JP2518560B2 - Water heater controller - Google Patents

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention comprises a plurality of operating devices for setting a target temperature of hot water to be heated by a heat exchanger, and performs a fluctuation operation for changing the temperature of the hot water according to the time change. The present invention relates to a water heater control device.

[0002]

2. Description of the Related Art A water heater is provided with a plurality of hot water inlets, and in order to easily set a required hot water temperature at each hot water inlet, a plurality of hot water inlets are provided at a plurality of places adjacent to the hot water inlet, for example, in a bathroom or a kitchen. , A remote controller for temperature setting, etc. are respectively provided. In this case, as a safety measure when using the shower, the remote controller installed in the bathroom where the shower is
It has a changeover switch for setting the target temperature preferentially to the remote controls in other places, and when the priority is switched by the changeover switch, a lamp provided to display the priority on each remote control In such display devices, the display is changed accordingly, and it is possible to easily determine which remote controller has priority. On the other hand, in the water heater, when using a shower as one of the hot water supply uses, by changing the temperature of the hot water ejected from the shower head in a predetermined pattern, a massage shower that gives a massage effect by the shower is considered, and therefore, A switch for performing an operation of changing a heating amount of a heating source (hereinafter referred to as a fluctuation operation) is provided on a remote controller of a bathroom mainly using a shower.

[0003]

However, in the massage shower, when hot water is supplied by the shower head,
It is just to perform the fluctuation motion, and display the fluctuation motion,
If there is no notification, the display device can determine that the side giving the instruction has priority in a place other than the remote control side giving the instruction for the fluctuating operation, but at that time, the fluctuation operation is performed by the switch operation. It is not possible to determine whether or not is specified. For this reason, it is not possible to determine that the hot water outlet temperature changes when hot water is supplied at locations other than the remote control side that has given a fluctuation operation instruction, and if hot water is supplied by relying on the separately displayed set temperature, the temperature will change. There is a problem that the unstable hot water flows out and the hot water is wasted.

The present invention comprises a plurality of remote controls, and
An object of the present invention is to easily confirm the fluctuation operation even in a remote controller that does not instruct the fluctuation operation in a controller of a water heater that performs the fluctuation operation for a massage shower or the like.

[0005]

The present invention comprises a first manipulator and a second manipulator for setting a target temperature of hot water to be heated by a water heating circuit including a heat exchanger having a heat source. A controller for a water heater that performs a normal hot water supply operation that controls a heating amount of the heating source based on a target value set by the first operation device or the second operation device, wherein the second operation device includes : Operation to set the target value
A changeover switch for selecting a working device and a fluctuation operation for changing the heating amount of the heating source according to the time change in order to change the temperature of the hot water heated by the water heating circuit according to the time change. Fluctuation indication switch for
And a display for switching by the changeover switch.
Fluctuation display means and fluctuation by the fluctuation indication switch
And a first fluctuation notifying device for notifying an instruction of a fluctuation operation, and the first operation device is provided with a switching switch.
Second switching display means for displaying replacement, and the fluctuation
Informing the fluctuation operation instruction by the instruction switch
2 fluctuation notification device is provided, and the changeover switch
When the first operating device is selected from the above, the fluctuation
When the fluctuation operation is instructed by the fluctuation instruction switch
Is an operating device for setting the target value from the first operating device.
Switch to the second operation unit and change from the normal hot water supply operation to the Yu
The technical means is to switch to the fluctuation operation for the fluctuation operation .

[0006]

According to the present invention, the hot water temperature is set by been <br/> first manipulator or the second operation unit selected by the selector switch, the display switching by the switching switch, the controllers
In each switching display means of. Also, when the fluctuation operation is instructed by the fluctuation instruction switch provided in the second operating device, the operation is switched to the fluctuation operation. Fluctuating finger
When switching to fluctuation operation by the indication switch,
If the first controller is selected, set the target value.
The operating device for switching from the first operating device to the second operating device
The normal hot water supply operation is switched to the fluctuation operation.
When hot water is supplied in the fluctuation operation, the fluctuation amount causes the heating amount of the heating means to change with time,
The tap water temperature changes with time. Also, fluctuation luck
When the switching to the rolling is performed, the first operation of the second operation device is performed.
The fluctuation notification device will notify you of fluctuation driving,
Even with the first operating device that is not provided with the fluctuation instruction switch, the second fluctuation notifying device notifies the fluctuation operation by display or voice.

[0007]

According to the present invention, the second operating device can be provided by providing the second operating device at the place where the fluctuating operation is required and providing the first operating device at the place where the fluctuating operation is not required. When the fluctuation operation is required in a different place , the first controller can be selected simply by operating the fluctuation instruction switch to supply hot water.
Even if it is, you can easily switch to the second operating device,
The heating amount of the heating means changes with time. At this time, even with the second fluctuation notification device of the first operating device, it is possible to easily confirm that the hot water discharge temperature changes by the fluctuation notification indicating the fluctuation operation, and therefore when the fluctuation operation is not required, hot water supply is mistakenly performed. There is nothing to do. Therefore, when trying to supply hot water in the vicinity of the first operating device, unnecessary hot water supply is not performed.

