JPH0561646U - Combustion control device for water heater - Google Patents

Abstract

(57) [Abstract] [Purpose] To stabilize the hot water temperature by preventing a large undershoot of the hot water temperature when the hot water heater is used intermittently. [Composition] A combustion control device for a water heater is configured to include an ignition operation unit 26 and a safety operation unit 27, and the safety operation unit 27 is configured by a temperature comparison calculation unit 24 and a timer 25. The ignition operation unit 26 detects the open / closed state of the hot water tap based on the signal from the flow rate sensor 13,
When the hot water tap is opened during hot water re-opening, the gas valve 6 is opened and ignition is performed immediately regardless of whether or not flame is detected. The timer 25 starts the timer operation from the time of ignition, and adds a time-up signal to the temperature comparison / calculation unit 24 after a predetermined short time has elapsed. The temperature comparison / calculation unit 24 obtains the difference between the hot water detection temperature and the hot water detection temperature to check whether the temperature of the water passing through the heat exchanger has risen. Shut off 6.

Description

[Detailed description of the device]

[0001]

[Industrial applications]

 The present invention relates to a hot water heater combustion control device that is suitable for stabilizing the hot water temperature when hot water is again discharged from the hot water heater.

[0002]

[Prior Art]

 FIG. 6 shows a schematic configuration of a general water heater. A gas burner 2 is installed in the combustion chamber 1, and a combustion fan 3 for supplying and exhausting gas is installed below the gas burner 2 to provide a gas burner. A heat exchanger 4 is provided on the upper side of 2. The gas supply passage 5 leading to the gas burner 2 is provided with a gas valve (fuel supply valve) 6 such as an electromagnetic valve and a proportional valve 8 for controlling the gas supply amount by the valve opening amount, and the heat exchange. A water supply pipe 10 is connected to the inlet side of the container 4, and the water supply pipe 10 is provided with a water temperature sensor 11 such as a thermistor and a flow rate sensor 13 for detecting the flow of water and the amount of water supplied (amount of hot water discharged). .. A hot water supply pipe 14 is connected to the outlet side of the heat exchanger 4, and a hot water supply faucet 15 is provided on the outlet side of the hot water supply pipe 14. A hot water temperature sensor 16 such as a thermistor for detecting the hot water temperature is provided near the outlet of the heat exchanger 4.

Detection signals of the inlet water temperature sensor 11, the flow rate sensor 13, and the hot water temperature sensor 16 are added to a combustion control device 17, and the combustion control device 17 receives these detection signals and the water heater Burning operation.

That is, the combustion control device 17 rotates the combustion fan 3 when the hot water supply tap 15 is opened and the flow sensor 13 detects the water flow of the water supply. Then, the gas valve 6 is opened, the fuel gas is supplied to the gas burner 2, the igniter electrode 18 is driven, and the gas is ignited. Then, the ignition detection is confirmed by receiving the flame detection signal applied from the flame rod electrode 20 as the flame detection sensor, and the opening amount of the proportional valve 8 is controlled according to the difference between the set temperature and the hot water discharge temperature. The amount of combustion is controlled so that the temperature approaches the set temperature. When the hot water supply faucet 15 is closed, the stop of water flow is confirmed by the detection signal (OFF signal) of the flow rate sensor 13, and the gas valve 6 of the gas supply passage 5 is closed to shut off the gas supply.

FIG. 4 shows a general flame detection signal output circuit using the frame rod electrode 20 as a flame detection sensor. The flame detection signal of the frame rod electrode 20 is mainly generated as a signal as shown in FIG. 5 (a) by utilizing the charge / discharge of the main capacitor 21, and this signal is subjected to the signal processing and shown in FIG. The waveform shown in b) is applied to the negative input terminal of the comparator 22. Then, the comparator 22 compares the voltage with the reference voltage, and turns on when the flame is detected, and turns off when the flame is not detected. The flame detection signal of the waveform shown in (c) of FIG. This signal is taken out from 23, and this signal is applied to the combustion control device 17 including a microcomputer or the like.

[0006]

[Problems to be solved by the device]

 When using the water heater, for example, when the hot water of the water heater is dropped into the bathtub to fill the water, the hot water tap 15 is opened for a relatively long time, and hot water is continuously discharged from the water heater. However, when washing hair or washing dishes in the kitchen, the hot water tap 15 is frequently opened and closed to intermittently use hot water.

