JP2005159988A - Electric control system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a hot-water supply system in which information for analyzing a factor of noise or the like is surely acquired by accurately detecting the occurrence of sudden noise. <P>SOLUTION: The hot-water supply system includes a main body 1 of a water heater for performing hot-water supply control operation and a bathroom remote controller which is separately provided in the main body 1 of the water heater, for controlling the main body 1 of the water heater, wherein the main body 1 of the water heater or the bathroom remote controller 2 is provided with an EEPROM 27 for storing information and a bathroom side microcomputer 26 which monitors the occurrence of noise at intervals of a predetermined time to create information relating to the situation of noise occurrence, and the bathroom side microcomputer 26 stores the information relating to the situation of noise occurrence into the EEPROM 27 and outputs to the outside the information relating to the situation of noise occurrence stored in the EEPROM 27. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

  The present invention relates to an electric control system in which, for example, a hot water supply system that performs a hot water supply control operation using a microcomputer is exemplified.

Conventionally, an electric control system as a hot water supply system capable of hot water supply control operation such as hot water supply (see, for example, Patent Document 1) includes, for example, a hot water supply device main body and a bathroom remote controller or a kitchen remote controller (hereinafter, “ Some are configured with a bathroom remote control etc.). The main body of the hot water supply device includes a combustion unit including heat exchangers for general hot water supply, bath reheating, and hot water heating, and a control unit (microcomputer) that controls the combustion unit. The bathroom remote control and the like are for remotely operating the hot water supply operation of the hot water supply apparatus main body. These include an operation unit having a plurality of operation switches, a display unit having a liquid crystal display, and an input operation of the operation switches. A remote control control unit (microcomputer) is provided for receiving or displaying the driving operation state on the display unit.
JP-A-6-315190

  In such a hot water supply system, when a user presses an operation switch provided in a bathroom remote controller or the like, a hot water supply control operation assigned to the operation switch is performed. For example, in the case where an operation switch such as a bathroom remote control is provided with an operation switch for enabling hot water supply control operation, when the user presses the operation switch for the operation switch, the operation switch is connected. The remote controller control unit detects an input from the operation switch and sends a message to that effect to the hot water supply apparatus main body, whereby the hot water supply main body can perform a hot water supply control operation.

  However, depending on the environment in the general house where the hot water supply system is installed, for example, noise may be mixed through an input terminal to which the operation switch is connected in the remote control unit. In rare cases, when the noise is mixed, the control unit may erroneously recognize that the operation switch has been pressed by the user due to the noise, and may cause the hot water supply device body to malfunction.

  Therefore, in order to prevent such malfunction of the hot water supply control operation, it is conceivable to suppress the mixing of the noise. However, in order to suppress the mixing of noise, the noise is first observed and noise is generated. It is necessary to specify the noise form such as the noise generation source and the noise type to some extent from the time trend and to take appropriate measures accordingly. In order to observe noise, for example, a method can be considered in which a measuring device such as an oscilloscope is installed in the field and connected to a hot water supply device main body or a bathroom remote controller. However, since noise often occurs suddenly, it may take a long time to observe the noise, and it is difficult to accurately observe the state in which the noise is mixed.

  The present invention has been conceived under the above circumstances, and it is possible to accurately detect the occurrence of sudden noise and reliably acquire information for analyzing the cause of the noise. It is an object of the present invention to provide an electric control system that can be used.

  In order to solve the above problems, the present invention takes the following technical means.

  According to the electric control system provided by the present invention, a main body device for performing a predetermined control operation, and an operating device for operating the main body device provided integrally or separately with the main body device The main body device or the operation device includes: a noise monitoring unit that monitors the generation of noise; a storage unit that stores information; and a noise monitoring unit that receives information from the noise monitoring unit every predetermined time. Noise information creating means for creating information on noise occurrence status based on output, control means for storing information on noise occurrence status created by the noise information creating means in the storage means, and storage means by the control means Output means for outputting information on the noise occurrence state stored in the outside to the outside (Claim 1).

