JP2004177044A - Hot water supply system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a hot water supply system for reducing electric power consumption of remote controllers without impairing easiness-to-use of a user. <P>SOLUTION: This hot water supply system has a heat source machine 1 having a hot water supply heat exchanger 2 and a reheating heat exchanger 3 and heating hot and cold water flowing in the hot water supply heat exchanger 2 and the reheating heat exchanger 3, the bathtub remote controller and the kitchen remote controller having a display unit and a switch and remotely operating the heat source machine and a water flow sensor 21 for detecting the existence of water flowing in the hot water supply heat exchanger 2. A controller 4 puts the display unit in a turning-on state for a prescribed turning-on display time from time when operating the switch or when detecting a flow of the water by the water flow sensor 21, and puts the display unit in a turning-off state after the turning-on display time passes. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a hot water supply system provided with a remote control, and more particularly to a power saving process of the remote control.
[0002]
[Prior art]
2. Description of the Related Art In recent years, there has been an increasing demand for power saving of household products that consume power. In order to respond to such a request, for example, in a hot water supply system including a heat source device having a heat exchanger that heats water supplied from a water supply and supplies hot water to a hot water supply pipe, and a remote control that remotely controls the heat source device, When the switch of the remote controller is not operated and a predetermined time has elapsed without supplying water to the heat exchanger, the operating power to the display unit of the remote controller is cut off to reduce the power consumption of the remote controller. Such a hot water supply system has been proposed (Patent Document 1).
[0003]
As described above, in order to reduce the power consumption of the remote controller, it is effective to cut off the operating power to the display unit of the remote controller. However, the display unit of the remote controller originally sets the operation status of the heat source unit and the setting contents of the operating conditions. It is provided for the user to recognize, and it is necessary to minimize the inconvenience of the user as a result of shutting off the operation power to the display unit and turning off the display unit.
[0004]
[Patent Document 1]
Japanese Patent Publication No. 7-117289
[0005]
[Problems to be solved by the invention]
The present invention has been made in view of the above background, and an object of the present invention is to provide a hot water supply system in which power consumption of a remote controller is reduced without impairing user's convenience.
[0006]
[Means for Solving the Problems]
The present invention has been made to achieve the above object, and has a heat source device having a heat exchanger for heating water flowing through the heat exchanger; and a water heater having a display means and a switch. The present invention relates to an improvement of a hot water supply system including a remote controller for remotely controlling the water supply and a water flow detecting means for detecting presence or absence of water flowing through the heat exchanger.
[0007]
Then, when the switch is operated or when the flow of hot water is detected by the water flow detection means for a predetermined lighting display time, the display unit is turned on, and after the lighting display time has elapsed, A lighting control means is provided for setting the display means to a light-off state or a low-brightness lighting state in which the brightness is lower than that of the lighting state.
[0008]
According to this aspect of the invention, the display period in which the lighting display means is in the lighting state by the lighting control means starts the lighting operation when the switch is operated or when the flow of hot water is detected by the water flow detecting means. Limited during display time. Therefore, for example, when the user is continuously using hot water, when the lighting display time elapses after starting to use the hot water, the lighting display means is turned off or in a low brightness display state, The power consumption of the remote controller can be reduced. The user visually recognizes the display unit when the switch is operated and when the user starts using hot water supplied from the heat source device (at this time, the flow of water is detected by the water flow detection unit). Therefore, even if the lighting period of the display means is limited in this way, it is considered that no particular trouble occurs for the user.
[0009]
Further, the remote controller has a temperature setting switch for setting a temperature of hot water supplied from the heat source device to a hot water supply pipe connected to the heat source device as the switch, and displays the set temperature on the display means. When the temperature set by the temperature setting switch is equal to or higher than a predetermined upper limit temperature, a set temperature turning-off prohibiting means for prohibiting the display means from being turned off or a low-luminance lighting state by the lighting control means is provided. It is characterized by the following.
[0010]
According to the present invention, when the temperature set by the temperature setting switch is equal to or higher than the upper limit temperature, the set temperature extinguishing prohibiting means maintains the state in which the set temperature is displayed on the display means. Therefore, the user can be alerted that the hot water supply temperature is set to a high temperature.
[0011]
Further, it is characterized by comprising a lighting display time setting means for setting the length of the lighting display time.
[0012]
According to the present invention, it is possible to change the lighting display time according to the user's usage of hot water or the like, thereby improving the usability of the user.
[0013]
In addition, there is provided a clock time, and the lighting display time setting means sets the length of the lighting display time for each predetermined time period based on the time measured by the clock means.
[0014]
According to the present invention, for example, the lighting display time is set to be long in a time zone in which the user frequently uses hot water, thereby improving the usability of the user.
[0015]
The lighting display time setting means collects at least one of data of a frequency at which the switch is operated and a frequency at which the flow of water is detected by the water flow detecting means for each time zone, The lighting display time in each time zone is set longer as the frequency in the time zone is higher.
[0016]
According to the present invention, the lighting display time setting means sets the lighting display time adapted to the life pattern of the user for each time zone in accordance with the operation results of the switch by the user and the usage results of the hot water. can do. In this case, there is no need for the user himself to set the lighting display time.
[0017]
Further, the heat exchanger is connected to a water pipe and heats water supplied from the water pipe, and has a water supply temperature sensor for detecting a temperature of the water supplied from the water pipe. The setting means sets the lighting display time longer as the temperature detected by the feedwater temperature sensor is lower.
[0018]
According to the present invention, the temperature of the water supplied from the water supply is low, and the lighting display time is set to be long in winter or at night when the frequency of using hot water is assumed to be high, thereby improving the usability of the user. At the same time, the temperature of water supplied from the water supply is high, and the lighting display time in summer or daytime when it is assumed that the frequency of using hot water is assumed to be low is set to be shorter to further reduce the power consumption of the remote controller. it can.
