JPH067011B2 - Combustion control device - Google Patents

Description

Description: FIELD OF THE INVENTION The present invention relates to a combustion control device for a water heater, an instantaneous water heater, and the like, and particularly to a hot water discharge start signal and a hot water discharge stop signal by detecting the presence or absence of a hot water flow, and a hot water discharge signal. A water flow sensor for outputting each stop signal, a pre-purge circuit for performing a pre-purge operation by driving the fan at a high rotational speed in response to the hot water discharge start signal, and a combustion gas after the pre-purge operation is completed and ignition. And
A combustion circuit that stops the supply of the combustion gas in response to the hot water stop signal, a fan rotation speed control unit that controls the rotation speed of the fan based on each of the hot water flow rate and the target hot water temperature, and the hot water stop signal In response, the present invention relates to a combustion control device including an afterpurge circuit for driving and rotating the fan at a low rotational speed and performing an afterpurge operation.

(Summary of the Invention) The present invention is, in the above-mentioned combustion control device, an improved hot water discharge characteristic when hot water is continuously stopped and hot water is stopped so that hot water can be continuously discharged as much as possible.

(Prior art and its problems) The above-mentioned pre-purge operation discharges unburned gas remaining in the combustion chamber prior to supply of combustion gas and ignition at the time of ignition at the start of hot water discharge, resulting in an unexpected explosion sound. This is done in order to avoid the occurrence, and in the case of being placed indoors, the fan is usually driven and rotated at a high rotation speed for about 15 seconds. The after-purging operation is performed to cool the heat exchanger and prevent dew condensation on the heat exchanger when the hot water is stopped, and the fan is rotated at a low rotation speed for about 7 minutes.

By the way, when the hot water is stopped and the hot water is stopped repeatedly, for example, when washing dishes, if the pre-purge operation is performed every time the hot water starts, the hot water does not come out because combustion is not performed during the pre-purge operation. The water will come out, which is extremely uncomfortable for the user.

Therefore, in the conventional apparatus of this type, as shown in JP-A-59-231319, when tapping is started during the after-purging operation (expressed as post-purging in the publication), Paying attention to the fact that unburned gas is discharged by the after-purging operation, the time for the above-mentioned pre-purging operation is shortened so that the hot water comes out as soon as possible after the start of tapping.

However, in the case of the conventional example having such a configuration, the pre-purge operation is performed immediately after the after-purge operation is stopped (after about 7 minutes), and when the interval between the hot water discharge and the hot water discharge stop is relatively long (7, (8 minutes) had the same discomfort as above, and there was still room for improvement.

(Object of the Invention) The present invention has been made in view of the above circumstances, and in the case where the interval between hot water discharge and hot water discharge stop is relatively long based on the drive rotation state of the fan itself that discharges unburned gas. However, the purpose of the invention is to make the hot water come out at an early stage while avoiding the generation of an explosion sound due to the remaining unburned gas.

(Composition and Effect of the Invention) In order to achieve such an object, the combustion control device of the present invention has a rotation speed detecting means for detecting the rotation speed of the fan and a rotation speed detected by the rotation speed detecting means, The pre-purge restraint means prevents the pre-purge operation from being performed by the pre-purge circuit when the rotational speed is equal to or higher than the specific rotational speed set lower than the minimum rotational speed during driving.

With this configuration, not only during the after-purging operation but also after the after-purging operation is completed, the fan is stopped and then rotated by inertia to maintain a specific rotation speed sufficient to discharge unburned gas. During this period, the pre-purge operation is not performed, and the hot water can be discharged early after the start of hot water discharge.

Therefore, after the hot water is stopped, after the after-purging operation is completed, it is possible to extend the hot water quickly without performing the pre-purge operation for the longest time possible, even while the fan is rotating due to inertia due to the rotation speed higher than the specified speed. Even when the tapping is repeated and the tapping is stopped and the tapping is stopped at relatively long intervals, the time from the start of tapping until the tapping is shortened and the tapping characteristics can be improved. Moreover, based on the rotation speed of the fan itself that discharges the unburned gas, the rotation speed sufficient to discharge the unburned gas is set as the specific rotation speed, and the pre-purge operation is performed when the rotation speed of the fan is equal to or higher than the specific rotation speed. Since the ignition is not performed, the ignition is not performed while the unburned gas remains, and the unexpected explosion sound can be surely avoided.

