JP3678497B2 - Combustion equipment - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a burner combustion type combustion apparatus such as a water heater or a bath tub.
[0002]
[Prior art]
FIG. 19 shows a schematic configuration of an example of a general water heater as a combustion apparatus. In the figure, an instrument body 2 is accommodated in the instrument case 1. A combustion surface switching burner 4 is installed below the combustion chamber 3 of the instrument body 2, and a combustion fan 5 for supplying and exhausting air is installed below the burner 4. The box-shaped nozzle holder 6 is provided with a nozzle for supplying gas to the burner 4, and the nozzle holder 6 is switched via a capacity switching valve 22a, 22b, 22c for switching the burner combustion surface (switching the burner combustion capacity). A gas supply passage 7 is connected, and fuel gas is supplied through the passage 7. The gas supply passage 7 incorporates an original electromagnetic valve 8 that opens and closes the passage and a proportional valve 10 that controls the amount of gas supplied to the burner 4 by the valve opening amount.
[0003]
A hot water supply heat exchanger 11 is installed above the combustion chamber 3, a water supply pipe 12 is connected to the inlet side of the hot water heat exchanger 11, and hot water supply is connected to the outlet side of the hot water heat exchanger 11. Tube 13 is connected. The water supply pipe 12 is provided with an incoming water temperature sensor 14 for detecting the supply water temperature and a flow rate sensor 15 for detecting the incoming water flow rate, and a hot water temperature sensor 16 for detecting the hot water supply temperature is provided on the hot water supply pipe 13 side. .
[0004]
The combustion operation of this type of combustion device is performed by a control device 17, and the control device 17 is usually connected to a remote controller 9 for setting a hot water supply temperature, displaying the set temperature, and the like. .
[0005]
In the figure, 18 is an igniter electrode for igniting fuel gas, 20 is a frame rod electrode for detecting the flame of the burner 4, and 21 is a fan rotation detection sensor such as a Hall IC for detecting the rotation of the combustion fan 5.
[0006]
In this type of combustion apparatus, when a hot water tap (not shown) provided at the front end side of the hot water supply pipe 13 is opened, water enters from the water supply pipe 12, and when the flow of the water is detected by the flow sensor 15. The control device 17 rotates the combustion fan 5, opens the solenoid valve 8 and the proportional valve 10, generates a high voltage with an igniter transformer (not shown), and performs ignition by discharging from the igniter electrode 18. Then, after confirming that the flame has been detected by the flame rod electrode 20, the valve opening drive current of the proportional valve 10 is controlled and the gas supply amount (the valve opening amount of the proportional valve 10) so that the tapping temperature becomes the set temperature. And rotation control of the combustion fan 5 is performed in order to supply air corresponding to this gas supply amount.
[0007]
When the hot water use is finished and the tap is closed, water flow to the hot water supply heat exchanger 11 is stopped, and when stoppage of water flow is detected by a signal from the flow sensor 15, the solenoid valve 8 is closed. Thereafter, when the post-purge period during which the exhaust gas in the combustion chamber 3 is almost exhausted has elapsed, the rotation of the combustion fan 5 is stopped and the next hot water is prepared.
[0008]
[Problems to be solved by the invention]
In general, if a water heater is used for a long time, soot or the like adheres to the hot water heat exchanger 11, the air flow deteriorates, the combustion performance deteriorates, and finally the life of the appliance (combustion device) To.
[0009]
Conventionally, the number of combustion times and the combustion time of an appliance are obtained by cumulative calculation, and the life is determined when the number of combustion times and the combustion time reach a predetermined set value.
[0010]
However, in the method of determining the life of the appliance based on the number of times of combustion and the combustion time, it is difficult to determine the exact life of the appliance, and the clogging of the hot water heat exchanger 11 etc. has progressed considerably and the combustion state has deteriorated. Nevertheless, since the number of combustions and the combustion time have not reached the standard value for determining the life, the water heater may continue to be used as it is without being determined to have reached the life. The amount of CO gas generated in the gas is also increased, resulting in a dangerous state. On the other hand, even though the water heater maintains sufficiently good combustion performance, the number of combustions and the combustion time have reached the standard values for determining the life. In some cases, the water heater is disposed of in a disabled state. In this case, the water heater cannot be effectively used, which is economically disadvantageous.
[0011]
The present invention has been made to solve the above-described conventional problems, and its purpose is to accurately determine the deterioration of combustion performance due to clogging of the ventilation passage of the apparatus and accurately determine the life of the apparatus. It is an object of the present invention to provide a combustion apparatus that can perform the above-described process.