[0019]
Further, the remote control includes a plurality of remote controls, and when the switch provided on any one of the remote controllers is operated, only the display unit of the remote control provided with the switch is turned on, and The display unit of the remote controller is set to a light-off state or a low-luminance display state.
[0020]
According to this aspect of the invention, only the display portion of the remote controller, which is assumed to allow the user to visually recognize the display portion in response to the operation of the switch, is turned on by the lighting control means, and the switch is not operated. Therefore, the display units of other remote controllers, which are assumed not to be visually recognized by the user, are turned off. Thus, unnecessary lighting of the display unit of the remote controller in which the user does not operate the switch can be prohibited, and the power consumption of the remote controller can be reduced.
[0021]
Further, the heat source device is connected to a bathtub through a hot water supply pipe, and has a function of executing a filling operation for supplying a predetermined amount of hot water to the bathtub, and the remote control performs the filling operation as the switch. After the filling operation is started by the operation of the filling switch, the display means is turned off or has a low brightness by the lighting control means during the execution of the filling operation. When the lighting state is set, the filling means is provided with a filling state display means for displaying the execution state of the filling operation with the display means being turned on for a predetermined time before and after the completion of the filling operation.
[0022]
According to this aspect of the invention, the display unit, which is turned off or in a low-luminance display state by the lighting control unit for power saving, is turned on for a predetermined time before and after the end of the hot water filling operation, The user can visually recognize the end of the hot water filling operation.
[0023]
Further, a bathtub hot water pipe for connecting the heat source unit and a bathtub, and a water level sensor for detecting a water level of hot water in the bathtub, the heat source unit is such that the water level detected by the water level sensor is maintained within a predetermined water level range. As described above, a function of performing a water level maintaining operation of supplying hot water to the bathtub through the bathtub supply pipe, and by supplying the hot water to the bathtub by the water level maintaining operation, the flow of hot water by the water flow detecting unit is performed. A lighting prohibition unit for prohibiting lighting of the display unit by the lighting control unit when detected is provided.
[0024]
In the present invention, usually, the user is not aware that hot water is being supplied to the bathtub by the water level maintenance operation, and the user may check the display unit during the water level maintenance operation. It is assumed to be rare. Therefore, when the flow of hot or cold water is detected by the water flow detecting means along with the execution of the water level maintaining operation, the lighting prohibiting means prohibits the lighting of the display means by the lighting control means, thereby consuming the remote control. Electric power can be further suppressed.
[0025]
The heat source further includes a bathtub circulation path having an inlet and an outlet of the heat exchanger connected to a bathtub, and a pump for forcibly circulating hot water in the bathtub through the bathtub circulation path and the heat exchanger. The machine has a function of performing a reheating operation in which the pump heats the hot water in the bathtub through the bathtub circulation path and the heat exchanger while circulating the hot water in the bathtub, and the remote controller operates the reheating operation as the switch. After the reheating operation is started by the operation of the reheating switch, the display means is turned off by the lighting control means during execution of the reheating operation. When the low-brightness lighting state is set, a predetermined time before and after the completion of the reheating operation, the reheating condition display means for displaying the execution state of the reheating operation by setting the display means to a lighting state, I do.
[0026]
According to this aspect of the invention, the display unit, which has been turned off or set to the low-luminance display state by the lighting control unit for power saving, is turned on for a predetermined time before or after the reheating operation is completed. The user can visually recognize the end of the hot water filling operation.
[0027]
A bathtub circulation path in which an inlet and an outlet of the heat exchanger are connected to a bathtub; a pump for forcibly circulating hot water in the bathtub through the bathtub circulation path and the heat exchanger; A bathtub temperature sensor for detecting the temperature of the heat source device, wherein the heat source device intermittently performs a process of heating while circulating hot water in the bathtub through the bathtub circulation path and the heat exchanger by the pump. A function of executing a heat-retention operation for keeping the temperature detected by the bathtub temperature sensor within a predetermined temperature range, and when the flow of hot water is detected by the water flow detecting means by the execution of the heat-retention operation, the lighting control is performed. Lighting means for preventing the display section from being turned on by the means.
[0028]
In the present invention, it is generally assumed that the user is not particularly aware that the warming operation is being performed, and that the user rarely checks the display unit during the warming operation. Is done. Therefore, when the flow of hot or cold water is detected by the water flow detecting means in association with the execution of the heat retaining operation, the lighting prohibiting means prohibits the lighting of the display means by the lighting control means. Can be further suppressed.
[0029]
BEST MODE FOR CARRYING OUT THE INVENTION
An example of an embodiment of the present invention will be described with reference to FIGS. 1 is an overall configuration diagram of a hot water supply system of the present invention, FIG. 2 is an external view of a bathroom remote control and a kitchen remote control shown in FIG. 1, and FIGS. 3 and 4 are operations of a controller provided in the heat source unit shown in FIG. It is a flowchart.
[0030]
Referring to FIG. 1, a heat source device 1 of the present embodiment includes a hot water supply heat exchanger 2 (corresponding to a heat exchanger of the present invention) and a reheating heat exchanger 3 (corresponding to a heat exchanger of the present invention). ), And the controller 4 controls the supply of hot water by the hot water supply heat exchanger 2 and the reheating of hot water in the bathtub 5 by the reheating heat exchanger 3.
[0031]
The controller 4 is an electronic unit constituted by a microcomputer, a memory, and the like, and includes a lighting control unit, a set temperature extinguishing prohibiting unit, a lighting display time setting unit, a lighting prohibiting unit, a hot water filling status displaying unit, and the like. Includes the function of additional firing status display means.
