JP2016200351A - Water heater - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a water heater capable of encouraging a user to make an inquiry to a maker in a necessary time of maintenance and inspection.SOLUTION: A water heater includes a hot water supply portion constituted to supply hot water to a tapping part, and a control portion for controlling an operation state of the hot water supply portion. The hot water supply portion has a flow channel from a water source side to the tapping part, a heat exchanger disposed on the way of the flow channel, a burner capable of heating the water in the heat exchanger by burning a fuel, and a water passing detection portion capable of detecting water passing to the flow channel. The control portion has a determination portion (S110) for determining whether the hot water supply portion reaches a long period use state in which it is used for a prescribed long period or more, or not, and an ignition processing time changing portion (S180) for changing a time necessary for an ignition processing from detection of water passing to the flow channel by the water passing detection portion to start of the combustion in the burner, between a case where the long use state is not determined by the determination portion and a case where the long period use is determined.SELECTED DRAWING: Figure 3

Description

  The present invention relates to a water heater.

  A latent heat recovery type water heater is known (for example, see Patent Document 1). This type of latent heat recovery type water heater is provided with a neutralizer to neutralize acidic drain (condensed water). The neutralizing agent in the neutralizer decreases as the drain is neutralized. Therefore, when a water heater is used over a long period of time, maintenance of the neutralizer (replenishment with a neutralizing agent) is necessary. Therefore, in this type of water heater, a notification (warning) is displayed to the effect that the replenishment time of the neutralizing agent is approaching.

  Moreover, when a water heater is used over a long period of time, deterioration over time may occur in components of the water heater. When such deterioration over time is expected, special measures such as special display or voice notification (warning) may be taken, or the error recovery operation may be complicated.

JP 2009-92286 A

  However, even if the above-mentioned special display or voice notification is given, such notification alone does not cause any inconvenience in actual use of the water heater, and the user of the water heater has a problem in using the device. Can continue without. Therefore, there is a possibility that the user of the water heater will continue to use the water heater without making an inquiry to the trader (manufacturer, dealer, etc.).

  On the other hand, when the return operation from the error is complicated, the user cannot use the water heater until a specialized engineer visits the site. For this reason, if even maintenance / inspection is received, the user is forced to be inconvenienced even though the situation where the use of the water heater should not be immediately prohibited has been reached.

  In view of the above circumstances, it is desirable to provide a water heater that can prompt the user to make an inquiry to a supplier when maintenance and inspection are required.

  A water heater described below includes a hot water supply unit configured to be able to supply hot water to a tapping point, and a control unit that controls an operating state of the hot water supply unit, and the hot water supply unit is a flow path from the water source side to the tapping point. And a heat exchanger provided in the middle of the flow path, a burner capable of heating the water in the heat exchanger by burning fuel, a blower capable of supplying air to the burner, and discharged from the burner It has an igniter capable of igniting fuel and a water flow detection unit capable of detecting water flow to the flow path, and the control unit determines whether or not the hot water supply unit has been used for a long period of time longer than a predetermined value. The water flow detection unit detects water flow through the flow path when the determination unit determines that the long-term use state has not been reached and when the long-term use state has been determined by the determination unit. The time required for the ignition process from the start to the start of combustion with the burner And a spark processing time changing unit.

  According to the water heater configured as described above, the above-described ignition process is required when the hot water supply unit has not been used for a long period of time longer than a predetermined value and when the hot water supply unit has not been used for a long time. The time is changed. For this reason, when it reaches a long-term use state, it takes more time than before before the temperature of the hot water rises sufficiently. doubt. In addition, if the user wants the temperature of the hot water to rise as before, the possibility that he / she wants to correct the malfunction of the device is also increased. Therefore, it is possible to increase the possibility that the user of the water heater makes an inquiry to the supplier, and it is possible to suppress the user from continuing to use the water heater without undergoing maintenance / inspection.

FIG. 1 is an explanatory view showing a configuration of a water heater. FIG. 2 is a flowchart of the hot water supply process. FIG. 3 is a flowchart of an ignition process exemplified as the first embodiment. FIG. 4 is a flowchart of an ignition process exemplified as the second embodiment.

Next, the above-described water heater will be described with reference to an exemplary embodiment.
(1) First Embodiment First, a first embodiment will be described.

[Configuration of water heater]
As shown in FIG. 1, the water heater 1 has a hot water supply function for supplying hot water to a hot water tap or a bathtub 3 at a hot water outlet (not shown), and a bath function for keeping warm and reheating the hot water in the bathtub 3. It is an apparatus provided with.