  According to this configuration, noise generation is monitored by the noise monitoring unit, and information related to the noise generation state, for example, the number of occurrences of noise per predetermined time is stored in the storage unit based on the output of the noise monitoring unit. Since the stored information on the noise occurrence status is output to the outside, for example, after monitoring the occurrence of noise for an appropriate time, the maintenance personnel etc. store the information on the noise occurrence status stored in the storage means at the monitoring time. Can be read and analyzed. For example, a maintenance worker or the like can specify the noise form such as the noise source and the noise type to some extent from the temporal tendency of the noise. Therefore, it is not necessary to continue to observe noise for a long time using a measuring device such as an oscilloscope in the field, and information for analyzing the cause of noise can be acquired reliably and easily.

  According to a preferred embodiment, the operation device includes operation input means for inputting an operation by a user, and the operation input means is connected to an input terminal of the control means, and the noise monitoring The means may monitor generation of noise mixed in an input terminal of the control means (claim 2).

  According to another preferred embodiment, the noise information creating means counts the number of occurrences of noise monitored by the noise monitoring means, and based on the counting result, calculates the noise occurrence number distribution for each predetermined time. You may create as information regarding a noise generation condition (Claim 3).

  According to another preferred embodiment, there may be provided an informing means for informing the outside that noise has been generated when the number of occurrences of noise counted every predetermined time exceeds a predetermined number of times. (Claim 4).

According to another preferred embodiment, it comprises a time measuring means for measuring time,
The noise information creating means may create the noise occurrence count for each predetermined time and the noise occurrence time measured by the time measuring means as information relating to the noise occurrence status.

  According to another preferred embodiment, the information processing apparatus includes an external device connected to the main body device for displaying information on the noise occurrence status, and the output means stores information on the noise occurrence status stored in the storage means. May be output to the external device (claim 6).

  The external device may be a portable terminal device (claim 7). The external device may be a center device connected to the main device via a predetermined communication line (for example, a public telephone line).

  Other features and advantages of the present invention will become more apparent from the detailed description given below with reference to the accompanying drawings.

  Hereinafter, preferred embodiments of the present invention will be specifically described with reference to the accompanying drawings.

  FIG. 1 is a diagram showing an electrical configuration of a hot water supply system as an example of an electric control system according to the present invention. This hot water supply system mainly controls hot water supply in the bathroom or kitchen, and it can detect the noise that occurs suddenly and accurately acquire information for analyzing the cause of the noise. It can be done. Details will be described below.

  This hot water supply system is roughly constituted by a hot water supply apparatus main body 1 and a bathroom remote controller 2 and a kitchen remote controller 3 for remotely operating the hot water supply apparatus body 1. The hot water supply apparatus main body 1 is connected to a bathroom remote controller 2 and a kitchen remote controller 3 via a two-core wire 4.

  The hot water supply device main body 1 is installed, for example, outdoors in a house, and includes a combustion unit including a heat exchanger for hot water supply, bath reheating, or hot water heating, various combustors, various valves, and the like (all not shown). 10 and a control unit 11 that controls the overall operation of the hot water supply apparatus main body 1.

  The control unit 11 is configured by, for example, a printed circuit board on which electronic components are mounted, and includes a microcomputer 12 (hereinafter referred to as “main body side microcomputer 12”), an EEPROM 13 that stores various data as necessary, a communication unit 14, and the like. have. The main body side microcomputer 12 serves as a control center for the hot water supply device main body 1, and is a command sent from an operation execution program stored in a ROM (not shown), a bathroom remote control 2, a kitchen remote control 3, and a heating device (not shown). Based on the signals and detection signals from various sensors, the combustion state of various combustors and the opening / closing of various valves are controlled.

  The communication unit 14 is for communicating with the bathroom remote controller 2 and the kitchen remote controller 3 and is constituted by a modulation / demodulation circuit based on a predetermined modulation / demodulation method. A power supply (for example, DC 15 V) is supplied from the hot water supply body 1 to the bathroom remote controller 2 and the kitchen remote controller 3 via the two-core wire 4, and the data signal modulated in the communication unit 14 is superimposed on the power supply voltage. Then, it is transmitted to the bathroom remote controller 2 or the kitchen remote controller 3 through the two-core wire 4. The data signal transmitted from the bathroom remote controller 2 and the kitchen remote controller 3 via the two-core wire 4 is demodulated by the communication unit 14 and sent to the main body side microcomputer 12. The main body side microcomputer 12 decodes the content of the data signal and executes processing according to the decoded content.