[0008]

EXAMPLES Next, the present invention will be explained based on examples. The gas automatic water heater 1 shown in FIG. 2 is a fully automatic water heater having an automatic hot water filling function for the bathtub B, a reheating function, and a heat retaining function in addition to the normal hot water supplying function. Provided on a main heat exchanger 11 for tensioning, a bath heat exchanger 12 for reheating, and some piping members and piping members for connecting these heat exchangers 11 and 12 to the bath B. Some control members, a main burner 2 for heating each heat exchanger 11, 12, a bath burner 3, a gas supply pipe 4 for supplying a fuel gas to each burner 2, 3, and a gas control for the gas supply pipe 4. Consists of several control valve members for.

A water supply pipe 13 for supplying water to the main heat exchanger 11.
Is connected to the outflow part of the main heat exchanger 11 by a water bypass pipe 14, and a hot water outlet pipe 15 is provided downstream thereof. The water supply pipe 13 is provided with a water supply flow rate sensor 31 for detecting the flow rate of the supplied water and a water supply temperature thermistor 32 for detecting the water supply temperature, and the hot water supply pipe 15 is for adjusting the hot water flow rate. A hot water amount servo 16 and a hot water temperature thermistor 33 for hot water temperature detection are provided, and a hot water supply pipe 15 is provided downstream of the hot water temperature thermistor 33 and a hot water supply pipe 17 and a hot water filling connection pipe 18.
It branches to and. The water bypass pipe 14 is provided with a water bypass solenoid valve 19 (hereinafter referred to as a water bypass valve) that is opened / closed according to the operating state.

A water filling solenoid valve (hereinafter referred to as a water filling valve) 20 for controlling the water filling, a water filling flow sensor 34 for detecting the water filling flow rate, a water cutoff in water supply, and the like are provided in the water filling connection pipe 18. A backflow prevention device 21 with a hopper for preventing backflow at the time of pressure decrease, and a first two-way valve 22 are provided in this order, and the filling pipe 18 is connected to the bath circulation circuit 23 downstream of the first two-way valve 22. It is connected. The backflow prevention device 21 is
The two check valves 21a, 21b are doubly arranged with respect to the connection pipe 18 for water filling, and an opening reversibly opened / closed between the check valves 21a, 21b is the opening / closing of the upstream check valve 21a. A hopper 21d for storing a small amount of hot water flowing out from the opening 21c when the check valve 21a is opened and closed is provided outside the opening 21c.
In order to discharge the hot and cold water accumulated in 1d, a drainage electromagnetic valve 21e that is opened at the end of the hot water filling is provided.

The bath circulation circuit 23 forms a closed circuit between the bath B and the bath heat exchanger 12.
8 is connected to the bath heat exchanger 12, and the first conduit 23A is connected to the bath heat exchanger 12. The second conduit 23 is connected to the connection part 23a and the bath B.
B, the third conduit 23 that directly connects the bath heat exchanger 12 and the bath
The hot water in the bathtub B is directed to the bath heat exchanger 12 by operating C when circulating hot water in the bathtub B and determining the presence or absence of hot water in the bathtub B in the first conduit 23A. Pump 24 for circulation to be moved by moving, water flow switch 35 for detecting the flow of hot and cold water in bath circulation circuit 23, bath B
A bath thermistor 36 for detecting the hot water temperature inside is provided,
The second conduit 23B is provided with a second two-way valve 25 and a water level sensor 37 for detecting the water level in the bathtub B. In addition, in order to suppress the temperature of the hot water discharged into the bathtub B during reheating, a portion of the hot water is not passed between the first pipe line 23A and the third pipe line 23C. A bypass conduit 23D for circulating the water is provided so as to bypass the water flow switch 35, the bath thermistor 36, and the bath heat exchanger 12, and thereby quickly reheat while ensuring safety against burns and the like. In addition to this, bubbles for massage described later can be generated smoothly.

The bath circulation circuit 23 has a second pipe line 23.
The third pipe 23C is connected to the wall of the bathtub B by using the double-structured circulation fitting 26 in which the third conduit 23C is concentrically arranged in B.
The circulation metal fitting 26 has a separately provided opening of an air pipe 27 disposed in the third conduit 23C, and when the air solenoid valve 28 is opened when the pump 24 is operated by a predetermined control, the massage is directed toward the bathtub B. Generate bubbles.

The main heat exchanger 11 and the bath heat exchanger 12 are provided with a main burner 2 and a bath burner 3 to which fuel gas is supplied by a gas supply pipe 4, and each burner 2, 3 will be described later. It is controlled by the controller 40.
In the control device 40, a power switch (not shown) is turned on in a normal installation state, and power is constantly supplied,
A main remote controller 50 provided in a kitchen or the like and a bath remote controller 60 provided in a bathroom are provided.
Each operation operation described later is performed in response to the operation signal from 0, 60, and therefore, as shown in FIG. It has each function part of the control part 45 and the bath control part 46.