[0012]
[Means for Solving the Problems]
In order to achieve the above object, the present invention provides means for solving the problems with the following configuration. That is, the first aspect of the present invention is a burner, a combustion fan that supplies combustion air to the burner, fan power detection means that detects power consumption of the combustion fan, and fan rotation speed that detects the rotation speed of the combustion fan. A combustion apparatus having a detection sensor, wherein the reference data stores relationship data between a test reference fan rotational speed and a target power consumption of the combustion fan in a state where there is no ventilation deterioration of the apparatus corresponding to the test reference fan rotational speed A data storage unit, and a self-diagnosis operation after the burner stops the combustion fan rotation speed detection value when the combustion fan is rotated so that the power consumption of the combustion fan becomes the target power consumption. When the rotation speed detection value is taken from the fan rotation speed detection sensor and the rotation speed detection value is out of the rotation speed allowable range given to the test reference fan rotation speed, it is determined that the ventilation deterioration has progressed. And ventilation deterioration self diagnosis unit which outputs the ventilation deterioration progress signal is configured as being provided.
[0013]
Further, the second aspect of the invention relates to a burner, a combustion fan that supplies combustion air to the burner, fan power detection means that detects power consumption of the combustion fan, and fan rotation speed that detects the rotation speed of the combustion fan. A combustion apparatus having a detection sensor, wherein the reference data stores relationship data between a test reference fan rotational speed and a target power consumption of the combustion fan in a state where there is no ventilation deterioration of the apparatus corresponding to the test reference fan rotational speed An in-device temperature sensor that detects a temperature in the device, and a target power correction unit that corrects a target power consumption corresponding to the test reference fan rotation speed based on the temperature detected by the in-device temperature sensor The combustion fan is configured so that the power consumption of the combustion fan becomes the target power consumption corrected by the target power correction unit during the self-diagnosis operation after the combustion stop of the burner. The detected value of the rotational speed of the combustion fan when the engine is rotated is taken in from the fan rotational speed detection sensor, and the ventilation deterioration occurs when the rotational speed detected value deviates from the rotational speed allowable range given to the test reference fan rotational speed. A ventilation deterioration self-diagnosis unit for determining a progress state and outputting a ventilation deterioration progress signal is provided.
[0014]
Further, the third aspect of the present invention provides a burner, a combustion fan that supplies combustion air to the burner, fan power detection means that detects power consumption of the combustion fan, and fan rotation speed that detects the rotation speed of the combustion fan. A combustion apparatus having a detection sensor, wherein the reference data stores relationship data between a test reference fan rotational speed and a target power consumption of the combustion fan in a state where there is no ventilation deterioration of the apparatus corresponding to the test reference fan rotational speed An in-device temperature sensor that detects a temperature in the device, and a target power correction unit that corrects a target power consumption corresponding to the test reference fan rotation speed based on the temperature detected by the in-device temperature sensor And when the combustion fan is rotated so that the rotational speed of the combustion fan becomes the test reference fan rotational speed during the self-diagnosis operation after the combustion of the burner is stopped. When the detected power consumption value of the combustion fan detected by the fan power detection means deviates from the power consumption allowable range given to the target power consumption corrected by the target power correction unit, it is determined that the ventilation deterioration has progressed. A ventilation deterioration self-diagnosis unit that outputs a ventilation deterioration progress signal is provided.
[0015]
Furthermore, the fourth aspect of the present invention provides a burner, a combustion fan that supplies combustion air to the burner, fan power detection means that detects power consumption of the combustion fan, and fan rotation speed that detects the rotation speed of the combustion fan. A combustion apparatus having a detection sensor, comprising: a reference data storage unit that stores relational data between a test reference fan power and a target fan speed in a state where there is no ventilation deterioration of the device corresponding to the test reference fan power A combustion fan that is detected by the fan power detection means when the combustion fan is rotated so that the rotation speed of the combustion fan becomes the target fan rotation speed during the self-diagnosis operation after the combustion of the burner is stopped When the detected power consumption value deviates from the power consumption allowable range given to the test reference fan power, it is determined that the ventilation deterioration has progressed and a ventilation deterioration progress signal is output. Ventilation deterioration self-diagnosis unit is configured as being provided to.
[0016]
Furthermore, the fifth aspect of the present invention provides a burner, a combustion fan that supplies combustion air to the burner, fan power detection means that detects power consumption of the combustion fan, and fan rotation speed that detects the rotation speed of the combustion fan. A combustion apparatus having a detection sensor, comprising: a reference data storage unit that stores relational data between a test reference fan power and a target fan speed in a state where there is no ventilation deterioration of the device corresponding to the test reference fan power An internal temperature sensor for detecting the internal temperature of the apparatus, and a target fan rotational speed correction unit for correcting the target fan rotational speed corresponding to the test reference fan power based on the temperature detected by the internal temperature sensor. In the self-diagnosis operation after the burner stops combustion, the rotational speed of the combustion fan becomes the target fan rotational speed after being corrected by the target fan rotational speed correcting unit. If the detected power consumption value of the combustion fan detected by the fan power detection means deviates from the power consumption allowable range given to the test reference fan power when the combustion fan is rotated during this time, it is determined that the ventilation deterioration has progressed. Then, a ventilation deterioration self-diagnosis unit for outputting a ventilation deterioration progress signal is provided.