  The communication unit 14 according to the present embodiment can communicate with an I / O box 31 (described later) and a transmission adapter 35 (described later) as an external device (maintenance device) connected to the outside. As will be described later, in this embodiment, in the bathroom remote controller 2, for example, information regarding the occurrence of noise mixed in an operation signal of an operation switch (described later) is stored, but the stored information regarding the occurrence of noise is It is possible to transmit from the bathroom remote controller 2 to the maintenance device via the hot water supply device main body 1.

  That is, when the control unit 11 receives from the maintenance device a command signal that requests transmission of information related to the occurrence of noise, the control unit 11 sends a command signal that requests to transmit information related to the occurrence of noise stored in the bathroom. It has a function of outputting to the remote controller 2. And the control part 11 has a function which transmits it with respect to a maintenance apparatus via the communication part 14, if the information regarding the generation condition of noise is transmitted from the bathroom remote control 2. FIG. Thereby, for example, the maintenance staff can perform various analyzes based on the information regarding the noise generation status transmitted from the hot water supply apparatus main body 1 using the maintenance device, such as the noise generation source and the noise type. The form of noise can be specified to some extent, and necessary measures for removing noise can be applied based on the noise form.

  As shown in FIG. 2, the bathroom remote controller 2 includes a case that is installed in a bathroom and has a waterproof function, and remotely operates the hot water supply apparatus main body 1. As shown in FIG. 1, the bathroom remote controller 2 includes a control unit 21, a communication unit 22, a display unit 23, an operation unit 24, and an audio processing unit 25. The control unit 21 includes a microcomputer 26 (hereinafter referred to as “bathroom-side microcomputer 26”) and an EEPROM 27. A speaker 25 a is connected to the audio processing unit 25.

  The bathroom-side microcomputer 26 controls the bathroom remote controller 2, and performs operation control and data processing of each part based on the execution program stored in the ROM (not shown) and the operation content of the operation part 24 by the user. For example, the hot water temperature, the set temperature of the hot water bath, and the ignition status of the burner are displayed on the display unit 23 as necessary, or voice guidance regarding hot water control operation is output from the speaker 25a as necessary. To do. Moreover, the bathroom side microcomputer 26 has an internal clock (not shown) that can measure the time. When the internal clock is provided in the kitchen remote controller 3, the time information by the internal clock is transmitted from the kitchen remote controller 3 to the bathroom remote controller 2 by communication and displayed on the display unit 23, or in the creation of noise information of the present embodiment. It may be used for this purpose.

  The EEPROM 27 stores various data as necessary. In particular, the EEPROM 27 stores the number of times noise is detected per unit time (for example, one hour) based on a command from the bathroom side microcomputer 26. FIG. 3 shows an example of a table for storing the number of noise detections stored in the EEPROM 27. According to this table, the stored date, time zone, and number of noise detections per unit time are stored, for example, 20 o'clock △ △ month xx day from 7:00 to 8:00 Indicates that noise was detected once, and between 8 o'clock and 9 o'clock indicates that noise was detected twice. Of course, it is possible to increase the amount of data stored in this table as needed, that is, as long as the memory capacity permits. The length of the unit time can be changed and set by a predetermined operation input on the operation unit 24. For example, it can be changed and set every month, every week, every day of the week, every morning or every afternoon, etc. Can do. The length of the unit time may not be constant in different time zones, for example, set to 1 hour in the daytime and 2 hours in the nighttime.

  The communication unit 22 is for communicating with the hot water supply device main body 1 and the kitchen remote control 3, and is configured by a modulation / demodulation circuit based on a predetermined modulation / demodulation method. A data signal transmitted from the hot water supply device main body 1 or the kitchen remote control 3 via the two-core wire 4 is demodulated by the communication unit 22 and sent to the bathroom-side microcomputer 26. Further, the signal modulated in the communication unit 22 is transmitted to the hot water supply apparatus main body 1 or the kitchen remote controller 3 through the two-core wire 4.

  As shown in FIG. 2, the display unit 23 is composed of, for example, a fluorescent tube or a liquid crystal display device in which a large number of phosphors are arranged in a dot matrix. Displays the ignition status and current time.