[0032]
The heat source unit 1 includes a bathroom remote controller 6 (corresponding to the remote controller of the present invention, which is installed in the bathroom) for remotely controlling the operation of the heat source unit 1, and a kitchen remote controller 7 (corresponding to the remote controller of the present invention, which corresponds to the kitchen). Are connected via a communication cable.
[0033]
The hot water supply heat exchanger 2 is heated by a burner (not shown), and water supplied from a water pipe (not shown) via a water supply pipe 10 connected to the inlet side of the hot water supply heat exchanger 2 is supplied to the hot water supply heat exchanger. 2 and is supplied to the hot water supply pipe 11 connected to the outlet side of the hot water supply heat exchanger 2.
[0034]
The hot water supply pipe 11 is composed of a regular hot water supply pipe 12 connected to a hot water tap (not shown) in a kitchen or a bathroom, and a bathtub circulation path 13 (bathtub going pipe 13a and bathtub return pipe 13b) connected to the bathtub 5. ) Is branched into a bathtub hot water supply pipe 14 communicating with the hot water supply faucet via the common hot water supply pipe 12, while being able to supply hot water to the bathtub 5 via the bathtub hot water supply pipe 14.
[0035]
The water supply pipe 10 has a water supply temperature sensor 20 that outputs a detection signal of the temperature of water supplied from the water pipe to the controller 4 and a water flow sensor 21 that outputs a detection signal of the flow rate of the water to the controller 4 (the present invention). A hot water supply temperature sensor 22 that outputs a detection signal of a temperature of hot water supplied to the regular hot water supply pipe 12 and the bathtub hot water supply pipe 14 to the controller 4; A hot water volume servo 23 that adjusts a hot water supply flow rate based on a control signal from the controller 4 is provided. The bypass pipe 24 that connects the inlet side and the outlet side of the hot water supply heat exchanger 2 is provided with a bypass servo 25 that adjusts the opening degree of the bypass pipe 24 based on a control signal from the controller 4.
[0036]
The bathtub hot water supply pipe 14 includes a solenoid valve 30 that opens and closes the bathtub supply pipe 14 based on a control signal from the controller 4, a bathtub flow sensor 31 that outputs a detection signal of a hot water flow rate to the bathtub 5 to the controller 4, a hopper 32, a check valve 33, and a three-way valve 34 are provided.
[0037]
A pump 40 that operates based on a control signal from the controller 4 to forcibly circulate the hot water in the bathtub 5 through the bathtub circulation path 13 and the additional heat exchanger 3, a bathtub circulation path, A water flow switch 41 for outputting a detection signal indicating the presence or absence of flowing water to the controller 4; a bathtub for detecting the temperature of hot water in the bathtub 5 based on the temperature of hot water circulating in the bathtub circulation path 13 and outputting a detection signal to the controller 4; A temperature sensor 42 and a water level sensor 44 for detecting a water level in the bathtub 5 via a hot water supply port 43 and outputting a detection signal of the water level to the controller 4 are provided.
[0038]
Next, referring to FIG. 2A, bathroom remote controller 6 is provided with a display unit 60 (corresponding to display means of the present invention) for displaying the operation state and setting state of heat source device 1. Further, the bathroom remote controller 6 includes, as a switch of the present invention, an operation switch 61 for switching the heat source device 1 between an operation standby state where an operation instruction can be given by the bathroom remote controller 6 and the kitchen remote controller 7 and a stop state where the operation instruction cannot be given. Hot water supply temperature switch 62 for setting the hot water supply temperature to service hot water supply pipe 12, hot water supply switch 63 for setting the amount of hot water supplied to bathtub 5 in hot water operation, hot water temperature for setting hot water supply temperature to bathtub in hot water operation. A switch 64, a hot water switch 65 for supplying high-temperature hot water to the bath tub 5 and raising the temperature of the hot water in the bath tub 5, a hot water switch 65 for instructing execution of a hot water operation, and heating the water supplied from the water supply pipe with the hot water supply heat exchanger 2 The tepid water switch 66 for instructing the execution of the tepid water operation for lowering the temperature of the hot water in the bath tub 5 by directly supplying it to the bath tub 5 and giving the right to set the hot water supply temperature to the bathroom remote controller 6 side A priority switch 67 for switching to a priority mode, a heat retention time switch 68 for setting a time for executing the heat retention operation, a hot water switch 69 for instructing execution of the hot water operation, a reheating switch 70 for instructing execution of the extra heating operation, and a kitchen. A call switch 71 for instructing a buzzer (not shown) provided on the remote controller 7 to sound is provided.
[0039]
The display unit 60 has a priority display section 80 indicating that the bathroom remote controller 6 is in the priority mode, a hot water supply combustion display section 81 indicating that hot water is being supplied to the regular hot water supply pipe 12, and a hot water set temperature. A high-temperature setting display section 82 indicating that the temperature is not lower than 60 ° C. (corresponding to the upper limit temperature of the present invention). A temperature display section 83, a reservation display section 84 indicating that the reservation of the hot water operation is set, a hot water combustion display section 85 indicating that the hot water operation is being executed, and a fact that the hot water operation has been executed. A lukewarm water display unit 86, a hot water display unit 87 that indicates that the hot water operation has been performed, a water level display unit 88 that indicates the water level of the hot water in the bathtub 5 during the hot water operation, a hot water temperature and Hot water filling temperature display section 89 indicating the tension amount, incubated display unit 90 indicating that the maintenance operation is executed, and time (current time, hot water filling reservation time) is time display unit 91 showing a are provided.