[0017]
Furthermore, the sixth aspect of the present invention provides a burner, a combustion fan that supplies combustion air to the burner, fan power detection means that detects power consumption of the combustion fan, and fan rotation speed that detects the rotation speed of the combustion fan. A combustion apparatus having a detection sensor, comprising: a reference data storage unit that stores relational data between a test reference fan power and a target fan speed in a state where there is no ventilation deterioration of the device corresponding to the test reference fan power An internal temperature sensor for detecting the internal temperature of the apparatus, and a target fan rotational speed correction unit for correcting the target fan rotational speed corresponding to the test reference fan power based on the temperature detected by the internal temperature sensor. The combustion fan is rotated when the combustion fan is rotated so that the power consumption of the combustion fan becomes the test reference fan power during the self-diagnosis operation after the combustion stop of the burner. When the detected rotational speed value deviates from the allowable rotation range given to the target fan rotational speed after the rotational speed detected value is corrected by the target fan rotational speed correcting section, ventilation is performed. A ventilation deterioration self-diagnosis unit for determining a deterioration progress state and outputting a ventilation deterioration progress signal is provided.
[0018]
Furthermore, an elapsed time measuring means for measuring an elapsed time after the burner has stopped burning is provided, and after the elapsed time measured by the elapsed time measuring means has reached a predetermined device stabilization set time. It is also a characteristic configuration of the present invention that a self-diagnosis operation permission unit that permits the start of self-diagnosis operation by the ventilation deterioration self-diagnosis unit is provided.
[0019]
Further, the apparatus has an in-apparatus temperature stabilization determining means for determining whether or not the in-apparatus temperature after the combustion of the burner is stopped, and the in-apparatus temperature stabilization determining means determines whether the in-apparatus temperature is stabilized. A self-diagnosis operation permission unit that permits the start of the self-diagnosis operation by the ventilation deterioration self-diagnosis unit after being performed is also a characteristic configuration of the present invention.
[0020]
Further, the apparatus internal temperature stabilization determining means includes an apparatus internal temperature change detection unit for determining a temperature change of the apparatus internal detection temperature detected by the apparatus internal temperature sensor, and a temperature change calculated by the apparatus internal temperature change detection unit. Having a temperature change comparison / determination unit that determines whether the temperature in the apparatus is stabilized when the ratio falls within a predetermined temperature change allowable range, and a plurality of the temperature sensors in the apparatus are provided to stabilize the temperature in the apparatus. The temperature detection means includes a temperature variation detector for obtaining variations in the detected temperatures in the devices respectively detected by the plurality of device temperature sensors, and a temperature variation obtained by the temperature variations detector is predetermined. A characteristic configuration of the present invention is also provided with a temperature variation comparison determination unit that determines whether the temperature in the apparatus is stabilized when the temperature variation is within the allowable range. It is.
[0021]
In the first, second, and third inventions configured as described above, the reference data storage unit includes the test reference fan rotation speed and the target of the combustion fan in a state where there is no airflow deterioration of the device corresponding to the test reference fan rotation speed. Data related to power consumption is stored, and target power consumption is obtained based on the stored data.
[0022]
In the first invention, the ventilation fan self-diagnosis unit rotates the combustion fan so that the power consumption of the combustion fan becomes the target power consumption during the self-diagnosis operation after the combustion of the burner is stopped, and The detected value of the rotational speed of the combustion fan at this time is taken from the fan rotational speed detection sensor, and when this detected value is outside the rotational speed allowable range given for the test reference fan rotational speed, As a result, a ventilation deterioration progress signal is output.
[0023]
In the second and third inventions, when the target power consumption is obtained, the target power correction unit corresponds to the test reference fan speed based on the detected temperature detected by the temperature sensor in the apparatus. The target power consumption is corrected and determined.
[0024]
In the second aspect of the invention, the ventilation fan self-diagnosis unit causes the power consumption of the combustion fan to become the target power consumption after the correction determination by the target power correction unit at the time of the self-diagnosis operation after the combustion stop of the burner. The combustion fan is rotated at the same time, and the detected rotational speed value of the combustion fan at this time is taken from the fan rotational speed detection sensor, and the detected rotational speed is given to the test reference fan rotational speed. When out of the range, it is determined that the ventilation deterioration has progressed, and a ventilation deterioration progress signal is output.