  The operation unit 24 is operated by a user to input a hot water supply operation, and includes a plurality of operation switches. Specifically, the operation switch 24a for switching the hot water supply operation mode between the on mode and the off mode, the up / down switch 24b for setting the tapping temperature and the water level of the hot water filling, the bathroom remote control 2 and the kitchen remote control 3 A priority switch 24c for switching the operation right of the hot water supply temperature adjustment, a bath automatic switch 24d for automatically performing hot water filling and heat insulation when the user operates, a reheating switch 24e for performing reheating operation, In addition, a call switch 24f for allowing the bather to make a call with a person in the kitchen as necessary, a setting switch 24g for switching the operation mode to perform various settings, and the like are provided.

  The bathroom remote controller 2 is provided with a speaker 25a and a microphone 25b. The speaker 25a and the microphone 25b are used for a call performed by operating the call switch 24f. The sound processing unit 25 converts sound as an analog signal input through the microphone 25b into predetermined sound data as a digital signal, or as a digital signal stored in the EEPROM 27, for example, according to a command from the bathroom side microcomputer 26 Is converted into voice as an analog signal and output from the speaker 25a.

  Here, as shown in FIG. 4, the operation switch 24A of the operation unit 24 (which represents one of the operation switches 24a to 24g shown in FIG. 2 and is referred to as “24A” for convenience in FIG. 4) is connected to the power supply terminal. It is connected to the connected pull-up resistor R and also connected to the input terminal T of the bathroom side microcomputer 26. For this reason, the input terminal T of the bathroom side microcomputer 26 is maintained at a high level in the normal state by the pull-up resistor R, and when the operation switch 24A is turned on by the user, the state of the input terminal T of the bathroom side microcomputer 26 Becomes low level.

  The bathroom-side microcomputer 26 performs sampling control with a cycle of about 10 to 100 msec on the input signal input to the input terminal T corresponding to the operation switch 24A. That is, it is detected whether the level of the operation signal is at a high level or a low level at the time of sampling. Further, as shown in FIG. 5 (a), the bathroom side microcomputer 26 can be operated by the user if the low level state continues for a predetermined number of times (for example, 3 times) or more when sampled. Recognize that it was operated. That is, when the user operates the operation switch, the operation switch is maintained in a pressed state for a certain period of time, so that the operation of the operation switch by the user is detected by performing the sampling control as described above. Yes.

  Also, as shown in FIG. 5 (b), when the bathroom side microcomputer 26 detects that the low level state is sampled once or continuously twice or less when it is sampled, noise is generated. It has a function of recognizing that a low level has been detected due to mixing, and temporarily storing the number of recognized noises in a RAM (not shown). That is, noise is a pulse-like signal that is much shorter than the operation time of the user's operation switch, and therefore usually does not have a pulse width more than three times the sampling period. Therefore, if it is noise, it is assumed that the low level state does not continue for a predetermined number of times (for example, three times) or more continuously when sampling, and the low level state is only once or continuously twice or less. In such a case, it is recognized that noise is mixed.

  The bathroom-side microcomputer 26 temporarily stores the detected number of detected noises in a RAM (not shown) and, as shown in FIG. 3, stores the detected number of detected noises in the EEPROM 27 for each unit time (for example, one hour). It has a function to memorize.

  Further, the bathroom-side microcomputer 26 counts the detected noise every unit time, and when the counted number of detected noises reaches a predetermined number (for example, 5 times), displays that fact on the display unit 23. In addition, it has a function of making a sound and outputting it from the speaker 25a to notify the outside. For example, according to FIG. 3, in the time zone from 16:00 to 17:00, the number of noise detections reaches a predetermined number (5 times). In this case, when the number of noise detections reaches the predetermined number of times. A notification operation is performed.

  When the maintenance device is connected to the hot water supply device body 1 as described above, and the bathroom side microcomputer 26 is requested to transmit information on the occurrence of noise from the maintenance device, the bathroom side microcomputer 26 responds to a command from the hot water supply device body 1. Accordingly, it has a function of sending information related to the noise generation state stored in the EEPROM 27 to the hot water supply device body 1 via the communication unit 22 and the two-core wire 4. In the hot water supply apparatus body 1, information related to the noise generation status sent from the bathroom side microcomputer 26 is sent to the maintenance device.

  The kitchen remote controller 3 has a function similar to that of the bathroom remote controller 2 as described above, and is substantially the same as the configuration of the bathroom remote controller 2, and thus the description thereof is omitted here.

  Next, a control operation when detecting noise in the above configuration will be described with reference to a flowchart shown in FIG. Although the control operation in the bathroom remote controller 2 will be described here, the control operation in the kitchen remote controller 3 is substantially the same.