(Description of Embodiments) Hereinafter, the present invention will be described in detail based on embodiments illustrated in the drawings. FIG. 1 is a circuit block diagram according to an embodiment of the present invention. In this figure, reference numeral 1 denotes a water flow sensor which detects a hot water start and a hot water stop depending on the presence or absence of a water flow, and outputs a hot water start signal and a hot water stop signal, respectively, which are interposed in the water supply pipe 3 to the water heater 2. ing. The water flow sensor 1 is also capable of detecting a water supply amount that varies depending on the amount of hot water used. That is, the hot water discharge amount can be detected in consideration of all changes in the hot water discharge amount of each of the calan 5 and the shower 6 which are branched and connected to the hot water supply pipe 4 connected to the hot water supply device 2.

Reference numeral 7 denotes a fan that is used both for discharging combustion exhaust gas and supplying combustion air. 8 is a pre-purge operation for driving the fan 7 (specifically, a fan motor) at a high rotation speed in response to the hot water discharge start signal from the water flow sensor 1 to discharge the remaining unburned gas. This is a pre-purge circuit for performing.

Reference numeral 9 denotes a combustion circuit, which is composed of a gas proportional valve control circuit 10 and an igniter drive circuit 11. The gas proportional valve control circuit 10 uses the output control signal from the gas proportional valve control circuit 10 to insert the gas proportional valve 1 into the gas supply pipe 12.
3 is opened and closed at a predetermined opening degree. For example, the combustion gas is supplied after the pre-purge operation by the pre-purge circuit 8 is completed, or the combustion gas is discharged in response to the tapping stop signal from the water flow sensor 1. It is designed to stop the supply. The igniter drive circuit 11 receives the output control signal from the prepurge circuit 8 and causes the burner 14 to operate.
The igniter 15 provided in the vicinity of is operated to ignite it.

Reference numeral 16 is a fan rotation speed control means for controlling the rotation speed of the fan 7, and 17 is rotation speed detection means for detecting the rotation speed of the fan 7, and is constituted by, for example, a hall element.

The amount of hot water discharged by the water flow sensor 1 and the target hot water temperature set by the target hot water temperature setter 18 are input to the target rotation speed calculation means 19, and the target rotation speed calculation means 19 is connected to the hot water supply pipe 4. Interposed hot water temperature sensor 20
The hot water temperature detected by the (thermistor) is input, the target rotation speed is calculated based on these, and the rotation speed of the fan 7 is controlled so that the rotation speed detected by the rotation speed detecting means 17 becomes the target rotation speed. The fan rotation speed control means 16 is configured.

Reference numeral 21 denotes an after-purging circuit for driving and rotating the fan 7 at a low speed in response to a hot water discharge stop signal from the water flow sensor 1 to perform an after-purging operation. The heat exchanger 22 is cooled in order to discharge and prevent condensation.

Reference numeral 23 is a comparison circuit, and the comparison circuit 23 receives the rotation speed detected by the rotation speed detection means 17 and the specific rotation speed set by the rotation speed setting circuit 24, and compares the rotation speed with the specific rotation speed. When the rotational speed detected by 17 is equal to or higher than a specific rotational speed, a check signal is output to the prepurge circuit 8 so that the prepurge operation by the prepurge circuit 8 is not performed.

The specific rotation speed by the rotation speed setting circuit 24 is set to be lower than the minimum rotation speed when the fan is driven (rotation speed during the after purge operation). That is, the specific rotation speed sets a rotation speed sufficient to discharge the unburned gas. In addition, the specific rotation speed can be appropriately changed and set depending on, for example, whether the installation location of the water heater 2 is a well-ventilated place or a poorly-ventilated place.

The pre-purge circuit 8, the rotation speed detection means 16, the comparison circuit 23, and the comparison circuit 23 for preventing the pre-purge circuit 8 from performing the pre-purge operation when the rotation speed detected by the rotation speed detection means 16 is a specific rotation speed or more. The pre-purge restraint means 2 including the rotation speed setting circuit 24
It is called 5.