[0025]
In the third aspect of the invention, the ventilation fan self-diagnosis unit rotates the combustion fan so that the rotation speed of the combustion fan becomes the test reference fan rotation speed during the self-diagnosis operation after the burner stops the combustion. And a value of the power consumption of the combustion fan detected by the fan power detection means at this time is taken in, and further, this value is consumed with respect to the target power consumption corrected by the target power correction unit When it is out of the allowable power range, it is determined that the ventilation deterioration has progressed and a ventilation deterioration progress signal is output.
[0026]
On the other hand, in the fourth, fifth, and sixth inventions, the reference data storage unit stores the relation data between the test reference fan power and the target fan speed in a state where there is no ventilation deterioration of the device corresponding to the test reference fan power. Is stored, and the target fan speed is obtained based on the stored data.
[0027]
In the fourth aspect of the invention, the ventilation fan self-diagnosis unit rotates the combustion fan so that the rotation speed of the combustion fan becomes the target fan rotation speed during the self-diagnosis operation after the combustion of the burner is stopped. And the value of the power consumption of the combustion fan detected by the fan power detection means at this time is taken in, and if this value deviates from the power consumption allowable range given to the test reference fan power, ventilation deterioration It is determined that the vehicle is in the advanced state, and a ventilation deterioration progress signal is output.
[0028]
In the fifth and sixth aspects of the invention, when the target fan speed is obtained, the target fan speed correcting unit corrects the test reference fan based on the detected temperature in the apparatus detected by the in-apparatus temperature sensor. The target fan speed corresponding to the power is corrected and determined.
[0029]
In the fifth aspect of the invention, the ventilation fan self-diagnostic unit performs the target fan rotation speed after the combustion fan rotation speed is determined by the target fan rotation speed correction section during the self-diagnosis operation after the burner combustion stop. The value of the power consumption of the combustion fan detected by the fan power detection means at this time is taken, and this value is given to the test reference fan power. When the power consumption is outside the allowable power consumption range, it is determined that the ventilation deterioration has progressed, and a ventilation deterioration progress signal is output.
[0030]
In the sixth invention, the ventilation fan self-diagnosis unit rotates the combustion fan so that the power consumption of the combustion fan becomes the test reference fan power during the self-diagnosis operation after the combustion of the burner is stopped. In addition, the rotation speed detection value of the combustion fan at this time is taken in from the fan rotation speed detection sensor, and this rotation speed detection value is given to the target fan rotation speed after being corrected by the target fan rotation speed correction unit. When it is out of the allowable rotation range, it is determined that the ventilation deterioration has progressed and a ventilation deterioration progress signal is output.
[0031]
As described above, in the present invention, during the self-diagnosis operation after the combustion of the burner is stopped, the power consumption of the combustion fan is rotated to become the target power consumption of the air volume detection sensor or the test reference fan power. Based on the detection data of the fan rotation speed detection sensor, the ventilation deterioration of the device is judged, or the combustion fan is rotated at the target fan rotation speed or the test reference fan rotation speed. The ventilation deterioration status of the device is accurately determined by determining the ventilation deterioration status of the device based on the detection value for the diagnostic criteria obtained from these detection data, and determining that the ventilation deterioration progresses when the detection value is out of the allowable range. The above-described problem of accurately determining the lifetime of the apparatus is solved.
[0032]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the present invention will be described below with reference to the drawings. In the description of the present embodiment, the same reference numerals are assigned to the same name portions as in the conventional example, and the duplicate description thereof is omitted. The combustion apparatus of the first embodiment of the present invention is directed to a water heater having the configuration shown in FIG. 2 that is configured in substantially the same manner as the water heater shown in FIG. 19, and this embodiment is different from the conventional example. The most characteristic feature is that the controller 17 is provided with a ventilation deterioration self-diagnosis unit for determining ventilation deterioration of the apparatus.
[0033]
In addition, in the water heater of the present embodiment shown in FIG. 2, an in-apparatus temperature sensor (apparatus temperature sensor) 27 for detecting the temperature in the apparatus is provided on the side surface of the nozzle holder 6. Although not shown in FIG. 2, the water heater of the present embodiment includes a fan that indirectly detects the power consumption of the combustion fan 5 as a current consumption value under a constant voltage condition of 100 V, for example. Power detection means 25 (FIG. 1) is provided. In FIG. 2, 24 indicates a passage between the air chamber 9 and the combustion chamber 3, and 23 indicates an air volume detection sensor.
[0034]
FIG. 1 shows a circuit configuration of a control device 17 having a characteristic self-diagnosis unit of the present embodiment. As shown in FIG. 1, the control device 17 includes a combustion control unit 35, an air flow rate, and the like. A control unit 26 and a ventilation deterioration self-diagnosis unit 46 are provided.