  First, the bathroom-side microcomputer 26 refers to the internal clock, starts monitoring noise to obtain noise information, and then receives an input signal input from the input terminal T to which the operation switch is connected. Sampling control is performed (S1). That is, as shown in FIG. 5, the bathroom side microcomputer 26 samples the input signal from the operation switch at a cycle of 10 to 100 msec, for example, and detects the input level at the input terminal T at the time of sampling.

  Next, the bathroom side microcomputer 26 determines whether or not the input signal has become a low level during sampling (S2). When it is determined that the low level has been reached (S2: YES), the bathroom microcomputer 26 determines whether or not the low level state has continued for a predetermined number of times (for example, 3 times) or more during sampling (S3). When it is determined that the low level state has continued for a predetermined number of times or more (S3: YES), the bathroom side microcomputer 26 recognizes that the operation by the operation switch has been performed by the user (S4).

  The bathroom-side microcomputer 26 recognizes the hot water supply control content in the operation switch, and sends it to the hot water supply apparatus body 1 through the communication unit 22 and the two-core wire 4 as a command signal. The main body side microcomputer 12 of the hot water supply apparatus main body 1 performs hot water supply operation control according to the command signal transmitted from the bathroom remote controller 2 via the communication unit 14 (S5). For example, when the operation switch 24a is turned on by the user, the bathroom-side microcomputer 26 recognizes the operation and sends a command signal to the hot water supply device main body 1 so that the hot water supply device main body 1 can perform hot water supply operation control. It becomes a state.

  On the other hand, when it is determined in step S3 that the low level is detected at the time of sampling but the low level state is not detected continuously three times or more, that is, only once or only twice even if detected. (S3: NO), the bathroom side microcomputer 26 recognizes that noise has been mixed into the input terminal T of the bathroom side microcomputer 26 (S6). When the bathroom-side microcomputer 26 recognizes that the signal has entered the input terminal T, the bathroom-side microcomputer 26 stores the number of noise detections in a RAM (not shown) as “1” (S7). If the number of noise detections is already stored, “1” is added to the number to detect the number of noise detections.

  Next, the bathroom side microcomputer 26 determines whether or not the number of detected noises stored in the RAM has reached a predetermined number (for example, 5 times) (S8). When it is determined that the number of noise detections has reached a predetermined number (S8: YES), the fact is notified to the outside (S9). That is, the bathroom side microcomputer 26 displays on the display unit 23 that noise has occurred, or outputs the sound through the speaker 25a. Thereby, the user can grasp that noise is frequently generated, and can take measures such as calling a maintenance person, for example.

  After notifying outside in step S9, or when it is determined that the number of noise detections has not reached the predetermined number (S8: NO), the process returns to step S1 and the noise detection operation is continued.

  In step S2, if the bathroom side microcomputer 26 determines that the input signal is not at a low level during sampling (S2: NO), the bathroom side microcomputer 26 determines whether or not a unit time (for example, 1 hour) has elapsed. (S10). If the unit time has not elapsed (S10: NO), the process returns to step S1, and the noise detection operation is continued.

  On the other hand, when the unit time has elapsed (S10: YES), the bathroom side microcomputer 26 restarts the monitoring of noise in the next unit time (S11), and then reads the number of noise detections stored in the RAM and stores it in the EEPROM 27. Newly stored (S12). At this time, as shown in FIG. 3, the bathroom side microcomputer 26 simultaneously stores the time zone measured by the internal clock (and the date if necessary). Then, the process returns to step S1, and the noise detection operation is continued. When the number of noise detections per unit time is equal to or less than a predetermined number (for example, twice), the noise detection times may be set to “0”.

  In this way, noise mixed in the input terminal of the bathroom side microcomputer 26 is detected and the number of detections is stored for each unit time. For example, if the maintenance staff can read and analyze this information, an oscilloscope will be used in the field. It is not necessary to continue to observe noise over a long period of time using a measurement device such as the above, and information for analyzing the cause of noise can be reliably acquired.

  In the above control operation, the number of noise detections is stored every unit time, but the detection time of each noise may also be stored for each detected noise. Thereby, it is possible to grasp in detail the occurrence time of noise, and to improve the accuracy when specifying or predicting the form of noise.