The communication control unit 41 includes the remote controllers 50 and 6
A two-wire cable is provided between 0 and each remote controller 5
Each remote controller 5 supplies power to 0 and 60 and transmits the power by superimposing it on the power supply voltage using the same cable.
The operation signals from 0 and 60 are received, and the respective remote controllers 50 and 6 are received.
The operation signal and the display signal are transmitted to 0. The operation control unit 42 controls the filling operation, the hot water supply operation, the reheating operation, and the like according to the operation state of one remote controller to which the operation priority is given. There is a timer unit 42a for measuring the operating time, the waiting time, etc. for control.

The operation priority is determined mainly according to the operating state of the priority changeover switch 61 provided in the bath remote controller 60, and each time the priority changeover switch 61 is pressed once, the main remote controller 50 or Bath remote control 6
The operation priority right of 0 is changed alternately, and the fact is displayed on the remote controller given the operation priority right. Further, in the present embodiment, when the operation priority is given to the main remote controller 50 and the fluctuation operation described later is instructed by the fluctuation switch 62 provided in the bath remote controller 60, the priority changeover switch 61 is used. Even if the operation priority switching operation to the bath remote controller 60 is not performed, the operation priority switching operation to the bath remote controller 60 is automatically performed,
Operation priority is given to the bath remote controller 60.

In the water filling operation, the water filling valve 2 is operated by operating a water filling switch provided on each remote controller 50, 60.
0, the first two-way valve 22 and the second two-way valve 25 are opened in a predetermined order to start supplying hot water to the bathtub B, and a predetermined amount of water is filled according to the set water level. When it is detected by the flow rate sensor 34, the water filling operation is switched to the water filling operation based on the water level detected by the water level sensor 37, and when the set water level is detected, the water filling operation is ended. During this time, the bath remote control 60
The main heat exchanger 11 is heated by the main burner 2 by controlling the temperature control unit 43, the fuel control unit 44, and the water amount control unit 45 in accordance with the hot water filling temperature. After that, in order to bring the hot water temperature in the bathtub B to the hot water filling set temperature, the pump 24 is driven to detect the hot water temperature in the bathtub B by the bath thermistor 36. The bath control unit 46 is controlled to carry out the additional heating operation, and the bath burner 3 heats the bath heat exchanger 12 until the bath filling temperature is reached.

The hot water supply target temperature of the hot water to be heated in the hot water supply operation is usually a constant temperature determined based on the hot water supply set temperature of the remote controller to which the operation priority is given, but in the present embodiment, the hot water supply is performed. When the shower is used as one of the uses, a fluctuation operation function is provided for changing the hot water temperature in a predetermined pattern to obtain a "fluctuation shower" for obtaining a massage effect by hot water.
Therefore, in the hot water supply operation of the present embodiment, a hot water supply mode for performing normal hot water supply for maintaining the hot water discharge temperature at a constant target temperature,
There is a fluctuation mode for performing a "fluctuation shower". The hot water supply mode is a hot water supply operation performed for a certain set hot water supply temperature when the fluctuation mode is not instructed by the fluctuation switch 62. In the hot water supply mode, hot water supply standby is performed according to the operation of the operation switches of the remote controllers 50 and 60. Then, the hot water supply plug (not shown) is opened and the main heat exchanger 1
When it is detected by the water supply flow rate sensor 31 that more water than the operation start flow rate passes through the inside of 1, the temperature control unit 4 based on the hot water supply set temperature of the remote controller given the operation priority
3. The main burner 2 is heated by controlling the fuel control unit 44 and the water amount control unit 45.

The fluctuation mode is performed in response to the operation of the fluctuation switch 62 provided on the bath remote controller 60. The fluctuation temperature of the hot water supplied is changed in a predetermined pattern. It is used when giving a shower. As fluctuation mode,
Fluctuation switch 62 during normal hot water supply in hot water supply mode
Is operated and the fluctuation mode is instructed, the fluctuation operation is started in response to the switch operation, and the outlet heated water temperature changes in a predetermined manner. In the hot water supply mode, when the fluctuation switch 62 instructs the fluctuation mode to the hot water supply standby state in which the hot water supply operation is possible, when the fluctuation switch 62 is operated, the fluctuation mode is set to the fluctuation standby state, and then the hot water supply such as the shower head is performed. When the stopcock that communicates with the mouth is opened and hot water supply is started, the fluctuation operation is started and the hot water outlet temperature changes in a predetermined pattern.

