 and the remote controllers 30A and 30B.

  In the water heater 50 including the water heater body 1, the remote controllers 30 </ b> A and 30 </ b> B, and the communication frequency detection unit 40 described above, the water heater body 1 and the remote controllers 30 </ b> A and 30 </ b> B are connected to the power line 5 as in the conventional water heater. Communication is performed using a single-frequency communication carrier wave. The communication carrier wave transmitted from the control device of the water heater main body 1 propagates through the power line 5 and is separated and extracted from the commercial power source by the frequency mixing / separating unit 11 and then received by the communication transmitting / receiving unit 13 from which a predetermined communication signal is transmitted. Is input to the communication control unit 15. Further, the communication carrier wave generated by the communication transmitting / receiving unit 13 under the control of the communication control unit 15 is sent to the frequency mixing / separating unit 11 and superposed on the power line 5 from here.

  Transmission / reception between the bathroom remote controller 30A and the kitchen remote controller 30B is also performed via the power line 5 in the same manner as in the conventional water heater. The sound is converted into an electric signal (audio signal) by the microphone 17, converted into an audio signal carrier by the frequency modulation unit 19, sent to the frequency mixing / separation unit 11, and the signal is superimposed on the power line 5 from here. The audio signal carrier wave propagated through the power line 5 is separated and extracted from the commercial power source by the frequency mixing / separating unit 11, and then converted into a predetermined electrical signal (audio signal) by the frequency demodulating unit 21 and transmitted to the speaker 23. The sound is reproduced by the speaker 23.

  In the design stage of the water heater 50 that operates in this way, the maximum sound (maximum sound pressure level) and the minimum sound (minimum sound pressure level) that can be transmitted and received between the bathroom remote controller 30A and the kitchen remote controller 30B are defined. Then, the frequency band of the audio signal carrier wave between the remote controllers 30A and 30B is defined. And the frequency of the communication carrier wave between the water heater main body 1 and each remote controller 30A, 30B is selected so that it may not overlap with this frequency band.

  However, in the water heater 50 after installation, the actual frequency band of the audio signal carrier wave between the remote controllers 30A and 30B deviates from the design value due to variations in the attachment of the microphone 17 to the housing 10 and the like. The frequency of the communication carrier between the remote controllers 30A and 30B may overlap with the actual frequency band of the audio signal carrier.

  Therefore, in the water heater 50, the storage unit 15b including the rewritable storage element in each of the bathroom remote controller 30A and the kitchen remote controller 30B, the reception frequency detection unit 25, and the input / output so that the overlap can be eliminated. 27 and a frequency resetting unit 29 are provided so that the frequency of the communication carrier can be reset by the frequency resetting unit 29.

  In resetting the frequency of the communication carrier wave by the frequency resetting unit 29, first, the reception frequency detecting unit 25 detects the actual frequency of the audio signal carrier wave between the bathroom remote controller 30A and the kitchen remote controller 30B. The detection result is output to the input / output unit 27, and the actual frequency band of the audio signal carrier wave between the remote controllers 30A and 30B is obtained. For example, each of the remote controllers 30A and 30B is configured such that the detection result of the reception frequency detection unit 25 is displayed on the display unit of the input / output unit 27, and on the basis of the display, the human can detect the actual frequency band of the audio signal carrier. Alternatively, an output terminal for outputting the detection result of the reception frequency detection unit 25 is provided in the input / output unit 27, and a predetermined device is connected to the output terminal so that the device can actually detect the audio signal carrier. Each of the remote controllers 30A and 30B may be configured to automatically obtain and output the frequency band.

  When there is a remote controller in which the actual frequency band of the audio signal carrier wave overlaps with the frequency of the communication carrier wave with the water heater main body 1, a program for designating the frequency of the communication carrier wave to the water heater main body 1 for the remote controller or Rewrite the information and reset the frequency. At this time, a frequency resetting device such as a portable computer is connected to the input / output unit 27. Then, the operator of the frequency resetting device inputs a command to reset the frequency of the communication carrier wave to the water heater body 1 to a predetermined frequency, that is, a frequency outside the actual frequency band of the audio signal carrier wave, A frequency reset command is input to the frequency resetting unit 29 from the frequency resetting device.