[0040]
The operation switch 61, the hot water switch 69, and the additional heating switch 70 have built-in lamps. Then, in the operation standby mode, a lamp built in the operation switch 61 is turned on. Further, when the hot water filling operation is performed, the lamp built in the hot water filling switch 69 is turned on, and when the additional heating operation is performed, the lamp built in the additional heating switch 70 is turned on.
[0041]
Next, referring to FIG. 2 (b), the kitchen remote controller 7 includes a display unit 100 indicating the operating state and the setting state of the heat source unit 1, an operation switch 101 for switching the heat source unit 1 between an operation standby state and a stop state, Filling switch 102 for instructing the start of filling operation, clock setting switch 103 for switching to a time setting mode for setting and changing the time, reservation setting switch 104 for switching to a reservation setting mode for setting a reserved time for filling operation, time setting In the mode and the reservation setting mode, an hour switch 105 for setting "hour", a minute switch 106 for setting "minute", a reservation operation switch 107 for setting a reservation for hot water operation, and a setting of a hot water supply temperature to the regular hot water supply pipe 12. A hot water supply temperature switch 108 is provided.
[0042]
In addition, display unit 100 has priority display unit 110 indicating that bathroom remote controller 6 is set to the priority mode, hot water supply combustion display unit 111 indicating that hot water supply to hot water supply pipe 11 is being performed, and hot water supply. High temperature display section 112 which is turned on when the set temperature is 60 ° C. (corresponding to the upper limit temperature of the present invention), and displays the hot water supply set temperature (when hot water supply is stopped) or the temperature detected by hot water supply temperature sensor 22 (during hot water supply operation). Hot water temperature display section 113, reservation display section 114 indicating that reservation for hot water operation has been set, heat display section 115 indicating that heat retention time has been set, and current time or reservation time for hot water operation ( A time display section 116 is provided for indicating the time (in the reservation setting mode).
[0043]
The operation switch 101 and the hot water switch 102 have built-in lamps. Then, in the operation standby state, the lamp built in the operation switch 101 is turned on, and when the bathing operation is performed, the lamp built in the bathing switch 102 is turned on.
[0044]
In the heat source unit 1 configured as described above, the controller 4 opens the hot water tap (not shown) connected to the tip of the regular hot water supply pipe 12 and sends water from the water pipe (not shown) to the water supply pipe 10. When the water supply is started and the flowing water is detected by the water amount sensor 21, the hot water supply heat exchanger 2 is heated so that the hot water of the temperature set by the bathroom remote control 6 or the kitchen remote control 7 is supplied to the hot water supply pipe 12. The hot water supply operation is performed in which the burner burn amount is adjusted and the flow rate of water supplied to the water supply pipe 10 is adjusted by the hot water amount servo 23 as necessary.
[0045]
When the bath remote control 6 or the kitchen remote control 7 instructs the bath tub 5 to be filled with water, the controller 4 opens the solenoid valve 30 to connect the bath tub hot water supply pipe 14 with the bath tub circulation path 13, and the bath tub 5. A hot water supply operation for supplying a predetermined amount of hot water to the inside is performed.
[0046]
When the solenoid valve 30 is opened, supply of water from the water pipe to the water supply pipe 10 is started, and the hot water generated by heating in the hot water supply heat exchanger 2 is supplied to the bathtub 5 via the bathtub hot water pipe 14 and the bathtub circulation path 13. Supplied to
[0047]
Then, the controller 4 accumulates the amount of hot water supplied to the bathtub 5 based on the flow rate of hot water supplied to the bathtub 5 detected by the bathtub water flow sensor 31, and the accumulated value is set by the hot water amount switch 63 of the bathtub remote controller 6. When the filling amount is reached, the solenoid valve 30 is closed to terminate the filling operation. In addition, in the hot water operation, the controller 4 adjusts the combustion amount of the burner for heating the hot water heat exchanger 2 so that the detected temperature of the hot water temperature sensor 22 matches the hot water temperature set by the bathtub remote controller 6. At the same time, the flow rate of water supplied to the water supply pipe 10 is adjusted by the hot water level servo 23 as needed.
[0048]
During the warming time set by the bathroom remote controller 6 after the completion of the hot water operation, the controller 4 keeps the temperature of the hot water in the bathtub 5 at the hot water temperature set by the hot water temperature switch 64. And the water level maintaining operation for maintaining the water level in the bathtub 5 at a water level corresponding to the filling level set by the hot water level switch 63 is executed.
[0049]
In the heat keeping operation, the controller 4 operates the pump 40 periodically to circulate the hot water in the bathtub 4 through the bathtub circulation path 13 and the additional heat exchanger 3, and detects the temperature detected by the bathtub temperature sensor 42. Confirms whether or not the detected temperature of the bathtub temperature sensor 42 has dropped from the hot water temperature set by the hot water temperature switch 64 by a predetermined level or more. Then, when the temperature detected by the bathtub temperature sensor 42 drops by the predetermined level or more, the pump 40 is operated to circulate the hot water in the bathtub 4 through the bathtub circulation path 13 and the additional heat exchanger 3, The additional heat exchanger 3 is heated by a burner (not shown) until the temperature detected by the bath temperature sensor 42 reaches the filling temperature set by the filling temperature switch 64.
[0050]
In the water level maintaining operation, the controller 4 turns on the solenoid valve 30 when the water level in the bathtub 5 by the water level sensor 44 decreases from the water level to a predetermined level or less according to the filling level set by the water level switch 63. The valve is opened and hot water is supplied to the bathtub 5 until the water level detected by the water level sensor 44 reaches a water level corresponding to the filling level.