The change of the hot water supply temperature in the fluctuation operation is caused by the change of the hot water supply target temperature in a predetermined pattern, and the change of the target temperature in the temperature control unit 43 and the gas supply amount in the combustion control unit 44 accordingly. Done. In the hot water supply mode, when the fluctuation switch 62 is operated to the hot water supply standby state in which the hot water supply operation is not performed, the fluctuation waiting state is maintained for a predetermined time (for example, 15 minutes) after the fluctuation waiting state. After a lapse of a predetermined time, the fluctuation mode is automatically canceled and the hot water supply mode is set, and the hot water supply standby state is set. Further, in the fluctuation waiting state as the fluctuation mode, when the fluctuation operation is started by supplying hot water within a predetermined time after the fluctuation mode is entered, or by changing the fluctuation mode by operating the fluctuation switch 62 during the hot water supply operation. When the fluctuating operation is started, the fluctuating operation can be performed only for a predetermined time (for example, 15 minutes) after each fluctuating operation is started, and the fluctuation operation is continued for a predetermined time (for example, 15 minutes) or more. In this case, the fluctuation mode is automatically released when the predetermined time has elapsed and the fluctuation operation ends, and then the hot water supply mode is changed to the normal hot water supply operation. Furthermore, during the fluctuation operation in fluctuation mode, close the stopcock, etc.
Even when the detected flow rate of the hot water supply flow rate sensor 31 is less than the operation stop flow rate and the hot water supply is finished, the fluctuation mode is automatically canceled and the hot water supply mode is set when the fluctuation operation stops with the combustion of the main burner 3. After that, when hot water is supplied again, the fluctuation operation is not performed even if it is within a predetermined time after the switching to the fluctuation mode or the start of the fluctuation operation, and the normal hot water supply operation is performed as the hot water supply mode.

On the other hand, when the fluctuation switch 62 is operated during the above-described hot water filling operation, the hot water filling operation is temporarily interrupted to enter the fluctuation standby state as the fluctuation mode in the hot water supply operation, and the fluctuation standby state is released or fluctuated. When the fluctuation mode is released due to the end of the operation, the suspended filling operation is restored, and the filling operation is performed so as to continue from the state before the interruption. When the fluctuation switch 62 is operated to instruct to stop the fluctuation motion during the fluctuation standby state or during the fluctuation motion, or the priority changeover switch 61 is operated, the operation priority right is switched from the bath remote controller 60 to the main remote controller 50. In this case, the fluctuation mode for the fluctuation operation is canceled, and the fluctuation standby state is changed to the normal hot water supply standby state or the fluctuation operation is changed to the normal hot water supply operation.

The temperature control unit 43 has a feedforward control unit (hereinafter referred to as "FF control unit") 43a and a feedback control unit (hereinafter referred to as "FB control unit") 43b, and via the communication control unit 41. The target heating amount of the main burner 2 is determined based on the set temperatures transmitted from the remote controllers 50 and 60, the detected information of the hot water supply temperature thermistor 32, the hot water supply temperature thermistor 33, and the hot water supply flow rate sensor 31. In the normal hot water supply operation and the hot water filling operation, the FF control unit 43a performs the feedforward control for determining the target temperature based on each set temperature, the water supply flow rate, and the target heating amount based on the water supply temperature and detected by the hot water temperature thermistor 33. When the discharged hot water temperature satisfies a predetermined condition, feedback control by the FB control unit 43b based on the discharged hot water temperature is further performed together with the feed forward control to stabilize the discharged hot water temperature. In the FF control unit 43a of this embodiment, the target heating amount (gas supply amount) by the feedforward control is set.
Qff is given by the following equation. Qff = (Tset-Tin) × W ÷ EX where Tset is the target temperature set by the remote controller, T
in is the water temperature detected by the water temperature thermistor 32, W
Is the water supply flow rate detected by the water supply flow rate sensor 31, and EX is the heat exchange rate. Further, the target heating amount (gas supply amount) Q when the feedback control by the FB control unit 43b is performed together with the feedforward control is given by the following equation. Q = Qff + P + I + D where P is a proportional correction amount in feedback control,
I is the integral correction amount in the feedback control, D is the differential correction amount in the feedback control, P = E (Tset-Tout) * W I = I {n-1} + bWn * (Tset-Tout) D = [Delta] Tout * respectively given by d. In the above equations, E is a proportional constant, Tout is the hot water temperature detected by the hot water temperature thermistor 33, I {n-1} is the previously obtained integral correction amount, and b
Is an integration constant, Wn is the current flow rate, ΔTout is the difference between the hot water temperature at this time and the hot water temperature at the previous time, and d is a negative constant. On the other hand, in the fluctuation operation in the hot water supply operation, the above feedback control is not performed at all, and the target temperature is determined only by the feedforward control. That is, the combustion control is performed only by the target heating amount Qff that does not use the proportional correction amount P, the integral correction amount I, and the differential correction amount D. As a result, the hot water temperature in the fluctuation operation can be quickly changed according to the target temperature, the temperature change characteristics of the hot water and hot water are improved, and an excellent massage effect is obtained.

When the detected flow rate of the feed water flow rate sensor 31 becomes equal to or higher than the operation flow rate, the combustion control section 44 activates the ignition device (not shown) and also the gas proportional valve 5 arranged in the gas supply passage 4 to the main burner 2. Gas solenoid valves 6, 6a, blower 7
When the ignition detection is performed by a flame detection member such as a frame rod or a thermocouple (not shown) in accordance with a predetermined sequence, the ignition control is performed based on the target heating amount determined by the temperature control unit 43. Determine the gas supply amount, drive the blower 7 accordingly,
The number of revolutions of the blower 7 is detected to control the above valves to heat the water passing through the main heat exchanger 11 to the target temperature. In addition, as a safety control, when misfire is detected by the flame detection member during heating, the gas solenoid valves 6 and 6a are closed to stop the supply of fuel gas to the main burner 2.