  The water heater 1 has a hot water combustion chamber 5 and a bath combustion chamber 6. In the hot water combustion chamber 5, a hot water burner 11, a hot water primary heat exchanger 12A, a hot water secondary heat exchanger 12B, a hot water spark plug 13, a hot water frame rod 14, and the like are disposed. Further, a bottom burner 15, a bottom primary heat exchanger 16A, a bottom secondary heat exchanger 16B, a bottom spark plug 17, a bottom frame rod 18, a bottom combustion chamber thermistor 19 and the like are disposed in the bottom combustion chamber 6. ing.

  The hot water supply primary heat exchanger 12 </ b> A is a heat exchanger that mainly recovers sensible heat from the high-temperature exhaust gas generated by combustion in the hot water supply burner 11. The hot water supply secondary heat exchanger 12B is a heat exchanger that mainly recovers latent heat from the exhaust gas whose temperature has decreased due to heat exchange in the hot water supply primary heat exchanger 12A. The bath primary heat exchanger 16 </ b> A is a heat exchanger that mainly recovers sensible heat from the high-temperature exhaust gas generated by combustion in the bath burner 15. The bottom secondary heat exchanger 16B is a heat exchanger that mainly recovers latent heat from the exhaust gas whose temperature has decreased due to heat exchange in the bottom primary heat exchanger 16A.

  In the hot water supply secondary heat exchanger 12B and the bath secondary heat exchanger 16B, heat is further removed from the exhaust gas having a correspondingly high relative humidity. Therefore, the water vapor in the exhaust is condensed and drain (condensed water) is generated. In order to treat this drain, the water heater 1 is provided with drain drain pipes 20A and 20B, a neutralizer 21, and a drain pan 22. The drain collected by the drain pan 22 flows into the neutralizer 21 through the drain drain pipe 20A. The neutralizer 21 is provided to neutralize acidic drain containing nitrogen oxide or sulfur oxide. The neutralizer 21 is filled with a neutralizing agent (for example, calcium carbonate) that neutralizes the drain. Further, a neutralizer water level electrode 21 </ b> A that switches from off to on when the water level in the neutralizer 21 exceeds the upper limit value is provided inside the neutralizer 21. The neutralized drain that flows out from the neutralizer 21 is discharged to the outside through the drain drain pipe 20B.

  The water heater 1 has a combustion fan 23, and is configured to supply air to the hot water combustion chamber 5 and the bottom combustion chamber 6 by rotationally driving the combustion fan 23 by a fan motor 23A. . An exhaust top 24 is provided in the upper part of the hot water combustion chamber 5 and the bottom combustion chamber 6, and the exhaust can be exhausted to the outside of the hot water combustion chamber 5 and the bottom combustion chamber 6 through the exhaust top 24. In addition, an overheat prevention device 25 that forcibly stops the operation of the water heater 1 by fusing when the surroundings are in an abnormally high temperature state is provided near the hot water combustion chamber 5.

  Further, the water heater 1 includes a gas supply pipe 26 serving as a gas supply path to the hot water burner 11 and the bottom burner 15. The gas supply pipe 26 has a main pipe 260 whose upstream end is connected to a gas supply source (for example, a city gas pipe or a propane gas pipe), and branch pipes 261, 262, 263, 264 branched from the main pipe 260. The gas is supplied to the hot water supply burner 11 and the bottom burner 15 through the branch pipes 261 to 264. In the gas supply pipe 26, the main pipe 260 is provided with an original gas electromagnetic valve 27 and a gas proportional valve 28. The branch pipes 261 to 264 are provided with hot water supply gas solenoid valves 291, 292 and 293 and bath gas solenoid valves 294.

  Furthermore, the hot water heater 1 includes hot water supply pipes 30 that form a water inlet to the hot water secondary heat exchanger 12B, hot water pipes 31 that form a hot water outlet from the hot water primary heat exchanger 12A, A bypass pipe 32 that branches off from the middle of the flow path of the water supply pipe 30 and communicates with the hot water discharge pipe 31 is provided. Further, as a bathing function piping, a bathing return pipe 33 that forms a bathing return passage for returning hot water in the bath 3 to the bathing secondary heat exchanger 16B, and bathing from the bathing primary heat exchanger 16A to the bath 3 A forward piping 34 that forms a flow path is provided. The bottom return pipe 33 and the bottom return pipe 34 form a part of a circulation channel that returns from the bathtub 3 to the bathtub 3 through the bottom secondary heat exchanger 16B and the bottom primary heat exchanger 16A. A branch pipe 35 that branches from the middle of the flow path of the hot water pipe 31 and communicates with the middle of the flow path of the bath return pipe 33 is provided between the hot water pipe 31 and the bath return pipe 33.

  Among these pipes, the water supply pipe 30 has an upstream end connected to a water supply source (for example, a water pipe). In the middle of the flow path from the upstream end side to the downstream end side of the water supply pipe 30, a strainer 36 for filtering water flowing from the upstream side to the downstream side in order from the upstream end side, and the amount of water flowing in the water supply pipe 30 are detected. There are provided a hot water supply water amount sensor 37, a hot water supply water thermistor 38 for detecting the temperature of the water flowing to the hot water primary heat exchanger 12A, a water amount control motor 39 for increasing / decreasing the amount of water flowing in the water supply pipe 30, and the like.