  In the above control operation, the bathroom side microcomputer 26 detects the mixing of noise at the input terminal T of the operation switch. However, the present invention is not limited to this, and detects noise mixed in from other input locations. Also good. For example, you may make it detect the mixing of the noise in the input terminal connected to the display part 23 or the audio | voice process part 25. FIG. Alternatively, an input terminal for noise detection may be provided separately, and noise may be detected using the input terminal. Alternatively, an input terminal of a main body side microcomputer 12 connected to an operation switch provided on a control board (not shown) of the water heater main body 1 and an input of a control microcomputer of a heating device (not shown) connected to the hot water supply system by communication. You may make it detect mixing of the noise in a terminal etc. These input terminals are not limited to general-purpose input terminals that detect the high level or low level of an input signal, and may be analog input terminals having an A / D conversion function.

  Next, a description will be given of a control operation at the time of reading out information related to the noise occurrence state stored at the site (for example, in a general house). As described above, when notification is given that noise has occurred in the bathroom remote controller 2 (see step S9 in FIG. 6), the user calls a maintenance worker, for example, and reads and analyzes the noise by the called maintenance worker. Is done. The reason why the user calls the maintenance staff is not limited to the notification that noise has occurred, but may be that an unintended operation start or operation stop has occurred. Further, it is not always necessary to provide notification means for notifying that noise has occurred.

  FIG. 7 is a diagram illustrating a schematic configuration of an electric equipment system when noise is read out. According to the figure, an I / O box 31 is connected to the hot water supply apparatus main body 1, and a portable terminal device 32 is connected to the I / O box 31. In this case, the I / O box 31 and the portable terminal device 32 constitute a maintenance device.

  The portable terminal device 32 includes a display unit 33 configured by, for example, a touch panel and a liquid crystal display, a control unit (not shown) composed of a microcomputer, and a communication unit (not shown) that communicates with the I / O box 31. In addition, various data can be input by performing an instruction operation on the screen on the display unit 33 displayed by the control unit by, for example, pen input. Then, the built-in software is activated based on the input data, and various setting controls can be performed. The portable terminal device 32 may be a laptop personal computer, for example, instead of the above configuration.

  The I / O box 31 is a device serving as an interface for connecting the hot water supply device main body 1 and the portable terminal device 32, and communication units (not shown) corresponding to the hot water supply device main body 1 and the portable terminal device 32, respectively. I have.

  In this configuration, when the maintenance staff performs an input instruction operation on the portable terminal device 32, the portable terminal device 32 sends information regarding the noise generation status to the hot water supply device body 1 via the I / O box 31. Send a request command signal to request transmission. In this case, since the information on the noise generation status is stored in the EEPROM 27 of the bathroom remote controller 2, the main body side microcomputer 12 of the hot water supply device main body 1 requests to transmit the information on the noise generation status. A signal is sent to the bathroom remote control 2. In response to this, the bathroom-side microcomputer 26 reads information on the noise occurrence state stored in the EEPROM 27 and transmits information on the noise occurrence state to the hot water supply apparatus body 1. The hot water supply device main body 1 once acquires information on the occurrence of noise and transmits it to the portable terminal device 32 via the I / O box 31. Thereby, the portable terminal device 32 acquires information on the noise occurrence state and displays the information on the display unit 33 or notifies the information using a voice output unit (not shown).

  As information regarding the noise generation status, the number of noise detections per unit time is displayed in the form of a table as shown in FIG. The maintenance staff can specify or predict the source of noise, the type of noise, and the like from the temporal tendency of the occurrence of noise based on the information regarding the noise occurrence state. As noise suppression prevention measures identified in this way, for example, a noise removal filter is interposed between the hot water supply device body 1 and the bathroom remote control 2 or the like, or the two-core wire 4 is replaced with a shield measure. Treatment is performed.

  In this way, the number of noises counted per unit time is stored and displayed on the portable terminal device 32 connected to the outside, so that the form of noise can be changed from the temporal tendency of noise generation to the site ( For example, it can be specified or predicted in a general house), and a measure for suppressing the noise can be quickly and accurately performed. Therefore, compared with the method of observing noise by installing a measuring device such as an oscilloscope at the site, the work at the site can be greatly saved.