  The frequency resetting unit 29 that has received the above instruction accesses the storage unit 15b of the communication control unit 15, and sets the program or information stored in the rewritable storage element in the storage unit 15b, that is, the frequency of the communication carrier wave. The designated program or information is rewritten, and the frequency of the communication carrier wave to the water heater body 1 is reset to a frequency outside the actual frequency band of the audio signal carrier wave. Hereinafter, the resetting of the frequency of the communication carrier wave to the water heater body 1 will be described in detail by giving a specific example.

  FIG. 2 is a flowchart showing a specific example of a procedure for resetting the frequency of the communication carrier wave to the water heater body. In the example shown in the figure, Steps S1 to S7 are sequentially performed to reset the frequency of the communication carrier wave to the water heater main body 1 for each of the bathroom remote controller 30A and the kitchen remote controller 30B shown in FIG. It is assumed that the input / output unit 27 of each remote controller 30A, 30B is provided with an output terminal for outputting the detection result of the reception frequency detection unit 25 (see FIG. 1). In FIG. 2, the remote controller is abbreviated as “remote controller”.

In step S1, which is performed first, the actual frequency F _KB of the audio signal carrier when transmitting at a standard sound pressure level from the kitchen remote controller 30B to the bathroom remote controller 30A is measured. For example, a synthesized voice with a standard sound pressure level is input from a predetermined device to the microphone 17 of the kitchen remote controller 30B, and the frequency of the audio signal carrier at this time is detected by the reception frequency detector 25 of the bathroom remote controller 30A. The data is output to the input / output unit 27 (see FIG. 1). In addition, a frequency measuring device that automatically obtains and outputs the actual frequency and frequency band of the audio signal carrier is connected in advance to an output terminal that is provided in the input / output unit 27 and outputs the detection result of the reception frequency detection unit 25. In addition, the frequency F _KB can be obtained by the frequency measuring device.

In the next step S2, the actual frequency band (modulation frequency usage range) of the audio signal carrier wave from the kitchen remote controller 30B to the bathroom remote controller 30A is obtained. For example, the minimum frequency (minimum sound pressure level) and the maximum sound (maximum sound pressure level) in the specification are sequentially input to the microphone 17 of the kitchen remote controller 30B, and the frequency band of the audio signal carrier corresponding to each sound is obtained. The actual frequency is individually detected by the reception frequency detection unit 25 of the bathroom remote controller 30A and output to the input / output unit 27. After obtaining the fluctuation range ΔF _KB of the frequency of the audio signal carrier from these detection results, It can be calculated by the following equation (i) using the width ΔF _KB .
(F _KB −ΔF _KB ) ≦ F _KB ≦ (F _KB + ΔF _KB ) (i)

(F _KB −ΔF _KB ) in the above formula (i) is the lowest frequency F _KB L of the audio signal carrier when transmitting from the kitchen remote controller 30B to the bathroom remote controller 30A. F _KB + ΔF _KB ) is the maximum frequency F _KB H of the audio signal carrier wave when transmitting from the kitchen remote controller 30B to the bathroom remote controller 30A. The specified minimum voice (minimum sound pressure level) and maximum sound (maximum sound pressure level) are sequentially input to the microphone 17 of the kitchen remote controller 30B, and the actual frequency band of the audio signal carrier is automatically set by the above-mentioned frequency measuring device. It is also possible to ask for it.

In the next step S3, the actual frequency F _BK of the audio signal carrier when transmitting at a standard sound pressure level from the bathroom remote controller 30A to the kitchen remote controller 30B is measured. The measurement of the frequency F _BK is performed in the same manner as the measurement of the frequency F _{KB in} step S1.