  The downstream hot water pipe 31 has a downstream end connected to a hot water outlet through a pipe. In the middle of the flow path from the upstream end side to the downstream end side of the hot water discharge pipe 31, in order from the upstream end side, a hot water supply emptying safety device 40 for forcibly stopping the hot water supply device 1 when hot water is detected, hot water supply Hot water supply heat exchanger thermistor 41 for detecting the temperature of hot water flowing out of the primary heat exchanger 12A, hot water supply hot water thermistor 42 for detecting the temperature of hot water downstream of the junction of the hot water discharge pipe 31 and the bypass pipe 32, and the hot water discharge pipe 31 An overpressure relief valve / water drain plug 43 that operates when the internal pressure becomes excessive and releases the pressure, and a water hammer buffer valve 44 that alleviates the water hammer action that occurs when hot water is stopped are provided. The bypass pipe 32 is provided with a bypass control motor 45 that performs increase / decrease control of the amount of water flowing through the bypass pipe 32.

  The branch pipe 35 is a pipe that forms a hot water supply path to the bath return pipe 33 on the downstream side with the hot water discharge pipe 31 side as the upstream side. In the middle of the flow path from the upstream end side to the downstream end side of the branch pipe 35, a dropped water electromagnetic valve 46 that is opened when hot water is supplied to the bathtub 3 through the branch pipe 35, and the amount of water flowing through the branch pipe 35 Are provided, and a check valve 48A, 48B and the like for preventing backflow in the branch pipe 35 are provided. The branch pipe 35 is provided with an edge cut-off valve 49, and due to a decrease in water pressure on the water supply side (water supply pipe 30 side) or the like, the flow that should be on the upstream side from the flow path that should be on the downstream side of the branch pipe 35. When a negative pressure that sucks water into the road is generated, the edge cut valve 49 is opened to prevent water from flowing back through the branch pipe 35.

  The upstream return pipe 33 is attached to the bathtub 3 via the bus adapter 50 on the upstream end side. In the middle of the flow path from the upstream end side to the downstream end side of the bath return pipe 33, hot water is supplied from the upstream side to the downstream side in the bath return thermistor 51 for detecting the temperature of hot water flowing in from the bathtub 3. Pump 52 for pumping, bath water flow switch 53 for detecting the flow of water (hot water) through the bath return pipe 33, a water level sensor 54 for detecting the water level in the bathtub 3 based on the pressure in the bath return pipe 33, etc. Is provided.

  Incidentally, when the hot water in the bathtub 3 is pressure-fed to the bath secondary heat exchanger 16B, the bath return pipe 33 has the upstream end on the bus adapter 50 side and the downstream end on the bath secondary heat exchanger 16B side as described above. However, when hot water is supplied to the bathtub 3 through the branch pipe 35, the hot water flows in the opposite direction from the junction of the bath return pipe 33 and the branch pipe 35 toward the bus adapter 50. It becomes a state.

  The downstream pipe 34 is attached to the bathtub 3 via the bus adapter 50 on the downstream end side. In the middle of the flow path from the upstream end side to the downstream end side of the bath piping 34, a bath safety device 55 and a bath primary heat exchanger 16 </ b> A for forcibly stopping the hot water heater 1 when it is detected. An outflow thermistor 56 is provided for detecting the temperature of hot water flowing out from the water.

  Moreover, drain pipes 57A, 57B, 57C, 57E, and 57F are provided in various pipes with which the water heater 1 is provided. By opening these drain pipes 57A to 57F, the water in the pipes is discharged to the outside. It is configured to be possible.

  In addition, the water heater 1 includes a controller 60 (corresponding to an example of a control unit referred to in the present specification) for controlling the operation state of the water heater function and the bath function, a hot water remote controller 61 disposed outside the bathroom, And a bathroom remote control 62 disposed in the bathroom. The controller 60 incorporates a microcomputer having a CPU, ROM, RAM, and the like. The various sensors described above (the hot-water supply frame rod 14, the bath frame rod 18, the hot-water supply water thermistor 38, the hot-water supply heat exchanger thermistor 41, the hot-water supply hot water supply). The information is input from the thermistor 42, the return thermistor 51, the forward thermistor 56, etc.), and the above-described various solenoid valves (the original gas solenoid valve 27, the gas proportional valve 28, the hot water supply solenoid valves 291 to 293, the bath gas solenoids). Valve 294, drop water electromagnetic valve 46, etc.), various motors (fan motor 23A, water amount control motor 39, bypass control motor 45), and operation of pump 52, etc. are controlled.