  In addition, in the said embodiment, although the information of the frequency | count of the detection of the noise for every unit time was memorize | stored in EEPROM27 of the bathroom remote control 2, you may make it memorize | store in the EEPROM 13 of the hot-water supply apparatus main body 1 instead. That is, the bathroom-side microcomputer 26 creates information on the noise generation status when noise is detected, and transmits the information to the hot water supply apparatus main body 1. Alternatively, the bathroom-side microcomputer 26 may once store information related to the noise generation state in the EEPROM 27 and then send information related to the noise generation state to the hot water supply apparatus body 1.

  In the above, the mode of reading out information related to the noise generation situation in a local house or the like has been described. However, as shown below, noise generation is directly performed on, for example, a manufacturer's device using a public telephone line. Information on the situation may be transmitted to display information on the noise occurrence state on the manufacturer's device.

  FIG. 8 is a diagram showing a configuration of an electric control system for transmitting information relating to a noise generation state to a manufacturer-side device through a public telephone line. According to this figure, a transmission adapter 35 is connected to the hot water supply device body 1, a network control unit (T-NCU) 36 is connected to the transmission adapter 35, and a public telephone line 37 is connected to the network control unit 36. ing. The manufacturer's center device 38 is connected to the public telephone line 37. In this case, the transmission adapter 35, the network control device 36, and the center device 38 constitute a maintenance device.

  The transmission adapter 35 is an apparatus having an interface between the hot water supply apparatus main body 1 and the network control apparatus 36, and includes a communication unit (not shown) corresponding to each of the hot water supply apparatus main body 1 and the network control apparatus 36. The network control device 36 is connected to the public telephone line 37 and controls the connection with the public telephone line 37.

  The center device 38 is called, for example, a monitoring server and can communicate data (not shown) that can transmit and receive data through the public telephone line 37, a display unit (not shown) that displays various data, and a communication unit and a display unit (not shown). A control unit, receiving information on the noise generation status sent from the hot water supply device body 1 through the public telephone line 37 via the communication unit, and displaying the information on the display unit, or A sound output unit (not shown) is used for notification.

  According to the above configuration, notification that noise has occurred is performed in step S9 in FIG. 6, and when the user who has grasped the notification contacts the manufacturer, the manufacturer owns the user who has received the notification. A command signal is sent to the hot water supply device main body 1 to request transmission of information relating to the noise generation status from the center device 38 through the public telephone line 37, the network control device 36, and the transmission adapter 35. Receiving this command signal, the hot water supply apparatus main body 1 transmits information regarding the noise generation status to the center apparatus 38 via the communication unit 14, the transmission adapter 35, the network control apparatus 36, and the public telephone line 37. In the center device 38, the maintenance staff displays information on the noise generation status sent from the hot water supply apparatus main body 1 on the display unit, so that the maintenance staff analyzes noise based on the displayed information on the noise generation status. If the form of the noise can be specified to some extent, then it is possible to go to the site and take measures to suppress the noise. In the above description, the user is informed that noise has occurred. Instead, noise is generated by communication by automatic call from the hot water supply system directly to the center device 38. You may be made to be notified. In addition, data communication of noise information from the hot water supply system to the center device 38 may be performed automatically and periodically regardless of the presence or absence of noise.

  As described above, since the information regarding the noise occurrence state can be displayed in the center device 38, the maintenance staff can estimate the parts required for noise countermeasures before going to the site, and prepare them in advance. In addition, it is not necessary to analyze the noise at the site, and it is only necessary to carry out the work related to noise countermeasures, and the work at the site can be further improved in efficiency and simplification.

  Of course, the scope of the present invention is not limited to the embodiment described above. For example, in the above embodiment, the hot water supply system has been described as an example of the electric control system, but the electric control system is not limited to the hot water supply system. That is, the method of the present invention can be applied to any system including a control unit having a microcomputer and an operation unit having an operation switch. Moreover, in the said embodiment, although the bathroom remote control 2 was demonstrated as a different body from the hot water supply apparatus main body 1, the structure in the operation part 24 and the control part 21 of the bathroom remote control 2 is integrally provided in the hot water supply apparatus main body 1. FIG. It may be.