[0035]
Combustion control unit 35 includes a feed water flow rate detected based on flow sensor 15, a feed water temperature detected by incoming water temperature sensor 14, a hot water temperature detected by hot water temperature sensor 16, and a set temperature applied from a remote controller or the like. Based on this information, the required combustion heat quantity (required gas supply amount) is obtained by control of feedforward and feedback calculation so that the tapping temperature matches the set temperature, and the proportional valve 10 is opened so that this required combustion heat quantity can be obtained. Control valve drive current.
[0036]
On the other hand, the air volume control unit 26 holds control data indicating the relationship between the combustion heat amount and the power consumption of the combustion fan 5 corresponding to the heat amount, and the target power consumption corresponding to the required combustion heat amount obtained by the combustion control unit 35. Is calculated from the control data, and combustion is performed using the fan rotation detection signal of the fan rotation detection sensor 21 so that the detected current detected by the fan power detection means 25 becomes the current consumption value corresponding to the target power consumption during the combustion operation. The fan 5 is rotationally controlled, and the airflow control of the airflow control unit 26 and the combustion control of the combustion control unit 35 are matched to perform the combustion operation of the appliance.
[0037]
As shown in FIG. 1, the ventilation deterioration self-diagnosis unit 46 includes an elapsed time measuring means 30, an operation permission unit 50, a target power correction unit 34, a test reference fan rotational speed input unit 32, a reference data storage unit 28, a target power determination unit. 38, the fan rotation control unit 33, the diagnostic reference detection value determination unit 39, the comparison determination unit 41, the rotation speed allowable range memory 40, the combustion stop command unit 48, and the deterioration output number storage determination unit 47, A ventilation deterioration information display unit 45 is connected.
[0038]
The elapsed time measuring means 30 measures the elapsed time after the combustion stop of the burner 4, and the elapsed time measuring means 30 has a built-in timer, and a combustion operation stop signal of the combustion control unit 35 or the flame rod electrode 20. In response to this flame extinguishing signal, the elapsed time from when the hot water heater combusts is stopped, and the measurement result is added to the operation permission unit 50 momentarily.
[0039]
The operation permission unit 50 is given in advance a device stabilization set time from when the combustion operation of the water heater is stopped. This apparatus stabilization set time is obtained by experiments or the like in advance as the time required for the air temperature in the appliance of the hot water heater to be stabilized in place and uniform after the combustion of the hot water heater is stopped. FIG. 17 is a graph obtained by rotating the temperature of each part in the appliance immediately after stopping the combustion of the water heater so that the air flow is constant. The vertical axis of this graph shows the temperature of each part in the instrument. As can be seen from this graph, the temperature in each part of the instrument immediately after the combustion stopped varies greatly depending on the location. The variation becomes smaller.
[0040]
FIG. 18 is a graph obtained by measuring the air temperature in each part of the appliance after 4 hours had elapsed since the combustion of the water heater was stopped. As described above, when a relatively long time elapses after the combustion is stopped, the temperature variation of each part in the instrument becomes small and becomes almost uniform. In the present embodiment example, the time until the variation in the air temperature of each part in the appliance after combustion stops becomes small and uniform is obtained by experiment, and the time is given to the operation permission unit 50 as the device stabilization set time. .
[0041]
The operation permission unit 50 receives the elapsed time measurement result by the elapsed time measurement means 30, and after the elapsed time measured by the elapsed time measurement unit reaches the device stabilization set time, the ventilation deterioration self-diagnosis unit 46 It functions as a self-diagnosis operation permission unit that permits the start of the self-diagnosis operation, and adds an operation permission signal to the target power correction unit 34 when the elapsed time reaches the device stabilization set time.
[0042]
The test reference fan rotational speed input unit 32 is used to input a test reference fan rotational speed that serves as a reference when the ventilation deterioration self-diagnosis unit 46 performs self-diagnosis of the ventilation deterioration of the combustion device (water heater). The value is added to the target power determination unit 38 and the rotation speed allowable range memory 40. In this embodiment, the test reference fan speed is input when the combustion apparatus is shipped.
[0043]
In the present embodiment, the reference data storage unit 28 stores relational data between the test reference fan rotation speed and the target power consumption in a state where there is no ventilation deterioration of the device corresponding to the test reference fan rotation speed. As the relation data between the test reference fan speed and the target power consumption, for example, as shown in FIG. 3, graph data of the test reference fan speed and the target current consumption value under a constant voltage condition is obtained as an experiment or the like. Is stored in the memory. The graph of FIG. 3 is relational data when the temperature in the apparatus is constant at 25 ° C.
[0044]
The target power determining unit 38 is a device corresponding to the test reference fan rotational speed input by the test reference fan rotational speed input unit 32 based on relational data (stored data) given to the reference data storage unit 28. The target power consumption in a state where there is no deterioration in ventilation is determined. In this embodiment, the target power consumption value corresponding to the target power consumption is determined as the target power consumption. For example, as described above, the test reference fan rotation speed input unit 32 performs the test. The reference fan speed is R ₀ Is set to a target consumption current value A corresponding to the test reference fan rotational speed based on FIG. ₀ Determine as.