The water amount control unit 45 controls the opening degree of the water amount servo 16 and the open / closed state of the water bypass solenoid valve 19 so that the flow rate of the water supplied by the water supply pipe 13 corresponds to the heating capacity of the main burner 2. To ensure the hot water supply flow rate and prevent drainage. The bath controller 46 closes the first two-way valve 22 and opens the second two-way valve 25 by the control from the operation controller 42 in the boiling and reheating operations as the final operation of the filling operation. When the water flow is detected by the water flow switch 35 when 24 is driven, the ignition device (not shown) is activated, and
The bath solenoid valve 8 and the bath fan 9 are operated to control the combustion of the bath burner 3, and when the bath thermistor 36 detects a predetermined temperature or when a predetermined time elapses, the bath burner 3 is operated. Stop burning. In addition,
4A in the gas supply path 4 is a source solenoid valve for stopping all gas supply to the burners 2 and 3, and 8a is a gas governor for keeping the gas supply pressure constant.

Each of the remote controllers 50 and 60 has a microcomputer operated by electric power supplied from the control device 40, has an operating switch, a hot water filling switch and the like (not shown), and supplies hot water as a target temperature in each operation. Equipped with several setting switches for setting the temperature or filling temperature, etc., and a liquid crystal display device for displaying the operating state and operating state of each, hot water supply operation, filling operation according to the operation of each switch. Etc., and the setting information of each operation is transmitted to the control device 40.

First, the hardware configuration of the main remote controller 50 will be briefly described. As shown in FIG. 1, the main remote controller 50 includes a microcomputer 5 having an input / output circuit.
1. A switch operating portion 52 including several switches for performing a driving operation or a temperature setting operation, and an operation display including some light emitting diodes provided along with push button portions of each switch of the switch operating portion 52. Part 53,
It comprises a liquid crystal display device 54 for displaying in detail the operating state during each operation. The operation display section 53 has a priority display lamp 53a indicating the presence or absence of the operation priority right. When the main remote control 50 is given the operation priority right, the priority display lamp 53a lights up and the bath remote control 60 is operated. When the priority right is given, the priority display lamp 53a is turned off. On the other hand, the liquid crystal display device 54, as shown in FIG. 4, displays each set temperature, target water level, time, etc., and when the fluctuation mode for performing the fluctuation operation is entered, a fluctuation display indicating that fact. The portion 54a is provided. Hot water supply temperature display unit 5 that displays the set temperature of hot water supply
4b displays the same value as the temperature shown on the hot water supply temperature display section of the bath remote controller 60, which will be described later. In the hot water supply mode, hot water is supplied at the displayed set temperature, and in the fluctuation mode. Performs a fluctuation operation with the displayed set temperature as an upper limit. In the present embodiment, a hiragana character "fluctuation" is used as the fluctuation display portion 54a. This "fluctuation" character is displayed in the fluctuation mode during hot water supply operation, and is not displayed in the hot water supply mode. .

On the other hand, the bath remote controller 60 is provided with a priority changeover switch 61 for preferentially setting the hot water supply temperature with respect to the main remote controller 50, and the hot water is discharged to give a massage effect when the shower is used in the hot water supply operation. A fluctuation switch 62 for performing a "fluctuation shower" that changes the temperature in a predetermined pattern is provided. Hereinafter, a functional configuration for hot water supply operation in the bath remote controller 60 and its function will be described. As shown in FIG. 5, the bath remote controller 60 has a hot water supply temperature setting unit 71 for setting a hot water supply target temperature in accordance with a signal from a hot water supply temperature setting switch 63 including a pair of push button switches for setting the hot water supply temperature, and a fluctuation. A fluctuation temperature generator 72 for changing the hot water supply target temperature according to a fluctuation operation instruction to the switch 62, and one of these is selected according to the hot water supply mode or fluctuation mode in the hot water supply operation, and the bath remote control 60 is used. There is an operation selection unit 73 for setting the hot water supply target temperature.

The hot water supply temperature setting unit 71 has a hot water supply temperature setting switch 6 in the hot water supply mode in which the fluctuation operation is not performed.
In accordance with the pushing operation to 3, the temperature is changed step by step between 35 ° C and 75 ° C, and the controller 4 is set as the hot water supply target temperature.
Transmit to 0. Further, when switching from the fluctuation mode to the hot water supply mode, the upper limit temperature in the fluctuation operation determined by the upper limit temperature determination unit 74 of the fluctuation temperature generation unit 72 described later is set as the hot water supply set temperature in the hot water supply operation.

Fluctuation temperature generation unit 72 is a functional unit for generating a hot water supply target temperature that changes in a predetermined pattern in order to change the hot water discharge temperature during the fluctuation operation in the fluctuation mode, and upper limit temperature determination unit 74. , A basic signal generator 75, a signal selector 76, and a lower limit temperature limiter 77.