[0051]
When the execution of the reheating operation is instructed by the bathtub remote controller 6, the controller 5 operates the pump 40 to circulate the hot water in the bathtub 4 via the bathtub circulation path 13 and the reheating heat exchanger 3. Then, the additional heat exchanger 3 is heated by the burner (not shown) until the temperature detected by the bath temperature sensor 42 reaches the filling temperature set by the filling temperature switch 64.
[0052]
Next, the controller 4 reduces the power consumption of the bathroom remote controller 6 and the kitchen remote controller 7 by turning on and off the display units 60 and 100 of the bathroom remote controller 6 and the kitchen remote controller 7 based on certain conditions. . Hereinafter, the power saving processing of the bathroom remote controller 6 and the kitchen remote controller 7 by the controller 4 will be described with reference to the flowcharts shown in FIGS. A configuration in which the controller 4 described below reduces the power consumption of the bathroom remote controller 6 and the kitchen remote controller 7 corresponds to the lighting control means of the present invention.
[0053]
Referring to FIG. 3, when power supply to heat source device 1 is started, controller 4 waits for ON operation of operation switch 61 of bathroom remote controller 6 and operation switch 101 of kitchen remote controller 7 in STEP1. Then, when the operation switch 61 or the operation switch 101 is turned ON, the process proceeds to STEP2.
[0054]
In STEP 2, the controller 4 turns on only the display unit of the remote controller whose operation switch has been operated. That is, when the operation switch 61 of the bathroom remote controller 6 is turned on, the controller 4 turns on the display unit 60 of the bathroom remote controller 6 and keeps the display unit 100 of the kitchen remote controller 7 off. On the other hand, when the operation switch 101 of the kitchen remote controller 7 is turned on, the controller 4 turns on the display unit 100 of the kitchen remote controller 7 and keeps the display unit 60 of the bathroom remote controller 6 off.
[0055]
In the following STEP 3, the controller 4 starts a lighting timer having a set time of, for example, 10 minutes (corresponding to the lighting display time of the present invention). If the hot water supply set temperature is equal to or higher than 60 ° C. (corresponding to the upper limit temperature of the present invention) in the next STEP 4, the process branches to STEP 50 in FIG. Both display units (display unit 60 and display unit 100) are turned on.
[0056]
As a result, the hot water supply set temperature is displayed on the display unit 60 of the bathroom remote control 6 and the display unit 100 of the kitchen remote control 7, so that the user can recognize that the hot water set temperature is set to a high temperature. When the set hot water supply temperature is 60 ° C. or higher, the processing for turning on both the display unit 60 of the bathroom remote controller 6 and the display unit 100 of the kitchen remote controller 7 is a setting temperature turning-off prohibiting means of the present invention. Is equivalent to
[0057]
Then, in the next STEP 51, the controller 4 waits for the operation of the hot water supply temperature switch 62 of the bathroom remote control 6 or the hot water supply temperature switch 108 of the kitchen remote control 7. When the hot water supply temperature switch 62 of the bathroom remote control 6 or the hot water supply temperature switch 108 of the kitchen remote control 7 is operated in STEP 51, the process proceeds to STEP 52, and the controller 4 starts the lighting timer (when the lighting timer is already in operation, Restart).
[0058]
Then, in the next STEP 53, when the hot water supply temperature switch 62 or the hot water supply temperature switch 108 is operated to lower the hot water supply set temperature below 60 ° C., the process proceeds to STEP 54, and the controller 4 operates the remote controller for which the hot water supply temperature switch is operated. Only the display units (the display unit 60 of the bathroom remote control 6 when the hot water supply temperature switch 62 is operated, and the display unit 100 of the kitchen remote control 7 when the hot water supply temperature switch 108 is operated) are turned on. move on.
[0059]
On the other hand, if the hot water supply set temperature is lower than 60 ° C. in STEP 4, the process proceeds to STEP 5. In this case, only one of the display unit 60 of the bathroom remote controller 6 and the display unit 100 of the kitchen remote controller 7 is turned on by the processing in STEP 2 described above.
[0060]
Here, for example, when the user turns on the operation switch 61 of the bathroom remote controller 6 in STEP1, it is assumed that the user checks the display unit 60 of the bathroom remote controller 6 and sets the hot water supply temperature. . At this time, since the user is not using the kitchen remote control, there is no need to turn on the display unit 100 of the kitchen remote control 7. Therefore, by keeping the display unit 100 of the kitchen remote controller 7 in the light-off state, the power consumption of the kitchen remote controller 7 can be suppressed.
[0061]
If the switch of the bathroom remote controller 6 or the kitchen remote controller 7 is not operated, the process branches from STEP 5 to STEP 10, and if no water is detected by the water flow sensor 21, the process further branches to STEP 20, and the controller 4 determines whether the lighting timer has timed out. Check whether or not.
[0062]
When the lighting timer expires, that is, after the switch of the bathroom remote control 6 or the kitchen remote control 7 is operated or the start of water supply to the water supply pipe 10 is detected by the water flow sensor 21, the lighting display time has elapsed. At this time, the process proceeds from STEP 20 to STEP 21, and the controller 4 turns off the display unit (the display unit 60 or the display unit 100) in the lighting state.
[0063]
Here, the user confirms the display contents of the display unit (display unit 60, display unit 100) when operating the remote control (bathroom remote control 6, kitchen remote control 7) and opening the hot water tap (not shown). It is assumed that it is time to start using hot water. Therefore, the time for turning on the display unit 60 and the display unit 100 is determined by the water flow sensor 21 between the time when the remote control (the bathroom remote control 6 and the kitchen remote control 7) is operated and the time when the lighting display time elapses. By limiting the period from when the start of water supply to the water supply pipe 10 is detected to when the lighting display time elapses, power consumption of the remote controller can be suppressed without impairing user's convenience.