In step S4, the actual frequency band (modulation frequency use range) used for the audio signal carrier wave from the bathroom remote controller 30A to the kitchen remote controller 30B is calculated. For the frequency band, for example, the fluctuation width ΔF _BK of the frequency F _BK of the audio signal carrier wave is obtained in the same manner as when the fluctuation width ΔF _KB is obtained in step S2, and the fluctuation width ΔF _BK is used to obtain the following equation (ii) Can be calculated.
(F _BK −ΔF _BK ) ≦ F _BK ≦ (F _BK + ΔF _BK ) (ii)

(F _BK -ΔF _BK ) in the above formula (ii) is the lowest frequency F _BK L of the audio signal carrier wave when transmitting from the bathroom remote controller 30A to the kitchen remote controller 30B. F _BK + ΔF _BK ) is the highest frequency F _BK H of the audio signal carrier wave when transmitting from the bathroom remote controller 30A to the kitchen remote controller 30B. The specified minimum voice (minimum sound pressure level) and maximum sound (maximum sound pressure level) are sequentially input to the microphone 17 of the bathroom remote controller 30A, and the actual frequency band of the audio signal carrier is automatically detected by the frequency measuring device described above. It is also possible to ask for it.

In step S5, based on the calculation result in step S2 and the calculation result in step S4, the optimum frequency of the communication carrier (optimum communication carrier frequency) is determined as necessary. At this time, the optimum frequency of the communication carrier wave is outside the range of the actual frequency band (F _KB L ≦ F _KB ≦ F _KB H) of the audio signal carrier wave from the kitchen remote controller 30B to the bathroom remote controller 30A, and the bathroom remote controller For example, it is determined by the installer of the water heater 50 so as to be outside the range of the actual frequency band (F _BK L ≦ F _BK ≦ F _BK H) of the audio signal carrier wave from 30A to the kitchen remote controller 30B. When the actual frequency band of the audio signal carrier wave is obtained by the above-described frequency measuring device in steps S2 and S4, a predetermined device is connected to the frequency measuring device and the optimum frequency of the communication carrier wave is automatically obtained by the device. It is also possible.

For example, the frequency F _KB measured in step S1 is 230 kHz, the fluctuation width ΔF _KB calculated in step S2 is ± 30 kHz, the frequency F _BK measured in step S3 is 300 kHz, and the fluctuation width ΔF _BK calculated in step S4 is ± 35 kHz. If there is, the actual frequency band of the audio signal carrier when transmitting from the kitchen remote controller 30B to the bathroom remote controller 30A is 200 kHz to 260 kHz, and the audio signal carrier when transmitting from the bathroom remote controller 30A to the kitchen remote controller 30B. The actual frequency band of 265 kHz to 335 kHz. Therefore, the optimum frequency of the communication carrier in this case is appropriately selected from a frequency band higher than 260 kHz and lower than 265 kHz. When the frequency of the communication carrier does not overlap with the actual frequency band of the audio signal carrier, steps S5 to S7 are omitted.

  In step S6, the program or information for specifying the frequency of the communication carrier wave is rewritten for each of the bathroom remote controller 30A and the kitchen remote controller 30B. Specifically, a frequency resetting device such as a portable computer is connected to the input / output unit 27 of the bathroom remote controller 30A, and the frequency of the communication carrier wave to the water heater body 1 is reset to the frequency determined in step S5. A command is input from the frequency resetting device to the frequency resetting unit 29. In addition, a command for resetting the frequency of the communication carrier wave to the water heater body 1 to the frequency determined in step S5 is connected by connecting a frequency resetting device such as a portable computer to the input / output unit 27 of the kitchen remote controller 30B. Input to the frequency resetting unit 29 from the frequency resetting device. As a result, the frequency of the communication carrier wave between the bathroom remote controller 30A and the water heater body 1 (see FIG. 1) and the frequency of the communication carrier wave between the kitchen remote controller 30B and the water heater body 1 are each determined in step S5. The frequency determined in step 3 is reset.

  Then, it progresses to step S7, suitable command is transmitted to the water heater main body 1 from the bathroom remote controller 30A, and the frequency of the communication carrier wave at this time is detected by the communication frequency detector 40. Further, an appropriate command is transmitted from the kitchen remote controller 30B to the water heater body 1, and the frequency of the communication carrier wave at this time is detected by the communication frequency detection unit 40. When these detection results match or do not match the frequency determined in step S5, but are outside the actual frequency band of the audio signal carrier, the frequency resetting operation of the communication carrier is finished, and the audio signal When it overlaps with the actual frequency band used for the carrier wave, the above steps S5 and after are repeated.