[0045]
The power consumption of the combustion fan 5 has temperature dependence, and the current consumption (fan current) of the combustion fan 5 under a constant voltage condition is, for example, the temperature of the blown air from the combustion fan 5 as shown in FIG. It has been confirmed by the present applicant that the temperature varies depending on (environment temperature in the apparatus). Therefore, in the present embodiment example, the target power correction unit 34 is provided in order to accurately determine the target power consumption corresponding to the blown air temperature in consideration of the influence of the blown air temperature on the fan current. The target current consumption value A determined by the target power determination unit 38 ₀ As a provisional target current consumption value, the target power correction unit 34 performs temperature correction by the target power correction unit 34.
[0046]
The target power correcting unit 34 is based on the temperature detected by the in-device temperature detecting sensor 27, and the provisional target current consumption value A applied from the target power determining unit 38. ₀ Is corrected to determine the true target current consumption corresponding to the temperature inside the device. Upon receiving the operation permission signal from the operation permission unit 50, the value of the target current consumption corresponding to the target power consumption is determined in the device. Correction is performed by a correction formula including the apparatus internal temperature T, f (T), which is derived by experiment, for example, so as to be a value corresponding to the apparatus internal air temperature detected by the temperature detection sensor 27. Then, the target power correction unit 34 calculates a current correction temperature value (true target current consumption value) A based on the in-device temperature T. _T And this value is added to the fan rotation control unit 33.
[0047]
The fan rotation control unit 33 rotates the combustion fan 5 based on the control of the air volume control unit 26 during normal combustion operation, while the consumption of the combustion fan 5 detected by the fan power detection means 25 during self-diagnosis operation. The current is the target consumption current value A _T Each time the combustion fan 5 is rotated for a predetermined time so that the combustion fan 5 is rotated during the self-diagnosis operation, the fan rotation signal is sent to the diagnostic reference detection value determination unit 39 while the combustion fan 5 is rotating. Add.
[0048]
While the fan rotation signal is being applied from the fan rotation control unit 33, the diagnostic reference detection value determination unit 39 takes in the fan rotation number detection value at this time from the fan rotation number detection sensor 21, and performs predetermined processing from the start of fan rotation. For example, an average value of rotation speed detection values detected at a predetermined time such as t seconds after the elapse of time is obtained, and the average value X of the rotation speed detection values is determined as a diagnostic reference detection value. Then, the diagnostic reference detection value determination unit 39 adds the diagnostic reference detection value X to the comparison determination unit 41.
[0049]
The rotation speed allowable range memory 40 stores a rotation speed allowable range given to the test reference fan rotation speed input and set by the reference test fan rotation speed input unit 32. For example, the test reference fan rotation speed is stored. Is R ₀ , The allowable rotational speed range is R ₀ + Α (α = R ₀ / X) or less, the rotation speed allowable range is given as a range having a slight margin with respect to the test reference fan rotation speed.
[0050]
In FIG. 5, the combustion fan 5 is rotated so that the consumption current (fan current) of the combustion fan 5 detected by the fan power detection means 25 is constant under the condition that the apparatus internal temperature is constant (25 ° C.). The relationship between the exhaust port blockage rate (the rate of progress of ventilation deterioration) and the number of fan rotations is shown, and this relationship data was obtained by the present applicant through experiments and the like. As is apparent from this figure, when the ventilation deterioration of the apparatus proceeds and the exhaust port blocking rate rises, the rotational speed of the combustion fan 5 for obtaining a constant fan current gradually increases.
[0051]
From this figure, when the combustion fan 5 is rotated so as to have a target current consumption value at 25 ° C. corresponding to the test reference fan rotation speed, the exhaust port blockage rate becomes about 60%. The rotational speed of the combustion fan 5 is R ₁ In this embodiment, R is the fan rotation speed corresponding to the exhaust port blockage rate of 60%. ₁ Rotation speed allowable range upper limit value X _UP Set as R ₁ The following was given to the rotation speed allowable range memory 40 as the rotation speed allowable range.
[0052]
The comparison determination unit 41 compares the average value (diagnosis reference detection value) of the rotation speed detection value with a rotation speed allowable range given to the test reference fan rotation speed, and compares the rotation speed detection value with a diagnosis reference value Is out of the permissible rotational speed range, it is determined that the ventilation deterioration has progressed and a ventilation deterioration progress signal is output. The comparison determination unit 41 uses the diagnosis reference value X added from the diagnosis reference detection value determination unit 39 as the upper limit value X of the rotation speed allowable range given to the rotation speed allowable range memory 40. _UP (Eg R ₁ ), The diagnostic reference value is X _UP When it exceeds, a ventilation deterioration progress signal is output.