[0064]
When the switch of the bathroom remote controller 6 or the kitchen remote controller 7 is operated, the process proceeds from STEP 5 to STEP 6, and the controller 4 turns on only the display unit (the display unit 60 or the display unit 100) of the remote controller whose switch is operated. Then, the lighting timer is started in the next STEP7, and the process returns to STEP4. When the switch of the remote controller whose display unit is already turned on is operated, the controller 4 restarts the lighting timer in STEP7.
[0065]
When the start of water supply to the water supply pipe 10 is detected by the water flow sensor 21, the process proceeds from STEP 10 to STEP 11, and the water flow sensor 21 supplies water to the water supply pipe 10 in accordance with the supply of hot water to the bathtub 5 by the above-described water level maintenance operation. When the start of water supply is detected, the process proceeds to STEP 5 and the display unit is not turned on.
[0066]
Here, it is assumed that the user is not aware that the water level maintenance operation is being performed, and that the user does not check the display unit 60 or the display unit 100 when the water level maintenance operation is started. Therefore, it is considered that the necessity of turning on the display unit 60 and the display unit 100 is low. Therefore, when running water is detected by the water flow sensor 21 in accordance with the execution of the water level maintenance operation, the display unit 60 and the display unit 100 are maintained in the light-off state without deteriorating the usability of the user. 6 and the power consumption of the kitchen remote controller 7 can be suppressed.
[0067]
Referring to FIG. 1, the lighting display time setting means 50 provided in the controller 4 is configured to control the operation frequency of the switches provided in the bathroom remote controller 6 and the kitchen remote controller 7, and the frequency of detecting the flowing water by the water flow switch 21. Are stored in the memory 51 for each time zone (for example, every hour). Then, the lighting display time setting means 50 sets the lighting display time longer as the switch operation frequency and the running water detection frequency are higher.
[0068]
Accordingly, the display unit 60 and the display unit 100 in a time period in which the user frequently operates the switch of the bathroom remote control 6 or the kitchen remote control 7 and a time period in which the user frequently uses the hot water by opening the hot water tap. Lighting time becomes longer.
[0069]
In this case, there is a high possibility that the display unit 60 and the display unit 100 are turned on when operating the switches of the bathroom remote controller 6 and the kitchen remote controller 7 and when opening the hot water tap. Therefore, the user can confirm the display unit 60 and the display unit 100 before operating the switches of the bathroom remote control 6 and the kitchen remote control 7 and before starting to use hot water by opening the hot water tap. And the usability of the user is improved.
[0070]
In the flowchart of FIG. 3, when the operation of the switch is detected in STEP 5 and when the start of water supply to the water supply pipe 10 is detected in STEP 10 by the water flow sensor 21, the display units 60 and 100 are immediately displayed in STEP 6 or STEP 12. Is turned on and the lighting timer is started in STEP7. However, if a time delay from when the switch operation is detected and when the start of water supply to the water supply pipe 10 is detected does not matter, a burner that heats the hot water supply heat exchanger 2 according to the detection of the start of water supply. (Not shown) ignition processing is performed, and when the opening of a solenoid valve (not shown) provided in a gas supply pipe communicating with the burner is detected, or when the ignition of the burner is detected by flame detection of a flame rod or the like. When water is detected by a sensor (not shown), the display units 60 and 100 may be turned on to start the lighting timer assuming that water supply has started.
[0071]
Similarly, when it is detected that an electromagnetic valve (not shown) provided in a gas supply pipe connected to a burner (not shown) for heating the reheating heat exchanger 3 is opened, or when the burner is ignited by a flame rod. Alternatively, the display units 60 and 100 may be turned on when a flame detection sensor (not shown) detects the start of the lighting timer.
[0072]
When the user operates the hot water switch 69 of the bathroom remote control 6 or the hot water switch 102 of the kitchen remote control 7 to start the hot water operation, the controller 4 proceeds from STEP 5 to STEP 6 in the flowchart of FIG. The display unit of the remote controller for which the switch operation has been performed is turned on. Then, when the start of water supply is detected by the water flow sensor 21 in STEP 10, the display unit 60 of the bathroom remote controller 6 and the display unit 100 of the kitchen remote controller 7 are turned on in STEP 12, and the lighting timer is restarted in STEP 7, and the lighting timer is set. When the time is up, the display unit 60 and the display unit 100 are turned off in STEP12.
[0073]
On the other hand, when the hot water filling operation is started by the reserved operation, the controller 4 determines in STEP 12 that the water supply sensor 21 has detected the start of water supply in STEP 10 and the display unit 60 of the bathroom remote controller 6 and the display unit 100 of the kitchen remote controller 7 in STEP 12. Is turned on, the lighting timer is restarted in STEP7, and when the lighting timer expires, the display unit 60 and the display unit 100 are turned off in STEP21.
[0074]
Here, it is assumed that the user rarely checks the display unit 60 of the bathroom remote controller 6 or the display unit 100 of the kitchen remote controller 7 during the execution of the hot water filling operation. Therefore, even if the display unit 60 and the display unit 100 are turned off during the hot water filling operation to reduce the power consumption, it is considered that the usability of the user does not deteriorate.
[0075]
Five minutes before the hot water filling operation ends, the controller 4 sounds the buzzer (not shown) of the bathroom remote control 6 and the kitchen remote control 7 to notify that the hot water filling will be finished soon. And the display unit 100 of the kitchen remote controller 7 are turned on. Thus, when the buzzer sounds, the user can check the display unit 60 and the display unit 100 to check the end time of the filling.
[0076]
Note that the configuration in which the controller 4 performs the process of turning on the display unit 60 and the display unit 100 at the end of the filling operation corresponds to the filling condition display means of the present invention.