  Thus, in the water heater 50, the frequency of the communication carrier wave from each remote controller 30A, 30B to the water heater body 1 can be reset by each remote controller 30A, 30B. Even if the actual frequency band of the audio signal carrier wave between the remote controllers 30A and 30B deviates from the design value and overlaps with the frequency of the communication carrier wave to the water heater body 1, the frequency of the communication carrier wave and the frequency of the audio signal carrier wave Can be easily eliminated. Therefore, when these frequencies overlap, a communication signal between the water heater main body 1 and each of the remote controllers 30A and 30B is adversely affected, and sound quality during transmission / reception between the remote controllers 30A and 30B is deteriorated. This can be easily prevented.

  As mentioned above, although the remote controller for water heaters and the water heater of the present invention have been described with reference to the embodiments, the present invention is not limited to the above-described embodiments. For example, the remote controller for a water heater of the present invention may be basically changed as long as it has an interphone function and a function of resetting the frequency of a communication carrier wave to the main body of the water heater, and the configuration can be changed as appropriate. It is. A function of automatically rewriting the frequency of the communication carrier wave to the water heater main body 1 without using the frequency resetting device described in the embodiment can be given to the frequency resetting unit 29 (see FIG. 1). Also, the reception frequency detection unit 25 (see FIG. 1) may detect the frequency of the audio signal carrier during reception, or may be a terminal for detecting the frequency by an external device. Good.

  The water heater of the present invention includes two or more remote controllers for the water heater of the present invention, and communication between these remote controllers and the main body of the water heater and transmission / reception between the remote controllers are the same communication line (including the power line). Basically, any configuration other than the remote controller for the water heater, for example, a configuration related to boiling water or hot water supply, can be selected as appropriate. Further, the communication frequency detection unit 40 (see FIG. 1) described in the embodiment can be an indispensable component or an arbitrary component. The present invention can be variously modified, modified and combined in addition to the above.

  The remote controller for water heater and the water heater of the present invention are suitable as a remote controller and water heater for home or business use.

It is a functional block diagram which shows roughly an example of each of the water heater of this invention, and the remote controller for water heaters. It is a flowchart which shows one specific example of the procedure at the time of resetting the frequency of the communication carrier wave to a water heater main body with each remote controller shown in FIG.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Water heater main body 5 Power line 11 Frequency mixing / separation part 13 Communication transmission / reception part 15 Communication control part 17 Microphone 19 Frequency modulation part 21 Frequency demodulation part 23 Speaker 25 Received frequency detection part 27 Input / output part 29 Frequency resetting part 30A Remote for water heaters Controller (bathroom remote controller)
30B Water heater remote controller (kitchen remote controller)
40 Communication frequency detector 50 Water heater

Claims (4)

A remote controller for a water heater having a function of communicating with a water heater body for storing hot water using a single frequency communication carrier wave and a frequency modulation intercom function,
A remote controller for a water heater, wherein a frequency of a communication carrier wave to the water heater main body can be reset to a frequency outside an actual frequency band of a voice carrier wave when receiving a voice by the intercom function. A communication control unit for controlling the frequency of the communication carrier to a set value;
A frequency resetting unit for resetting the set value;
The remote controller for a water heater according to claim 1, comprising: A water heater comprising a water heater main body for storing hot water, and a plurality of water heater remote controllers having a function of communicating with the water heater main body using a single frequency communication carrier wave and a frequency modulation intercom function,
Each of the plurality of remote controllers for water heaters can reset the frequency of the communication carrier wave to the main body of the water heater to a frequency outside the actual frequency band of the voice carrier wave when receiving the voice by the intercom function. A water heater. Each of the plurality of remote controllers for water heaters
A communication control unit for controlling the frequency of the communication carrier to a set value;
A frequency resetting unit for resetting the set value;
Having
The water heater according to claim 3.

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