Conventionally, when the hot water supply faucet 15 is temporarily closed during use of hot water and the hot water supply faucet 15 is opened again to discharge hot water, when the hot water supply faucet 15 is closed once, After confirming that the flame is extinguished by the flame detection signal from the frame rod electrode 20, the gas valve 6 is opened to perform ignition. As described above, the flame detection signal is taken out by using the charge and discharge of the main capacitor 21, so the hot water faucet 15 is closed to shut off the gas, and even if the flame disappears, the main condenser 21 It takes a long time of 2 seconds or 3 seconds after the fire is extinguished until the electric charge in the charged state is completely discharged, that is, before the off signal is output from the frame rod electrode 20 side. If the hot water supply faucet 15 is opened during that time and the gas valve 6 is opened accordingly and gas is supplied, the combustion control device 17 receives an ON signal from the frame rod electrode 20 side, so the fire Since it is erroneously determined that there is a flame and the ignition operation is not performed, there is a risk that raw gas (gas that is not burned) continues to be ejected from the gas burner 2. To prevent this danger, be sure to wait until the off signal is applied from the flame rod electrode 20 side, that is, until the main capacitor 21 is completely discharged, then ignite by discharging the gas. ing.

However, while hot water is being used, when the hot water faucet 15 is once closed and then the hot water faucet 15 is reopened within a short time to re-emit hot water, or as shown in FIG. When switching the hot water supply tap (mixed water tap) 15 from the hot water supply position to the shower position via the hot water supply stop position by switching the lever 28, the discharge of the main condenser 21 is completed after the hot water supply tap 15 is closed once. If it is opened again before starting, water will continue to flow into the heat exchanger 4 of the water heater until the discharging of the main capacitor 21 is completed, that is, until the ignition operation is performed. For this reason, after the slightly warm water that has accumulated in the hot water supply pipe 14 comes out, the low-temperature hot water that is not heated by combustion that has entered while it is not ignited continues to come out. A user of hot water feels uncomfortable with the hot and cold water, such as the cold water suddenly coming out after the hot water comes out and then the hot water at the set temperature after ignition. There was a problem of doing.

The present invention has been made to solve the above-mentioned conventional problems, and its purpose is to reopen and re-open hot water in a very short time after the hot water faucet is closed, It is possible to prevent a rapid change in hot water temperature due to the discharge of unheated water that enters the ignition waiting time until the OFF signal is output from the frame rod electrode side, and stabilize the hot water temperature when re-releasing hot water. It is to provide a combustion control device for a water heater.

[0010]

[Means for Solving the Problems]

 The present invention is configured as follows to achieve the above object. That is, the present invention comprises a flame detection sensor for detecting the flame of burner combustion, a water temperature sensor for detecting the temperature of water entering the heat exchanger, and a hot water temperature sensor for detecting the temperature of hot water discharged from the heat exchanger. In a combustion control device for a water heater that also closes the fuel supply valve when the hot water tap is closed, flame detection by a flame detection sensor is performed when the hot water tap is once closed and then opened again during hot water supply. The temperature of water passing through the heat exchanger is increased by comparing the hot water detection temperature with the hot water detection temperature when a predetermined time has elapsed after the ignition operation and the ignition operation part that opens the fuel supply valve and ignites regardless of the presence or absence of The safety operating unit shuts off the fuel supply valve when the above is not confirmed.

[0011]

[Action]

 In the present invention having the above-mentioned configuration, when the hot water tap is closed and then opened again within a short time while the hot water of the water heater is being used, the presence or absence of flame detection of the flame detection sensor is checked. Regardless, the fuel supply valve is immediately opened to ignite. Due to this ignition, the hot water tap is opened and the water newly entering the heat exchanger is immediately heated by the burner combustion to reach the set temperature of hot water and is discharged, and the flame is opened after the hot water tap is opened. Since there is no need to wait for ignition until the detection signal is turned off, the water that has entered the heat exchanger will not be discharged without being combusted and heated during this ignition waiting time, and a large amount of hot water temperature will be required when hot water is again discharged. It is possible to supply stable hot water without change.

[0012]

【Example】

 Embodiments of the present invention will be described below with reference to the drawings. In the following embodiments, the same parts as those in the conventional example are designated by the same reference numerals, and the duplicate description thereof will be omitted.

The water heater of the present embodiment has the same system as that shown in FIG. 6, and the difference from the conventional example is that the combustion control system of the combustion control device 17 at the time of re-hot water of the water heater is The configuration is unique, and the other configurations are the same as those of the conventional example.

FIG. 1 shows a block configuration of essential parts of a characteristic combustion control device 17 of this embodiment. The combustion control device 17 of the present embodiment is configured to have a safe operation part 27 and an ignition operation part 26. The ignition operation unit 26 receives a signal from the flow rate sensor 13 to detect the open / closed state of the hot water supply tap 15. When the OFF signal is applied from the flow rate sensor 13, it is determined that the hot water supply faucet 15 is closed, and when the flow rate detection signal is applied from the flow rate sensor 13, it is determined that the hot water supply faucet 15 is in the open state. .. Then, when it is determined that the hot water supply tap 15 is opened, the gas valve 6 is opened and the igniter electrode 18 is spark-driven to ignite. At the time of this ignition, the timer 25 is informed that the ignition operation has been performed. When it is judged that the hot water supply faucet 15 is closed by the addition of the OFF signal from the flow rate sensor 13, the gas valve 6 is closed to shut off the fuel gas.