[0077]
When the additional heating switch 70 of the bathroom remote controller 6 is operated by the user to start the additional heating operation, the controller 4 proceeds from STEP 5 to STEP 6 in the flowchart of FIG. 3 to change the display unit 60 of the bathroom remote controller 6. The lamp is turned on and a lighting timer is started in STEP7. Then, when the lighting timer times out, the display unit 60 is turned off in STEP 21.
[0078]
Here, it is assumed that the user rarely checks the display unit 60 of the bathroom remote control 6 during the execution of the additional heating operation. Therefore, even if the display unit 60 is turned off during execution of the additional heating operation to reduce power consumption, it is considered that the usability of the user does not deteriorate.
[0079]
Also, when performing the reheating operation, the controller 4 controls the bathroom remote controller 6 to notify that the reheating will be completed soon 5 minutes before the end of the reheating operation, similarly to the case of the hot water filling operation. The buzzer (not shown) of the kitchen remote controller 7 is sounded, and the display unit 60 of the bathroom remote controller 6 and the display unit 100 of the kitchen remote controller 7 are turned on. Then, when 5 minutes have elapsed from the end of the additional heating, the controller 4 turns off the display unit 60 and the display unit 100.
[0080]
In this manner, the process of turning on the display unit 60 of the bathroom remote controller 6 and the display unit 100 of the kitchen remote controller 7 from 5 minutes before the end of the reheating operation to 5 minutes after the end of the reheating operation is performed. The configuration to be executed corresponds to the additional heating status display means of the present invention.
[0081]
In addition, as described above, the controller 4 turns on the display unit 60 and the display unit 100 for 5 minutes from when the buzzer sounds to when the hot water filling operation or the additional heating operation is completed. This corresponds to a predetermined time before and after the completion of the hot water filling operation and a predetermined time before and after the completion of the additional heating operation of the present invention.
[0082]
Further, the display unit 60 and the display unit 100 may be turned off after the display unit 60 and the display unit 100 are maintained in a lighting state to some extent (for example, 5 minutes) even after the hot water filling operation or the reheating operation is completed, In this case, the time from 5 minutes before the completion of the filling operation or the additional heating operation until 5 minutes after the completion of the filling operation corresponds to the predetermined time before and after the completion of the filling operation of the present invention.
[0083]
Alternatively, the display unit 6 and the display unit 100 may be turned on for a certain period of time (for example, 5 minutes) after the filling operation or the reheating operation is completed. In this case, from the end of the filling operation or the reheating operation. The time until 5 minutes elapses corresponds to the predetermined time before and after the completion of the filling of the present invention.
[0084]
When the hot water filling operation is completed, the controller 4 performs the above-described warming operation and the water level maintaining operation. When the pump is operated in accordance with the execution of the warming operation, the water flowing through the bathtub circulation 13 is changed by the water flow switch 41. Is detected. However, the user is not particularly aware that the warming operation is being performed, and considers that it is rare for the user to check the display unit 60 of the bathroom remote controller 6 when the warming operation is performed. Can be
[0085]
Therefore, the controller 4 keeps the display unit 60 of the bathroom remote controller 6 in a light-off state when running water is detected by the water flow switch 41 in accordance with the execution of the warming operation. Note that the configuration for performing the process of maintaining the display unit 60 of the bathroom remote controller 6 in the light-off state as described above corresponds to the lighting prohibition unit of the present invention.
[0086]
In the present embodiment, the lighting display time setting means 50 sets the lighting display time to be longer as the operation frequency of the switches of the bathroom remote controller 6 and the kitchen remote controller 7 and the detection frequency of the water flow by the water flow sensor 21 are higher. Alternatively, the lower the water supply temperature from the tap water detected by the water supply temperature sensor 20, the longer the lighting display time may be set. According to this, the lighting time of the display unit 60 of the bathroom remote controller 6 and the display unit 100 of the kitchen remote controller 7 is lengthened in winter or at night when the water supply temperature is low and hot water is often used, so that the user can easily check. can do.
[0087]
Further, a switch for setting the lighting display time is provided in at least one of the bathroom remote controller 6 and the kitchen remote controller 7 or the controller 4, and the user operates the switch to set and change the lighting display time. You may be able to. Further, different lighting display times may be set for each time zone (for example, every hour) by the switch.
[0088]
Further, in the present embodiment, the display unit 60 of the bathroom remote controller 6 and the display unit 100 of the kitchen remote controller 7 are switched between a lighting state and a lighting state, but the lighting state and a low brightness in which the display brightness is lower than the lighting state. Also when switching to the display state, the power consumption of the bathroom remote control 6 and the kitchen remote control 7 can be reduced.
[0089]
In addition, in the unlit state, the display of the display unit 60 of the bathroom remote controller 6 and the display unit 100 of the kitchen remote controller 7 are not all turned off or set to the low-brightness display state. The hot water supply combustion display section 81 may be constantly lit during the execution, and the hot water combustion display section 85 may be constantly lit during the execution of the hot water filling operation. Similarly, in the display unit 100 of the kitchen remote controller 7, the hot water supply combustion display unit 111 may be constantly turned on while hot water is being supplied to the hot water supply pipe 11.
[0090]
Further, in the present embodiment, the functions of the lighting control means, the set temperature extinguishing prohibiting means, the lighting display time setting means, the lighting prohibiting means, the hot water filling state displaying means, and the additional heating state displaying means are provided in the heat source device 1. Although these units are constituted by the controller 4 described above, these units may be constituted by remote control controllers (not shown) provided in the bathroom remote controller 6 and the kitchen remote controller 7, respectively.
[Brief description of the drawings]
FIG. 1 is an overall configuration diagram of a hot water supply system.
FIG. 2 is an external view of a bathroom remote control and a kitchen remote control shown in FIG.