[0053]
The deterioration output number storage determination unit 47 counts and stores the number of times of ventilation deterioration progress signal output from the comparison determination unit 41, and this output number is a predetermined life determination number M. _ST When it exceeds the value, it is determined that the ventilation deterioration has reached the end of its life, and a life end signal is added to the combustion stop command section 48 and the ventilation deterioration information display section 45.
[0054]
The combustion stop command unit 48 applies a combustion stop command to the combustion control unit 35 when a life reaching signal is added from the deterioration output number storage determination unit 47.
[0055]
The ventilation deterioration information display unit 45 is provided, for example, in the remote controller 9 or the like, and displays this ventilation deterioration progress information when a life reaching signal is added from the deterioration output number storage determination unit 47, and an appropriate error The fact that the ventilation deterioration life of the combustion device has been reached is displayed according to the display method.
[0056]
The present embodiment is configured as described above. Next, the self-diagnosis operation of the present embodiment will be described based on the flowchart shown in FIG. First, after the start of the combustion operation is confirmed in step 101 and until the combustion operation is stopped in step 103, the normal normal combustion operation is performed for 15 seconds or more based on the combustion operation control of the combustion control unit 35. When this is done, in step 104, the elapsed time measuring means 30 receives the combustion operation stop signal applied from the combustion operation control unit 35 or the flame extinguishing signal of the flame rod electrode 20, and from the time when the combustion operation of the water heater is stopped. Start measuring the elapsed time.
[0057]
When it is confirmed in step 105 that re-bathing is not performed, and in step 106, it is confirmed that the elapsed time of the combustion stop has reached the device stabilization set time (for example, 4 hours). The operation permission unit 50 permits the start of self-diagnosis operation for ventilation deterioration, and the target power correction unit 34 takes in the detected temperature detected by the in-device temperature detection sensor 27 in step 107.
[0058]
In step 108, based on the data stored in the reference data storage unit 28, the provisional target current consumption value A obtained by the target power determination unit 38 is obtained. ₀ Is the true target consumption current value A corresponding to the detection sensor of the in-device temperature detection sensor 27. _T The correction is determined by the target power correction unit 34 so that In step 109, the consumption current of the combustion fan 5 detected by the fan power detection means 25 is the true target consumption current value A. _T Thus, the fan rotation control unit 33 rotates the combustion fan 5 (self-diagnosis fan drive).
[0059]
In step 110, the average value of the rotation speed detection values detected by the fan rotation speed detection sensor 21 at a predetermined time such as t seconds after the predetermined time has elapsed since the rotation start of the combustion fan 5 in step 109. X is obtained by the diagnostic reference detection value determination unit 39 and determined as the diagnostic reference detection value. In step 111, the comparison determination unit 41 compares the diagnosis reference detection value with the rotation speed allowable range given to the rotation speed allowable range memory 40, and the diagnosis reference detection value X is set to the rotation speed allowable range upper limit value. X _UP When the rotation speed is within the allowable range, it is determined in step 112 that there is no abnormality in ventilation deterioration, and the process returns to step 101.
[0060]
On the other hand, in step 111, the diagnostic reference value X is the rotation speed allowable range upper limit value X. _UP If it is determined that the engine speed is outside the allowable rotational speed range, it is determined that the ventilation deterioration has progressed. Accordingly, in step 113, a ventilation deterioration progress signal is output and added to the deterioration output count storage determination unit 47. In step 114, the deterioration output number storage determination unit 47 uses the life determination number M in which the output number m of the ventilation deterioration progress signal is given in advance. _ST The number of times m of the ventilation deterioration progress signal is output is the number of times of life determination M. _ST Return to step 101 in the following cases.
[0061]
In addition, the number of outputs m of the ventilation deterioration progress signal is the number of times of life determination M. _ST Is exceeded, the deterioration output number storage determining unit 47 determines that the ventilation deterioration of the combustion device has reached the end of its life, and a life reaching signal is added to the combustion stop command unit 48 and the ventilation deterioration information display unit 45, In step 115, the combustion operation of the water heater is stopped by a command from the combustion stop command unit 48, and an error is displayed by the ventilation deterioration information display unit 45 to indicate that the ventilation deterioration life of the water heater has been reached. .
[0062]
According to the present embodiment, the consumption current of the combustion fan 5 detected by the fan power detection means 25 is calculated as the target consumption current value A by the above operation. _T Based on the detection data of the fan rotation speed detection sensor 21 each time the combustion fan 5 is rotated so as to become, depending on whether or not the fan rotation speed detection data is within an allowable range given to the test reference fan rotation speed, In order to judge in detail the state of ventilation deterioration of the water heater, it is possible to determine the exact life of the water heater, and it is possible to accurately deal with maintenance and replacement of the water heater.