The safe operation unit 27 is configured to include a temperature comparison / calculation unit 24 and an appropriate number of timers 25. The timer 25 has a predetermined time (several seconds) given from the time of ignition operation of the ignition operation unit 26. The timer operation is started, and a time-up signal is added to the temperature comparison / calculation unit 24 when the set time has elapsed from the start of the timer operation. When this time-up signal is applied, the temperature comparison / calculation unit 24 determines whether or not the gas burner 2 is normally burned by the ignition operation by the ignition operation unit 26 based on the detection signals of the incoming water temperature sensor and the hot water temperature sensor. If it is not burning normally, the safety operation is performed to shut off the gas valve 6. That is, the temperature comparison operation unit 24 receives the temperature detection signal of the incoming water temperature sensor 11 and the hot water temperature sensor 16, calculates the difference T _H -T _C with hot water detected temperature T _H and the incoming water temperature detected T _C, the when the temperature difference exceeds the predetermined value alpha, that is, determines that the combustion of the gas burner 2 is successful when the _{(T H -T C)> α} , to continue the combustion state. In contrast, when the following Sagatokoro value alpha of the tapping detected temperature and entering-water temperature detected, i.e., when the (T _H -T _C) ≦ α is not a temperature rise of the water through the heat exchanger 4 was observed Then, it is judged that the combustion of the gas burner 2 is not performed, and the gas valve 6 is immediately shut off to stop the supply of the fuel gas.

This embodiment is configured as described above, and next, the operation of the hot water supply device when hot water is discharged again will be described with reference to the time chart of FIG. 2 and the flowchart of FIG. In the hot water supply combustion state in step 101 of FIG. 3, the hot water supply faucet 15 is opened, and the hot water of the set temperature is being discharged. In this state, the ignition operation unit 26 determines in step 102 whether or not the hot water supply faucet 15 is closed. While the flow rate detection signal is being applied from the flow rate sensor 13, it is determined that the hot water supply faucet 15 is left open. When the OFF signal is applied from the flow rate sensor 13, it is determined that the hot water supply faucet 15 is closed, and the timer operation of the timer 25 is started. In step 103, it is judged whether or not a time-up signal corresponding to the discharge time of the main capacitor 21 in FIG. 4 is added from the timer 25. When the time-up signal is added, in step 105 the hot water faucet 15 is turned on. When the hot water supply faucet 15 is reopened, it is judged whether or not there is a flame in the gas burner 2 based on the flame detection signal from the frame rod electrode 20 in step 106. If no flame is detected, the ignition operation is performed in step 107 to burn the gas burner 2.

On the other hand, when it is detected in step 104 that the hot water supply faucet 15 is reopened before the timer 25 time-up signal is applied in step 103, flame detection from the frame rod electrode 20 is performed. Regardless of whether or not, the ignition operation is performed in step 107 to perform hot water supply combustion (combustion of the gas burner 2). Then, in step 109, after the ignition operation in step 107, when the time-up signal for a predetermined time (for example, several seconds) is added from the timer 25, the temperature comparison calculation unit 24 causes comparison operation between the incoming water temperature detected is performed, the temperature difference (T _H -T _C) is or exceeds the Jo Tokoro value α determination is made. When the temperature difference exceeds α, it is determined that the gas burner 2 is normally ignited and the combustion operation is smoothly performed, and the combustion state is continued until the hot water tap 15 is closed. In contrast, either when the temperature difference between the hot water temperature detected with incoming water detected temperature (T _H -T _C) is less than α resulted ignition mistake without unsuccessful ignition operation in the step 107, or more some failure It is judged that the ignition has not been performed, and the gas valve 6 is immediately closed to prevent the unburned raw gas from continuously ejecting from the gas burner 2 for safety.

According to this embodiment, the hot water faucet 15 is once closed during use of the water heater, and before the main capacitor 21 on the frame rod electrode 20 side is completely discharged, that is, from the frame rod electrode 20 side. When the hot water faucet 15 is opened again while the flame detection signal (ON signal) is being output even though the fire is extinguished, the gas valve 6 is immediately turned on regardless of whether or not flame is detected. Since it is opened to perform the ignition operation, burner combustion is performed immediately after the hot water supply faucet 15 is opened and the water newly entering the heat exchanger 4 is immediately heated and discharged. In addition, after the hot-water tap 15 is opened, cold water that is not heated does not come out. As shown in the characteristic curve of hot-water temperature in Fig. 2, the change in hot-water temperature is much smaller than that of the conventional example. Stable hot water supply is possible, Have well, it is possible to perform the use of hot water.