The upper limit temperature determining portion 74 is a portion for determining the upper limit temperature of the hot water supply target temperature which changes in a predetermined pattern in the fluctuation operation, and basically, sets the hot water supply temperature when the hot water supply mode is switched to the fluctuation mode. The hot water supply set temperature of unit 71 is determined as the upper limit temperature of the hot water supply target temperature in the fluctuation operation. However, in consideration of the purpose and usage entity of "fluctuation shower" for the purpose of massage effect, it is possible to determine a temperature higher or lower than necessary for the human body because it is not preferable from the safety and sensory viewpoints. The upper limit temperature is limited to the range of 39 ° C to 44 ° C, and when the hot water supply target temperature set by the hot water supply temperature setting unit 71 exceeds 44 ° C, the maximum value of the upper limit temperature is set to 44 ° C, and the hot water supply is performed. When the target temperature is lower than 39 ° C., it is set to 39 ° C. as the minimum value of the upper limit temperature, and for the temperatures between 39 ° C. and 44 ° C., the temperatures set by the hot water supply temperature setting switch 63 are respectively set to the upper limit. Determine as temperature.

The basic signal generator 75 preliminarily sets the power spectrum of temperature change to 1 / f with respect to its frequency f, as shown in FIG. 6, for the massage effect by the "fluctuation shower". A signal storage unit that stores some of the determined signal patterns S0, S1, S2, and S3, and the signal patterns S0 to S3 are read and the upper limit value is shifted so as to match the upper limit temperature of the upper limit temperature determination unit 74. When the fluctuation operation is started, each of the signal patterns S0 to S3 is read in a predetermined order instructed by the signal selection unit 76 described below and used as a signal of the hot water supply target temperature. In the present embodiment, the change of the outlet hot water temperature due to the fluctuation operation is not started until the outlet hot water temperature reaches the upper limit temperature, and when it is transmitted from the control device 40 that the upper limit temperature is detected by the outlet hot water temperature thermistor 33, the outlet hot water temperature is transmitted. The reading of the signal pattern for the change of the signal starts, and at the beginning of the fluctuation operation, the initial signal S0 in which the temperature simply changes between the maximum value and the minimum value included in the changing signal patterns S1 to S3 is read. Was issued and then
The signal patterns S1 to S3 are read out in a predetermined order according to the selection signal of the signal selection unit 76, and thereafter, the initial signal S
0 and the signal pattern S selected according to the signal selection unit 76
1 to S3 are read alternately.

The signal selecting section 76 is a section for determining the reading order of the plurality of signal patterns S1 to S3 stored in the basic signal generating section 75, and the reading order is such that the user of the "fluctuation shower" outputs each signal. In order to make the order of the patterns S1 to S3 insensitive, the patterns are read out in a different order each time the fluctuation operation is performed. Here, the signal patterns S1 to S3 to be read and the order of reading the signal patterns are calculated by a predetermined arithmetic expression based on the number of fluctuation operations by the fluctuation switch 62. Since these are sequentially calculated during the fluctuation operations, the fluctuation operations are performed. Even when it ’s relatively long,
The user does not feel the pattern of changes in the tap water temperature.

The temperature signal of the basic signal generator 75 read as the hot water supply target temperature may include a low target temperature which is not suitable as the hot water supply target temperature depending on the set upper limit temperature. If the combustion control is performed in accordance with the above, there is a possibility that defective operation such as generation of drain may occur depending on the usage conditions. In order to prevent such defective operation, the lower limit temperature limiter 77 limits the minimum target temperature in case the low target temperature is included in the temperature signal of the basic signal generator 75, and sets a temperature at which the defective operation does not occur. Correct to. In the present embodiment, all the temperature signals of 30 ° C. or lower among the temperature signals shifted by the signal reading unit of the basic signal generating unit 75 are corrected to 30 ° C.

The operation selection section 73 is a functional section for changing the setting state of the hot water supply target temperature in accordance with the hot water supply mode or the fluctuation mode which is switched by the operation state of the fluctuation switch 62 and the like. In the case of the fluctuation standby state or the fluctuation operation in which the hot water supply target temperature is determined by the temperature generation unit 72, the fluctuation standby state or the fluctuation operation is completed in response to the operation of the fluctuation switch 62 or according to the above-mentioned conditions. When information indicating that the fluctuation mode has been released is transmitted from control device 40, hot water supply temperature setting unit 71 switches to setting the hot water supply target temperature. Thus, in the hot water supply mode, the hot water supply temperature setting unit 71 sets the hot water supply target temperature in both the hot water supply standby state and the hot water supply operation, and in the fluctuation mode, in both the fluctuation standby state and the fluctuation operation. The fluctuation temperature generation unit 72 sets the hot water supply target temperature and changes the hot water supply temperature accordingly.