  In addition, the controller 60 is configured to store history information to that effect in a nonvolatile memory (corresponding to an example of a history storage unit in the present specification) when a long-term use state is reached. In the case of the present embodiment, the water heater 1 has been used for 10 years or more without being subjected to maintenance / inspection since the start of use, or has been used for 10 years or more since the last maintenance / inspection. In this case, it is determined that a long-term use state has been reached, and history information to that effect is stored in the nonvolatile memory.

  Both the hot water remote controller 61 and the bath remote controller 62 are provided with a user interface such as an input unit that accepts an input operation from a user and an output unit that displays information and outputs sound to the user, and the information input from the input unit is a controller. In addition to being transmitted to 60, information is displayed and sound is output from the output unit based on information transmitted from the controller 60. The input unit is provided with a plurality of switches including an operation switch that can switch whether the water heater 1 is in an operation state or an operation stop state.

  The sounds output from the hot water remote controller 61 and the bathroom remote controller 62 include an alarm sound or an alarm message for alerting the user, an acceptance sound output when various switches are operated, and the like. The hot water remote controller 61 and the bath remote controller 62 are configured such that a user can execute a call between the hot water remote controller 61 and the bath remote controller 62. When the user performs an operation for starting a call on one of the hot water remote controller 61 and the bath remote controller 62, a ringing tone is output on the other remote controller. When a predetermined operation is performed on the other remote controller according to the ringing tone, a call can be started between the hot water remote controller 61 and the bath remote controller 62.

[Operating state during hot water operation]
Next, the outline | summary is demonstrated about the operating state of the water heater 1 when a user performs hot water supply operation. When the user opens the hot water tap at the hot water outlet, the water flowing in from the water inlet goes to the hot water primary heat exchanger 12A through the hot water quantity sensor 37 and the hot water secondary heat exchanger 12B. At this time, a signal having a frequency corresponding to the flow velocity is output from the hot water supply amount sensor 37, and when the controller 60 senses that this signal has reached a specified frequency, the controller 60 controls the fan motor 23A to control the combustion fan 23. Rotate.

  After the combustion fan 23 rotates and the pre-purge operation is performed, the original gas solenoid valve 27 and the hot water supply gas electromagnetic valves 291 to 293 are simultaneously opened, the gas proportional valve 28 is operated in a slow ignition operation, and gas is supplied to the hot water supply burner 11. Is done. At the same time, the hot water supply spark plug 13 is continuously discharged to ignite the hot water supply burner 11. After ignition, when the flame is detected by the hot water supply frame rod 14 and it is confirmed that it is burning, the slow ignition operation is terminated.

  When the slow ignition operation is finished, the proportional control is subsequently started. When there is a difference between the hot water temperature detected by the hot water supply hot water thermistor 42 and the set temperature arbitrarily set by the user, the controller 60 determines that there is a difference, and opens and closes the hot water supply gas electromagnetic valves 291 to 293 and the gas proportional valve. By 28, the amount of gas is continuously changed to keep the hot water temperature constant. In addition, since the water amount control motor 39 adjusts to an appropriate amount of water, the maximum amount of tapping water is always ensured. At this time, a signal is sent from the controller 60 to the fan motor 23A in accordance with a change in the gas amount by the gas proportional valve 28, whereby the relationship between the gas amount and the air amount is always kept constant.

  In a situation where hot water is being supplied as described above, when the user closes the hot water tap, the frequency signal from the hot water supply amount sensor 37 disappears, so the controller 60 uses the original gas solenoid valve 27 and the hot water supply gas solenoid valve 291. ˜293 is closed, the fire is extinguished, and the post-purge operation is started. Thereafter, when the post-purge operation times out, the combustion fan 23 stops.

[Operation state during bath operation]
Next, the outline | summary is demonstrated about the operating state of the water heater 1 when a user performs bathing operation. When the user presses the automatic switch of the hot water remote controller 61 or the bath remote controller 62, the dropped water electromagnetic valve 46 is turned on, the hot water quantity sensor 37 is turned on, and the hot water combustion operation is started. Hot water is supplied to the bathtub 3 through the check valves 48 </ b> A and 48 </ b> B and the bath water sensor 47. Thereafter, when the amount of water detected by the boiling water amount sensor 47 becomes the set amount of water, the dropped water electromagnetic valve 46 is turned off, the hot water supply water amount sensor 37 is turned off, and hot water supply combustion stops.

  Next, the pump 52 is activated to start circulating hot water. Circulation of hot water is detected by the bath water flow switch 53. At this time, if the temperature sensed by the return thermistor 51 is equal to or lower than the set temperature, the controller 60 controls the fan motor 23A to rotate the combustion fan 23. When the combustion fan 23 is rotated and a rotation speed signal is transmitted to the controller 60, the original gas solenoid valve 27 and the bottom gas solenoid valve 294 are then opened and the bottom burner 15 is supplied with gas and the bottom ignition is performed at the same time. The plug 17 is continuously discharged.