The present invention is not limited to the above-mentioned embodiment, and various modes of implementation can be adopted. For example, although the gas combustion type water heater is described as an example in the above embodiment, the present invention is also applied to an oil combustion type water heater.

In the above embodiment, when the hot water of the water heater is used intermittently, when the hot water tap 15 is once closed and then the hot water tap 15 is opened again within a short time, the frame rod power is turned off. Although the ignition operation is immediately performed regardless of the presence or absence of the flame detection signal from the pole 20, the ignition operation may be performed after confirming the flame detection signal from the frame rod electrode 20. In this case, for example, in FIG. 3, when the hot water supply faucet 15 is closed in step 102 while hot water supply combustion is being performed, for example, the discharge time of the main capacitor 21 is made substantially equal to the first discharge time. The timer is operated, the flame detection signal (ON signal) of the frame rod electrode 20 is confirmed within this timer operation time, and the ignition operation is performed. From this ignition operation, the second timer operates for a predetermined time. When the time-up signal of the second timer is received, the temperature difference between the hot water detection temperature and the water entry detection temperature is obtained in the same manner as in the above-described embodiment to heat the water passing through the heat exchanger 4. The gas valve 6 may be shut off when the water is not heated. Further, when the hot water is not intermittently used, when the hot water tap 15 is closed in step 102, the first timer is similarly operated, and after the time-up signal of this timer is output, that is, When the flame detection signal (ON signal) is being output from the frame rod electrode 20 even though the main capacitor 21 has been discharged, the OFF signal should normally be output from the frame rod electrode. Since the ON signal is output, it may be configured to judge that the flame rod electrode 20 is in an abnormal state and stop the ignition operation by opening the gas valve 6. At this time, the abnormality of the frame rod electrode 20 can be displayed on the remote controller of the control device 17 or the like, if necessary.

[0021]

[Effect of the device]

 The present invention is intended for use when the hot water faucet is once closed and the hot water faucet is opened again within a short period of time while the hot water supply is in use to intermittently use hot water. Is configured to open the fuel supply valve and ignite regardless of the presence or absence of flame detection.Therefore, the OFF signal is added from the flame detection sensor after the hot water tap is opened as in the past. There is no significant loss of waiting time for the ignition operation until it is fired, and during this waiting time, the water flowing through the heat exchanger is discharged without being combusted and heated, causing a large drop in hot water temperature, that is, a large undershoot of hot water temperature. As a result, it is possible to provide stable hot water with a small temperature change intermittently, and to use the hot water intermittently comfortably without feeling uncomfortable.

Further, irrespective of the presence or absence of flame detection, even if an ignition error occurs and raw gas of fuel is jetted from the burner when the fuel supply valve is opened and the ignition operation is performed, a predetermined time ( After a lapse of a few seconds), the fuel supply valve was immediately closed and the raw gas was ejected when it was judged from the comparison calculation of the hot water discharge temperature and the hot water detection temperature that hot water was not burnt. It is possible to prevent the danger of being left as it is, and it is safe to use the water heater.

[Brief description of drawings]

FIG. 1 is a block diagram showing a main configuration of a combustion control device for a water heater according to the present invention.

FIG. 2 is a time chart showing an operation of the apparatus of the same embodiment in a comparative state with a conventional example.

FIG. 3 is a flowchart showing the operation of the apparatus of the same embodiment.

FIG. 4 is a circuit diagram of a flame detection signal detection circuit using a frame rod.

5 is an explanatory diagram of waveforms of various parts of the circuit of FIG.

FIG. 6 is a system diagram of a general water heater.

FIG. 7 is an explanatory diagram showing an example of a hot water supply faucet (mixed faucet) in which a curran and a shower are connected.

[Explanation of symbols]

 11 Water temperature sensor 13 Flow rate sensor 15 Hot water tap 16 Hot water temperature sensor 24 Temperature comparison calculation unit 25 Timer 26 Ignition operation unit 27 Safe operation unit

Claims (1)

[Scope of utility model registration request] 1. A hot water supply device comprising a flame detection sensor for detecting a flame of burner combustion, a water temperature sensor for detecting a water temperature entering a heat exchanger, and a hot water temperature sensor for detecting a hot water temperature discharged from the heat exchanger. In a combustion control device for a water heater that also closes the fuel supply valve when the faucet is closed, whether the flame detection sensor detects flames when the hot water faucet is closed and then reopened during hot water supply. Regardless of whether the temperature rise of water passing through the heat exchanger is not confirmed by comparing the hot water detection temperature with the hot water detection temperature when the ignition operation part that opens the fuel supply valve and ignites and the predetermined time has elapsed after the ignition operation. And a safety operation unit that shuts off the fuel supply valve.