Next, the operation relating to the fluctuation mode of the automatic gas water heater 1 of the present embodiment having the above configuration will be described with reference to FIG. When the fluctuation switch 62 is turned on and the fluctuation mode is instructed (YES in step 1).
S), it is determined whether or not the operation priority is given to the main remote controller 50, and when the operation priority is given to the bath remote controller 60 (NO in step 2),
The hot water supply mode is switched to the fluctuation mode (step 3), and at this time, the 15-minute timer starts counting in the timer section 42a. If the operation priority is given to the main remote controller 50 (YES in step 2), the operation priority is switched (step 4), the bath remote controller 60 is given the operation priority, and then the step 3 Then, the hot water supply mode is switched to the fluctuation mode, and the 15-minute timer starts counting. When the hot water supply mode is switched to the fluctuation mode, bath remote controller 60 and main remote controller 50 display the fluctuation mode on their respective liquid crystal display devices. When the operation priority is switched to the bath remote controller 60 by switching the operation priority, the priority display lamp 53a of the main remote controller 50 is turned off accordingly, and the priority display lamp (not shown) of the bath remote controller 60 is switched on. Light.

When the fluctuation mode is entered, it is determined whether or not the hot water supply operation is being performed as the operation state determination (step 5). If the hot water supply operation is being performed (YES in step 5), the process proceeds to step 20, and the fluctuation operation is started, whereby the hot water supply target temperature changes in a predetermined pattern, and the hot water supply temperature changes accordingly. To do. If the hot water supply operation is not being performed (NO in step 5), it is determined whether or not the hot water filling operation is being performed (step 6). When the filling operation is not performed (NO in step 6), it is determined whether or not the flow rate of water passing through the main heat exchanger 11 is equal to or higher than the operation flow rate for starting the operation of the main burner 2. (Step 9). If the water filling operation is being performed (YES in step 6), the water filling operation is once interrupted (step 7), and 3 seconds have elapsed since the process of interrupting the water filling operation was started (YES in step 8). , Go to step 9.

When the detected flow rate of the feed water flow rate sensor 31 is not higher than the operation flow rate (NO in step 9), it is determined whether or not there is an instruction to stop the fluctuation operation by the fluctuation switch 62 (step 10), and the fluctuation switch 62 is determined.
If there is no OFF operation of
O), and further, it is determined whether or not there is a switching operation of the operation priority right from the bath remote controller 60 to the main remote controller 50 by the priority changeover switch 61 (step 11), and when there is no operation priority switching operation (step 11). At N
O), it is determined whether or not 15 minutes have elapsed since the 15 minute timer started counting (step 12). If 15 minutes have not elapsed (NO in step 12), the process proceeds to step 9 and Each determination in steps 9 to 12 is repeated.
When all of the above steps 9 to 12 are NO, the control device 40 repeats the loop of steps 9 to 12 until the water stop valve is opened and the hot water supply operation by the fluctuation operation is started. Waiting for the fluctuation.

When the flow rate detected by the feed water flow rate sensor 31 becomes equal to or higher than the operating flow rate due to the opening of the water stop cock or the like in the fluctuation standby state (YES in step 9), the timer section 42a of the timer section 42a at that time. After the 15-minute timer is cleared and restarted (step 13), the process moves to step 20 to perform the fluctuation operation. On the other hand, in the fluctuation standby state, when the fluctuation switch 62 is turned off (YES in step 10), the fluctuation mode is canceled (step 14), and the fluctuation switch 62 is released.
Returns to the state before was turned on. Similarly, in the fluctuation standby state, when the operation priority is switched by the priority switch 61 and the operation priority is switched from the bath remote controller 60 to the main remote controller 50 (YES in step 11), The fluctuation mode is released (step 14). Also, the fluctuation waiting state is 1
When 5 minutes have passed (YES in step 12), the fluctuation mode is automatically canceled even if the above-described canceling operations are not performed (step 14). When the fluctuation mode is canceled in the fluctuation standby state, the fluctuation standby state is returned to the hot water supply standby state, or the hot water filling operation is returned to the hot water filling operation.

Next, the fluctuation operation in step 20 will be described with reference to FIG. Here, the fluctuation operation means that hot water is actually supplied in the fluctuation mode, and at that time, the hot water outlet temperature changes in a predetermined pattern. When the process shifts to step 20 by the determination in step 5 or step 9 above, the fluctuation operation is started (step 21), the upper limit temperature is determined according to the hot water supply target temperature of the hot water supply temperature setting unit 71 in the bath remote controller 60, and this upper limit is set. The fluctuation temperature that changes in a predetermined pattern according to the temperature is transmitted to the temperature adjustment control unit 43 via the communication control unit 41 of the control device 40. At this time, the temperature control unit 43 determines the target heating amount only by the FF control unit 43a, and the combustion control unit 44 controls the combustion of the main burner 2 accordingly. Once the fluctuation operation is started,
The operation is stopped according to the following determination results. The condition for stopping the fluctuation operation is almost the same as the condition for canceling the fluctuation mode in the fluctuation waiting state described above, and when the detected flow rate of the water supply flow rate sensor 31 becomes equal to or lower than the operation stop flow rate (YES in step 22), Fluctuation switch 6
When the fluctuation operation is turned off by 2 (YES in step 23), the operation priority is switched from the bath remote controller 60 to the main remote controller 50 by the priority changeover switch 61 (Y in step 24).
ES), if the duration of the fluctuating operation exceeds 15 minutes (YES in step 25), and in any of these cases, the fluctuating operation ends (step 2).
6) After that, the process shifts to step 14 and the fluctuation mode is automatically released when the fluctuation operation is completed. In addition, when the fluctuation operation is completed in accordance with the predetermined condition in step 20, and the process proceeds from step 23, 24, 25 to step 26, the upper limit temperature is set to the hot water supply target temperature until the flow rate becomes the operation stop flow rate or less. Hot water supply operation is continued. When the fluctuation operation is completed after shifting from step 22 to step 26, the hot water filling operation before the fluctuation mode is entered or the hot water supply standby state is returned.