  When the bottom burner 15 is ignited, flame is detected by the bottom frame rod 18, discharge by the spark plug is stopped, and heating of the bottom is started. When the bath water circulated by the pump 52 reaches the set temperature, the bath return burner 15 is extinguished by detecting the temperature by the bath return thermistor 51 and the pump 52 is stopped. Then, a notification buzzer is sounded to inform the boiling.

  When the reheating combustion as described above is stopped and the interval time until the bath 3 hot water temperature is confirmed thereafter, only the pump 52 is operated to circulate the bath water. At this time, if the temperature of the bath is lower than the set temperature, retreat is performed. Thereafter, when the temperature of the bath becomes equal to or higher than the set temperature, the operation of the pump 52 stops there, and the pump 52 is activated after the interval time has elapsed, and the same operation as described above is repeated. These series of operations are stopped when an automatic switch of the hot water remote controller 61 or the bath remote controller 62 is pressed.

[Hot water treatment]
Hereinafter, the hot water supply process performed in the hot water heater 1 of the present embodiment will be described with reference to FIGS. 2 and 3. This hot water supply process is a process that is always executed in the controller 60 when the water heater 1 is in an operating state (a state in which the operation switch is turned on).

  When the hot water supply process is started, the controller 60 first determines whether or not the flow rate detected by the hot water supply amount sensor 37 is equal to or greater than a predetermined threshold value (S10), and the flow rate is less than the predetermined threshold value. (S10: NO), S10 is repeated by returning to S10.

  On the other hand, when the flow rate is equal to or greater than the predetermined threshold value in S10 (S10: YES), the controller 60 executes an ignition process (S20). Although details of the ignition process will be described later, as a result of executing the ignition process, gas combustion is started in the hot water supply burner 11.

  Subsequently, the controller 60 determines whether or not the flow rate detected by the hot water supply amount sensor 37 is equal to or less than a predetermined threshold value (S30), and when the flow rate exceeds the predetermined threshold value (S30). : NO), it is determined whether there has been a change in the incoming water temperature, the set temperature, or the flow rate (S40). When it is determined in S40 that there is no change in the incoming water temperature, the set temperature, or the flow rate (S40: NO), the controller 60 executes feedback temperature control (S50).

  In the feedback temperature control of S50, the controller 60 calculates the output (combustion output) necessary to reduce the temperature difference based on the temperature difference between the tapping temperature and the set temperature, and the rotational speed of the combustion fan 23, And the opening degree of the gas proportional valve 28 is adjusted. Further, when the output increase / decrease adjustment is necessary, the controller 60 switches the combustion stage having four stages to any one by switching the opening / closing of the hot water supply gas solenoid valves 291, 292, 293. When S50 ends, the process returns to S30. Thereby, when the flow rate exceeds a predetermined threshold and there is no change in the incoming water temperature, the set temperature, or the flow rate (S30: NO, S40: NO), S30 to S50 are repeatedly executed. become.

  On the other hand, when S30 to S50 are repeatedly executed and the incoming water temperature, the set temperature, or the flow rate is changed, an affirmative determination is made in S40 (S40: YES). In this case, the controller 60 performs feedforward temperature control (S60).

  In the feed forward temperature control of S60, the required output is calculated based on the incoming water temperature, the set temperature, and the flow rate. And while setting a combustion stage according to a required output, the rotation speed of the combustion fan 23 and the opening degree of the gas proportional valve 28 are set so that a required output can be obtained in the combustion stage. When S60 ends, the process returns to S30. As a result, when the flow rate exceeds a predetermined threshold and there is no change in the incoming water temperature, the set temperature, or the flow rate (S30: NO, S40: NO), S30 to S50 are repeated. It will be.

  If S30 to S50 are repeatedly executed and the flow rate is equal to or lower than the predetermined threshold (S30: NO), an affirmative determination is made in S30 (S30: YES). In this case, the controller 60 performs a fire extinguishing process (S70). In the fire extinguishing process of S70, all the hot water supply gas solenoid valves 291 to 293 are closed, and combustion in the hot water supply burner 11 is stopped. Further, the fan motor 23A is continuously driven for a predetermined time for exhaust and heat dissipation, and then the fan motor 23A is stopped. When the fire extinguishing control in S70 is completed, the process returns to S10. Thereby, it will be in the state which waits until the flow volume detected by the hot_water | molten_water supply amount sensor 37 becomes more than a predetermined threshold value again.