FIG. 3 is an operation flowchart of a controller provided in the heat source device shown in FIG. 1;
FIG. 4 is an operation flowchart of a controller provided in the heat source device shown in FIG. 1;
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... Heat source machine, 2 ... Hot water supply heat exchanger, 3 ... Additional heating heat exchanger, 4 ... Controller, 5 ... Bathtub, 6 ... Bathroom remote control, 7 ... Kitchen remote control, 10 ... Water supply pipe, 11 ... Hot water supply pipe, 12 ... Regular hot water supply pipe, 13: bathtub circulation path, 14: bathtub hot water pipe, 20: water supply temperature sensor, 21: water flow sensor, 22: hot water supply temperature sensor, 40: pump, 60: display unit, 69: hot water switch, 70 ... Additional heating switch, 100: display unit, 102: hot water switch

Claims (11)

A heat source device having a heat exchanger for heating water flowing through the heat exchanger; a remote control having display means and a switch for remotely operating the heat source device; and a water source flowing through the heat exchanger. In a hot water supply system comprising a water flow detection means for detecting a flow,
When the switch is operated or when the flow of water is detected by the water flow detecting means, for a predetermined lighting display time, the display unit is turned on for a predetermined lighting display time, and after the lighting display time has elapsed, the display is performed. A hot water supply system comprising lighting control means for setting the means to a light-off state or a low-brightness lighting state in which the brightness is lower than the lighting state. The remote control has a hot water supply temperature switch for setting a temperature of hot water supplied from the heat source device to a hot water supply pipe connected to the heat source device as the switch, and displays a temperature set by the hot water temperature switch on the display means. Display,
When the temperature set by the hot water supply temperature switch is equal to or higher than a predetermined upper limit temperature, a set temperature extinguishing prohibiting means for prohibiting the display means from being turned off or a low-luminance lighting state by the lighting control means is provided. The hot water supply system according to claim 1, wherein: The hot water supply system according to claim 1, further comprising a lighting display time setting unit configured to set a length of the lighting display time. Equipped with timekeeping means,
4. The hot water supply system according to claim 3, wherein the lighting display time setting means sets the length of the lighting display time for each predetermined time zone based on the time measured by the time measuring means. 5. The lighting display time setting means collects data of at least one of the frequency at which the switch is operated and the frequency at which the flow of water is detected by the water flow detecting means for each of the time zones. The hot water supply system according to claim 4, wherein the lighting display time in a zone is set longer as the frequency in the time zone is higher. The heat exchanger is connected to a water pipe and heats water supplied from the water pipe, and has a water supply temperature sensor that detects a temperature of the water supplied from the water pipe,
4. The hot water supply system according to claim 3, wherein the lighting display time setting means sets the lighting display time longer as the temperature detected by the water supply temperature sensor is lower. 5. Comprising a plurality of the remote control,
The lighting control means, when the switch provided on any of the remote controllers is operated, turns on only the display unit of the remote controller provided with the switch, and turns off the display unit of the other remote controller or turns off the display unit of the other remote controller. The hot water supply system according to any one of claims 1 to 6, wherein the hot water supply system is in a brightness display state. The heat source unit is connected via a bathtub and a hot water supply pipe, and has a function of performing a filling operation for supplying a predetermined amount of hot water to the bathtub,
The remote control has a filling switch for instructing execution of the filling operation as the switch,
After the filling operation is started by operating the filling switch, when the display means is turned off or turned on by the lighting control means during the execution of the filling operation, the filling is performed. 8. A hot water filling status display means for displaying the execution status of the hot water filling operation by turning on the display means for a predetermined time before and after the end of the operation. Hot water supply system according to the item. A bathtub hot water pipe connecting the heat source unit and a bathtub, and a water level sensor for detecting a water level of hot water in the bathtub,
The heat source unit has a function of performing a water level maintenance operation of supplying hot water to the bathtub through the bathtub supply pipe, such that the detection water level of the water level sensor is maintained within a predetermined water level range,
By supplying hot water to the bathtub by the water level maintaining operation, when the flow of hot water is detected by the water flow detecting means, lighting control means for prohibiting lighting of the display means by the lighting control means is provided. The hot water supply system according to any one of claims 1 to 8, wherein: A bathtub circulation path having an inlet and an outlet of the heat exchanger connected to a bathtub, and a pump for forcibly circulating hot water in the bathtub through the bathtub circulation path and the heat exchanger;
The heat source unit has a function of performing a reheating operation for heating while circulating hot water in a bathtub through the bathtub circulation path and the heat exchanger by the pump,
The remote control has a reheating switch for instructing execution of the reheating operation as the switch,
After the additional heating operation is started by operating the additional heating switch, when the display unit is turned off or in a low-luminance lighting state by the lighting control unit during the execution of the additional heating operation, the additional heating is performed. The hot water supply system according to claim 1, further comprising a reheating state display means for turning on the display means for a predetermined time before and after the operation is completed, and displaying an execution state of the reheating operation. A bathtub circuit connecting the inlet and outlet of the heat exchanger to a bathtub, a pump for forcibly circulating hot water in the bathtub through the bathtub circuit and the heat exchanger, A bathtub temperature sensor for detecting the temperature,
The heat source unit intermittently performs a process of heating while circulating hot water in a bath tub through the bath tub circulation path and the heat exchanger by the pump, so that the temperature detected by the bath tub temperature sensor is within a predetermined temperature range. It has a function to execute the warming operation to keep it inside,
When the flow of hot or cold water is detected by the water flow detecting means by the execution of the heat retaining operation, the lighting control means includes lighting inhibition means for inhibiting the display section from being turned on. The hot water supply system according to claim 1.

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