Reference numeral 26 is a flame detection circuit that receives a detection output from the frame rod 27 that utilizes the rectifying property associated with the flame detection of the burner 14, and thereby detects whether or not the burner 14 is in a combustion state. Even if the hot water outlet stop signal is output from 1, when the flame is detected, the gas proportional valve control circuit 10 is automatically operated,
It is designed so that it can be prevented from being boiled.

Next, the control operation of this embodiment will be described with reference to the flowchart shown in FIG.

When hot water discharge is started by the water flow sensor 1 (F1), it is then determined whether the rotation speed of the fan 7 is equal to or higher than a specific rotation speed (F2). When the engine speed is equal to or higher than the specific speed, the combustion gas is supplied from the combustion circuit 9 and ignited by the igniter 15 without performing the pre-purge operation by the pre-purge circuit 21, and a predetermined air-fuel ratio is obtained. Then, the fan 7 is driven at a predetermined rotation speed to supply combustion air (F3).

When it is determined in step F2 that the rotation speed of the fan 7 is less than the specific rotation speed, the pre-purge circuit 2
The pre-purge operation according to 1 is performed, and after the pre-purge operation is completed (F4 → F5), the process proceeds to step F3.

Therefore, not only when the after-purging operation is in progress, but also when the driving of the fan 7 is stopped after the after-purging operation is completed, the fan 7 is still rotating due to inertia, and it is sufficient to discharge the unburned gas. When the number of revolutions is equal to or higher than the number of revolutions, combustion is started immediately without performing the pre-purge operation by the pre-purge circuit 8, hot water at a predetermined temperature can be obtained early, and hot water discharge and hot water discharge stop are repeated.
Even when the dishes are washed or the hair is washed with the shower 6, the hot water can be used very comfortably as long as the rotation speed of the fan 7 does not fall below a specific rotation speed even when the interval is relatively long.

More specifically, as a result of applying the present invention, as shown in (a) of FIG. 3, after completion of the after-purging operation, when the rotation speed of the fan 7 is equal to or higher than the specific rotation speed, tapping is restarted. It is sometimes clear that hot water can be obtained with little change in temperature. On the other hand, in the conventional case, as shown in (b) of FIG. 3, when the after-purge operation is finished, the pre-purge operation by the pre-purge circuit 8 is performed immediately after the completion of the hot water discharge. No combustion is performed during the pre-purge operation, and hot water does not come out until the pre-purge operation ends and combustion is started.

[Brief description of drawings]

FIG. 1 is a circuit block diagram of an embodiment of a combustion control device of the present invention, FIG. 2 is a flowchart showing a control operation, FIG. 3 is a graph showing a change with time of the control operation, and (a) is the present invention. , And (b) shows the conventional case. 1 ... Water flow sensor, 7 ... Fan, 8 ... Pre-purge circuit, 9
... Combustion circuit, 16 ... Fan rotation speed control means, 17 ... Rotation speed detection means, 21 ... After purge circuit, 25 ... Pre-purge restraint means.

Claims (1)

[Claims] 1. A water flow sensor for detecting a hot water start and a hot water stop depending on the presence or absence of a water flow and outputting a hot water start signal and a hot water stop signal, respectively, and a fan driven and rotated at a high rotational speed in response to the hot water start signal. A pre-purge circuit for performing a pre-purge operation, a combustion circuit that supplies combustion gas and ignites after completion of the pre-purge operation, and that stops the supply of combustion gas in response to the hot water stop signal, Fan rotation speed control means for controlling the rotation speed of the fan based on each target hot water temperature, and afterpurge for performing afterpurge operation by rotating the fan at a low rotation speed in response to the hot water discharge stop signal. A combustion control device comprising a circuit, wherein a rotation speed detection means for detecting the rotation speed of the fan, and a detection by the rotation speed detection means Number rolling is, when it is certain rotational speed or higher is set lower than the minimum speed during the fan drive is a combustion control device comprising a pre-purge restraining means not to perform the pre-purge operation by the pre-purge circuit.