[Ignition processing]
Next, the ignition process executed in S20 described above will be described with reference to FIG. When the ignition process is started, the controller 60 determines whether or not the water heater 1 has been in a long-term use state (S110). The controller 60 that executes S110 corresponds to an example of a determination unit in this specification. In the case of this embodiment, when the water heater 1 has been used for 10 years or more without receiving maintenance / inspection since the start of use, or when it has been used for more than 10 years since the last maintenance / inspection. It is determined that the water heater 1 has been in a long-term use state.

  When it is determined in S110 that the water heater 1 has not reached the long-term use state (S110: NO), the controller 60 drives the combustion fan 23 (S120). In S120, according to the required output calculated based on the incoming water temperature detected by the hot water supply incoming thermistor 38, the set temperature set by the hot water remote controller 61 or the bath remote controller 62, and the flow rate detected by the hot water supply amount sensor 37. The combustion fan 23 is rotationally driven at the set rotational speed.

  Subsequently, the controller 60 ignites the gas in the hot water supply burner 11 by the discharge from the hot water supply ignition plug 13 by starting the operation of the igniter (S130). Then, the controller 60 opens one of the hot water supply gas solenoid valves 291 to 293 corresponding to the necessary combustion stage (S140). In S140, the gas proportional valve 28 of the gas proportional valve 28 is obtained so that the necessary output can be obtained at the combustion stage to be used. Adjust the opening.

  Subsequently, the controller 60 confirms ignition in the hot water supply burner 11 by the hot water supply frame rod 14 (S150). In S150, it waits until ignition can be confirmed (S150: NO). If ignition is confirmed (S150: YES), the controller 60 stops the operation of the igniter (S160), terminates the discharge from the hot water supply spark plug 13, and ends the ignition process shown in FIG.

  By the way, in above-mentioned S110, it may be judged that the water heater 1 has reached the long-term use state (S110: YES). In this case, the controller 60 stores history information indicating that the water heater 1 has been in a long-term use state in the nonvolatile memory of the controller 60 (S170). And after waiting for a predetermined time (S180), it progresses to above-mentioned S120, and performs the processing step after S120. Note that the controller 60 that executes S180 corresponds to an example of the ignition processing time changing unit referred to in this specification.

[effect]
According to the water heater 1 configured as described above, whether or not to execute S180 is switched between the case where the long-term use state used for a predetermined period or longer has not been reached and the case where the long-term use state has been reached. Thus, the time required for the ignition process is changed. For this reason, when it reaches a long-term use state, it takes more time than before before the temperature of the hot water rises sufficiently. doubt. In addition, if the user wants to raise the temperature of the hot water after the start of the hot water as before, the possibility that he / she wants to correct the malfunction of the device is also increased. Therefore, it is possible to increase the possibility that the user of the water heater 1 makes an inquiry to the supplier, and it is possible to suppress the user from continuing to use the water heater 1 without undergoing maintenance / inspection.

  In the case of the water heater 1, when the long-term use state is reached, the operation start timing of the combustion fan 23 is delayed compared to the case where the long-term use state is not reached. Therefore, in the case of reaching a long-term use state, in addition to taking a long time to raise the hot water temperature, the user may notice that the start of operation of the combustion fan 23 is slow. Therefore, a user who notices that the combustion fan 23 does not start to operate immediately can suspect a failure of the combustion fan 23 and the like, and can increase the possibility of making an inquiry to a supplier. It is possible to suppress the continued use of the water heater 1 without being present.

In the case of the water heater 1, history information indicating that it has been determined that a long-term use state has been reached by executing S <b> 170 is stored in the nonvolatile memory of the controller 60. Therefore, when a specialized engineer visits the site, it is a true failure whether the ignition process took a long time due to the long-term use by checking the history information It can be easily determined whether the ignition process takes a long time due to the above.
(2) Second Embodiment Next, a second embodiment will be described. In addition, since 2nd embodiment only changed a part of structure illustrated by 1st embodiment, it explains in full detail centering on difference with 1st embodiment, and regarding the part similar to 1st embodiment, Detailed description thereof will be omitted. The difference from the first embodiment is in the ignition process described below.

[Ignition processing]
Hereinafter, the ignition process in the second embodiment will be described with reference to FIG. When the ignition process is started, the controller 60 drives the combustion fan 23 (S210). In S210, according to the required output calculated based on the incoming water temperature detected by the hot-water supply incoming thermistor 38, the set temperature set in the hot-water remote controller 61 or the bath remote controller 62, and the flow rate detected by the hot-water supply amount sensor 37. The combustion fan 23 is rotationally driven at the set rotational speed.

  Subsequently, the controller 60 determines whether or not the water heater 1 has been in a long-term use state (S220). In the second embodiment, the controller 60 that executes S220 corresponds to an example of a determination unit referred to in this specification. Also in the second embodiment, when the water heater 1 has been used for over 10 years without receiving maintenance / inspection since the start of use, or when it has been used for over 10 years since the last maintenance / inspection. In addition, it is determined that the water heater 1 has been in a long-term use state.