  In the above-described embodiment, the number of noise detections is stored as information on the noise occurrence state. However, in addition to or instead of this, the noise voltage amplitude value (peak-to-peak value) is stored. May be measured and stored as information relating to the noise occurrence state. Further, an accumulated time in which noise is generated in a unit time may be acquired, and a noise generation occupation time for the unit time may be obtained for each unit time. This is because a predetermined threshold is set for the noise magnitude, and when the noise magnitude exceeds the threshold value, the accumulated time in which the noise occurs is obtained by counting the time exceeding the threshold. be able to. Further, in order to obtain the noise generation occupation time per unit time, when it is recognized that noise is mixed, that is, when the number of times the input terminal of the main body side microcomputer 12 becomes low level is less than three times, the number of times is calculated. It is also possible to multiply the accumulated value by about 100 msec and set the time as the noise generation occupation time. Therefore, as described above, a predetermined threshold is not necessarily set for the noise magnitude. There is no need to keep it.

  Further, for example, the number of remote control devices is not limited to the above embodiment. The bathroom remote controller 2 employs the EEPROM 27 as a memory for storing noise information. However, the bathroom remote controller 2 is not limited to the EEPROM 27 as long as it is a rewritable nonvolatile memory. Further, a volatile memory may be used as long as it does not depart from the content of the present invention. In the above-described embodiment, the hot water supply apparatus main body including the combustion unit 10 has been described. However, instead of the hot water supply apparatus main body, a hot water supply apparatus including other heat source devices (for example, a heat pump hot water supply apparatus using gas or carbon dioxide). ) Can be applied. Moreover, the hot water supply apparatus main body of the said embodiment is a hot water supply provided with at least one function among a general hot water supply function, a bath pouring function, a bath reheating function, or a hot water heating function (function as a hot water heating heat source machine). An apparatus main body can be applied. In the above-described embodiment, the public telephone line 37 is used, but other wide area communication network or local area network may be used instead.

It is a figure which shows the electric constitution of the hot water supply system as an example of the electric control system of this invention. It is a front view of a bathroom remote control. It is a figure which shows an example of the information table regarding the generation condition of the noise memorize | stored in EEPROM. It is a figure which shows the connection structure of a bathroom side microcomputer and an operation switch. It is a figure for demonstrating sampling control, (a) shows the case where it recognizes that the operation switch was operated, (b) shows the case where it recognizes generation | occurrence | production of noise. It is a flowchart for demonstrating control operation of a hot water supply system. It is a figure which shows schematic structure of the hot water supply system at the time of reading the information regarding the generation condition of noise. It is a figure which shows the other schematic structure of the hot water supply system at the time of reading the information regarding the generation condition of noise.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Hot-water supply apparatus main body 2 Bathroom remote control 12 Main body side microcomputer 23 Display part 24 Operation part 26 Bathroom side microcomputer 27 EEPROM
31 I / O box 32 Portable terminal device 37 Public telephone line 38 Center device T Input terminal

Claims (8)

An electric control system comprising: a main unit for performing a predetermined control operation; and an operating unit for operating the main unit provided integrally or separately with the main unit,
The main body device or the operating device is
Noise monitoring means for monitoring the generation of noise;
Storage means for storing information;
Noise information creating means for creating information on the noise occurrence status based on the output from the noise monitoring means at predetermined intervals;
Control means for storing in the storage means information relating to the noise occurrence status created by the noise information creating means;
Output means for outputting information on the noise occurrence state stored in the storage means by the control means to the outside;
An electrical control system comprising: The operating device includes an operation input means for inputting an operation by a user,
The operation input means is connected to an input terminal of the control means,
The electric control system according to claim 1, wherein the noise monitoring unit monitors generation of noise mixed in an input terminal of the control unit.   The noise information creating means counts the number of occurrences of noise monitored by the noise monitoring means, and creates a noise occurrence frequency distribution for each predetermined time as information on the noise occurrence status based on the count result. Item 3. The electric control system according to Item 1 or 2.   The electric control system according to claim 3, further comprising an informing means for informing the outside that noise has been generated when the number of occurrences of noise counted every predetermined time exceeds a predetermined number of times. It has a timekeeping means to keep time,
5. The noise information creating means creates the noise occurrence count for each predetermined time and the noise occurrence time measured by the time counting means as information relating to a noise occurrence state. 6. Electric control system. An external device connected to the main unit for displaying information on the noise occurrence status;
The electric control system according to any one of claims 1 to 5, wherein the output unit outputs information on a noise occurrence state stored in the storage unit to the external device.   The electric control system according to claim 6, wherein the external device is a portable terminal device.   The electric control system according to claim 6, wherein the external device is a center device connected to the main body device via a predetermined communication line.

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