As described above, according to the present invention, when the fluctuation mode is switched by the fluctuation switch 62 of the bath remote controller 60, the main remote controller 50 displays the fluctuation mode on the fluctuation display section 54a of the liquid crystal display device 54. When hot water is supplied, it can be easily determined that the fluctuation operation in which the hot water temperature changes according to time changes is performed. Therefore, the hot water is not supplied by mistakenly thinking that it is a hot water supply operation based on a mere constant temperature displayed as the hot water supply set temperature. In this embodiment, the fluctuation display unit 54
Although the character "fluctuation" is used as a, a rod-shaped level may be displayed and the length of the rod-shaped level may be changed according to the hot water supply target temperature of the fluctuation. In this embodiment, the liquid crystal display device is shown as the notification device, but a buzzer,
A notification device using a voice such as a synthetic voice or a melody may be used.
In this embodiment, the water supply pipe 13, the hot water discharge pipe 15, and the water bypass pipe 14 and the water bypass valve 19 that bypass the water supply pipe 13 are shown, but they may not be provided.

[Brief description of drawings]

FIG. 1 is a block diagram showing a hardware configuration of a main remote controller in an automatic gas water heater showing an embodiment of the present invention.

FIG. 2 is a schematic configuration diagram showing a configuration of an automatic gas water heater showing an embodiment of the present invention.

FIG. 3 is a functional block diagram of a control device for an automatic gas water heater showing an embodiment of the present invention.

FIG. 4 is a plan view showing the outer appearance of the main remote controller in the automatic gas water heater according to the embodiment of the present invention.

FIG. 5 is a functional block diagram of a bath remote controller in the automatic gas water heater showing the embodiment of the present invention.

FIG. 6 is a waveform diagram showing the waveform of the target temperature by the fluctuation temperature generator in the bath remote controller of the automatic gas water heater according to the embodiment of the present invention.

FIG. 7 is a flow chart for explaining an operation regarding a fluctuation mode in the gas automatic water heater according to the embodiment of the present invention.

FIG. 8 is a flow chart for explaining an operation of a fluctuation operation in the automatic gas water heater according to the embodiment of the present invention.

[Explanation of symbols]

 1 gas automatic water heater (water heater) 2 main burner (heating source) 11 main heat exchanger (water heating circuit) 40 control device (control device for water heater) 50 main remote controller (first operation device) 54a fluctuation display part ( Fluctuation display device) 60 Bath remote control (second operation device) 62 Fluctuation switch (fluctuation instruction switch)

 ─────────────────────────────────────────────────── --- Continuation of the front page (72) Inventor Hiroaki Kumazawa 2-26 Fukuzumi-cho, Nakagawa-ku, Nagoya, Aichi Rinnai Co., Ltd. (72) Inventor Ryutaro Miwa 2-26 Fukuzumi-cho, Nakagawa-ku, Nagoya, Aichi Rinnai Incorporated (56) References JP-A-61-285344 (JP, A)

Claims (1)

(57) [Claims] 1. A first manipulator and a second manipulator for setting a target temperature of hot water to be heated by a water heating circuit including a heat exchanger having a heat source, the first manipulator or the second manipulator. the control apparatus water heater for normal hot water supply operation for controlling the heating amount of the heating source based on the set target value by the second manipulator, the the second operation unit, the operation for setting the target value vessel
A changeover switch for selecting, and a fluctuation operation for changing the heating amount of the heating source according to the time change in order to change the temperature of the hot water heated by the water heating circuit according to the time change. A fluctuation indication switch ,
First switch for displaying switching by the changeover switch
Change display means and fluctuation movement by the fluctuation indication switch
A first fluctuation notifying device for notifying a work instruction is provided, and the first operation device is switched by the changeover switch.
Second switching display means for displaying
The second fluctuation that notifies the fluctuation operation instruction by the switch.
And a first notification device is selected by the changeover switch.
The fluctuation operation with the fluctuation instruction switch,
When instructed, move the actuator that sets the target value
Switch from the first manipulator to the second manipulator
Switching from hot water operation to fluctuation operation for the fluctuation operation
Water heater controller, characterized in that to obtain.