  In S220, when it is determined that the hot water heater 1 has not reached the long-term use state (S220: NO), the controller 60 starts the igniter to discharge gas from the hot water burner 11 by discharging from the hot water spark plug 13. Is ignited (S230). Then, the controller 60 opens one of the hot water supply gas electromagnetic valves 291 to 293 corresponding to the required combustion stage (S240). In S240, the gas proportional valve 28 of the gas proportional valve 28 is obtained so that the required output can be obtained at the combustion stage to be used. Adjust the opening.

  Subsequently, the controller 60 confirms ignition in the hot water supply burner 11 by the hot water supply frame rod 14 (S250). In S250, it waits until ignition can be confirmed (S250: NO). If ignition is confirmed (S250: YES), the controller 60 stops the operation of the igniter (S260), ends the discharge from the hot water supply spark plug 13, and ends the ignition process shown in FIG.

  In S220 described above, it may be determined that the water heater 1 has been in a long-term use state (S220: YES). In this case, the controller 60 stores history information indicating that the water heater 1 has been in a long-term use state in the nonvolatile memory of the controller 60 (S270). And after waiting for a predetermined time (S280), it progresses to above-mentioned S230, and performs the process step after S230. In the second embodiment, the controller 60 that executes S280 corresponds to an example of the ignition processing time changing unit referred to in this specification.

[effect]
In the water heater 1 of the second embodiment configured as described above, whether S280 is executed when the long-term use state that has been used over a predetermined period or longer has not been reached and when the long-term use state has been reached. By switching whether or not, the time required for the ignition process is changed. For this reason, when it reaches a long-term use state, it takes more time than before before the temperature of the hot water rises sufficiently. doubt. In addition, if the user wants to raise the temperature of the hot water after the start of the hot water as before, the possibility that he / she wants to correct the malfunction of the device is also increased. Therefore, it is possible to increase the possibility that the user of the water heater 1 makes an inquiry to the supplier, and it is possible to suppress the user from continuing to use the water heater 1 without undergoing maintenance / inspection.

In the case of the water heater 1, the ignition start timing by the igniter (that is, the discharge start timing by the hot water spark plug 13) is delayed when the long-term use state is reached compared to when the long-term use state is not reached. Therefore, in the case of reaching a long-term use state, in addition to taking a long time to raise the hot water temperature, the user may notice that the ignition start by the igniter is late. Therefore, a user who notices that the combustion fan 23 is operating but does not ignite immediately suspects a failure of an ignition system component (for example, an igniter or a hot water supply spark plug 13), and makes an inquiry to the supplier. Therefore, it is possible to prevent the user from continuing to use the water heater 1 without undergoing maintenance / inspection.
(3) Supplement Although the hot water heater has been described with reference to the exemplary embodiment, the above-described embodiment is merely exemplified as one aspect of the present invention. That is, the present invention is not limited to the exemplary embodiments described above, and can be implemented in various forms without departing from the technical idea of the present invention.

  For example, in the above-described embodiment, the processing steps of S170 and S270 are executed in the above-described ignition processing. However, these processing steps are performed separately from the ignition processing and executed at timings different from the ignition. You may do it. In that case, in the above ignition processing, the processing steps of S170 and S270 may be omitted. Further, when the history information is stored in a process different from the ignition process, in the above-described ignition process, instead of the process steps of S110 and S210, the history information stored by the separate process as described above is included in the controller. You may employ | adopt the process step which judges whether it is memorize | stored in the non-volatile memory.

In addition, it can grasp | ascertain from the exemplary embodiment demonstrated above that the water heater demonstrated by this specification may be further provided with the structure as mentioned below.
First, in the water heater described in the present specification, the ignition processing time changing unit is determined to be longer than the long-term use state when the determination unit determines that the long-term use state is reached. By delaying the operation start timing by a predetermined time, the time required for the ignition process may be increased.

  According to the water heater configured as described above, when the long-term use state is reached, the operation start timing of the blower is delayed as compared with the case where the long-term use state is not reached. Therefore, when it reaches a long-term use state, in addition to taking time to raise the hot water temperature, the user may notice that the start of operation of the blower is slow. Therefore, a user who notices that the blower does not start to operate immediately can suspect a failure of the blower and increase the possibility of making inquiries to the supplier. Can be kept from using.

  Further, in the hot water heater described in the present specification, the ignition processing time changing unit is based on the igniter when it is determined by the determination unit that the long-term use state has been reached, rather than when it is determined that the long-term use state has not been reached. The time required for the ignition process may be increased by delaying the ignition start timing by a predetermined time.

  According to the water heater configured as described above, the ignition start timing by the igniter is delayed when the long-term use state is reached than when the long-term use state is not reached. Therefore, in the case of reaching a long-term use state, in addition to taking a long time to raise the hot water temperature, the user may notice that the ignition start by the igniter is late. Therefore, a user who notices that the fan does not ignite immediately even though the blower is operating may suspect a failure of an ignition system component (for example, an igniter or a spark plug), and may make an inquiry to the supplier. Therefore, it is possible to prevent the user from continuing to use the water heater without undergoing maintenance / inspection.

  Moreover, in the water heater described in the present specification, the control unit may include a history storage unit that stores history information to that effect when the determination unit determines that a long-term use state has been reached.

  According to the water heater configured as described above, history information indicating that the determination unit has determined that a long-term use state has been reached is stored in the history storage unit. Therefore, when a specialized engineer visits the site, it is a true failure whether the ignition process took a long time due to the long-term use by checking the history information It can be easily determined whether the ignition process takes a long time due to the above.

  DESCRIPTION OF SYMBOLS 1 ... Hot water heater, 3 ... Bathtub, 5 ... Hot water combustion chamber, 6 ... Bath combustion chamber, 11 ... Hot water burner, 12A ... Hot water primary heat exchanger, 12B ... Hot water secondary heat exchanger, 13 ... Hot water spark plug, 14 ... Hot water frame rod, 15 ... Buro burner, 16A ... Buro primary heat exchanger, 16B ... Buro secondary heat exchanger, 17 ... Buro spark plug, 18 ... Buro frame rod, 19 ... Buro combustion chamber thermistor, 20A, 20B ... Drain drain pipe, 21 ... neutralizer, 21A ... neutralizer water level electrode, 22 ... drain pan, 23 ... combustion fan, 23A ... fan motor, 24 ... exhaust top, 25 ... overheat prevention device, 26 ... gas supply pipe, 260 ... Main pipe, 261,262,263,264 ... Branch pipe, 27 ... Original gas solenoid valve, 28 ... Gas proportional valve, 291,292,293 ... Hot water gas solenoid valve, 294 ... Buro gas solenoid valve, 30 ... Water pipe 31 ... Hot water supply pipe, 32 ... Bypass pipe, 33 ... Full return pipe, 34 ... Full return pipe, 35 ... Branch pipe, 36 ... Strainer, 37 ... Hot water supply water quantity sensor, 38 ... Hot water supply water thermistor, 39 ... Water quantity control motor, 40 ... Hot water supply emptying safety device, 41 ... Hot water supply heat exchanger thermistor, 42 ... Hot water supply hot water thermistor, 43 ... Overpressure relief valve and water drain valve, 44 ... Water hammer buffer valve, 45 ... Bypass control motor, 46 ... Drop water solenoid valve 47 ... Blow water amount sensor, 48A, 48B ... Check valve, 49 ... Edge cut valve, 50 ... Bus adapter, 51 ... Blow back thermistor, 52 ... Pump, 53 ... Blow water flow switch, 54 ... Water level sensor, 55 ... Buff Evacuation safety device, 56 ... Flood thermistor, 57A, 57B, 57C, 57E, 57F ... Drain plug, 60 ... Controller, 61 ... Hot water supply remote control, 62 ... The filtrate remote control.

Claims (4)

A hot water supply section configured to be able to supply hot water to the hot water outlet,
A control unit for controlling the operating state of the hot water supply unit,
The hot water supply section
A flow path from the water source side to the hot water outlet,
A heat exchanger provided in the middle of the flow path;
A burner capable of heating the water in the heat exchanger by burning fuel;
A blower capable of supplying air to the burner;
An igniter capable of igniting the fuel discharged from the burner;
A water flow detection unit capable of detecting water flow to the flow path,
The controller is
A determination unit that determines whether or not the hot water supply unit has been used for a long period of time greater than or equal to a predetermined period;
In the case where it is determined by the determination unit that the long-term use state has not been reached and the case where it has been determined that the long-term use state has been reached, the water flow detection unit detects water flow to the flow path and then A water heater having an ignition processing time changing unit that changes a time required for the ignition processing until combustion is started by the burner. The water heater according to claim 1,
The ignition processing time changing unit sets the operation start timing of the blower for a predetermined time when it is determined by the determination unit that the long-term use state has been reached, rather than when it is determined that the long-term use state has not been reached. A water heater configured to increase the time required for the ignition process by delaying. The water heater according to claim 1 or 2,
The ignition processing time changing unit sets the ignition start timing by the igniter for a predetermined time when it is determined by the determination unit that the long-term use state has been reached, rather than when it is determined that the long-term use state has not been reached. A water heater configured to increase the time required for the ignition process by delaying. It is a water heater as described in any one of Claim 1- Claim 3,
The said control part has a history memory | storage part which memorize | stores the historical information to that effect, when it determines with the said determination part having reached the said long-term use state.

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