[0063]
Therefore, even though the water heater still maintains sufficient combustion performance and can continue to perform good combustion operation, it is possible to prevent it from being judged to be a life and being disposed of. It is possible to suppress waste, and even though the combustion performance has deteriorated due to ventilation deterioration and has reached the end of its life, the number of combustions and the combustion time have not reached the set value, so it is not determined as the end of life. It is also possible to avoid the risk of continued use in a state of worsening combustion.
[0064]
FIG. 7 shows the configuration of the main part of the control unit of the second embodiment of the combustion apparatus according to the present invention. Similar to the first embodiment, the present embodiment is also intended for a water heater having the system configuration shown in FIG. 2, and includes a combustion control unit 35, an air volume control unit 26, and a ventilation deterioration self-diagnosis unit 46. It is configured. The most distinctive feature of this embodiment differs from the first embodiment is that the ventilation deterioration self-diagnosis unit 46 rotates the combustion fan 5 so that the fan rotation speed becomes the target fan rotation speed during the self-diagnosis operation. This is because the ventilation deterioration judgment of the apparatus is performed based on the detection data of the fan power detection means 25 when the power is detected.
[0065]
As shown in FIG. 7, the ventilation deterioration self-diagnosis unit 46 in the present embodiment includes an elapsed time measuring means 30, an operation permission unit 50, a target fan rotational speed correction unit 42, a test reference fan power input unit 44, and a reference data storage. Unit 28, target fan rotation speed determination unit 43, fan rotation control unit 33, diagnostic reference detection value determination unit 39, comparison determination unit 41, power consumption allowable range memory 49, combustion stop command unit 48, deterioration output number memory determination unit 47 And is connected to the ventilation deterioration information display unit 45.
[0066]
Also in the present embodiment, the configurations and functions of the elapsed time measuring means 30, the operation permission unit 50, the deterioration output number memory determination unit 47, the combustion stop command unit 48, and the ventilation deterioration information display unit 45 are the same as those in the first embodiment. Since it is the same as that of an example, the duplication description is abbreviate | omitted. In addition, with regard to the other constituent elements, the duplicate description of the same operations as those in the first embodiment is omitted.
[0067]
The test reference fan power input unit 44 inputs the value of the test reference fan power.In this embodiment, the test reference fan power is input as the value of the test reference fan current. A ₀ It is said. This value is added to the target fan speed determining unit 43 and the power consumption allowable range memory 49.
[0068]
In the present embodiment, the reference data storage unit 28 stores relational data between the test reference fan power and the target fan rotational speed in a state where there is no ventilation deterioration of the device corresponding to the test reference fan power. The reference data storage unit 28 corresponds to the test reference fan power under a certain set temperature (for example, 25 ° C.) condition as shown in FIG. 8, for example, as the relation data between the test reference fan power and the target fan speed. Graph data of the value of the test reference fan current and the target fan speed under a constant voltage condition is stored.
[0069]
The target fan rotation speed determination unit 43 has no ventilation deterioration of the apparatus corresponding to the test reference fan power input by the test reference fan power input unit 44 based on the relational data stored in the reference data storage unit 28. In this embodiment, the target fan rotational speed is determined in accordance with the test reference fan current value, and the determined target fan rotational speed is used as a temporary target fan speed. The rotation speed is added to the target fan rotation speed correction unit 42.
[0070]
The target fan speed correction unit 42 corrects the target fan speed based on the temperature detected by the in-device temperature detection sensor 27. As described above, since the power consumption of the combustion fan 5 varies depending on the temperature, the power consumption of the combustion fan 5 varies depending on the temperature when the rotational speed of the fan is constant, and conversely, the power consumption of the combustion fan 5 is reduced. When constant, the fan speed varies with temperature. For example, FIG. 11 shows relationship data between the current consumption (fan current) of the combustion fan 5 and the fan rotation speed under a constant voltage condition. As is apparent from this figure, the consumption of the combustion fan 5 is shown. When the current is constant, the fan speed varies with temperature.
[0071]
Therefore, the target fan rotational speed correction unit 42 sets the target fan rotational speed corresponding to the internal air temperature detected by the internal temperature detection sensor 27, for example, the internal air temperature when the fan current is constant and the fan It is obtained from the relationship data with the rotational speed, corrected and determined as the true target fan rotational speed, and this value is added to the fan rotational control section 33.
[0072]
In the present embodiment, the fan rotation control unit 33 is configured so that, during the self-diagnosis operation, the sensor output of the fan rotation detection sensor 21 becomes the true target fan rotation number applied from the target fan rotation number correction unit 42. Each time the combustion fan 5 is rotated during the self-diagnosis operation, a fan rotation signal is applied to the diagnostic reference detection value determination unit 39 while the combustion fan 5 is rotating.
[0073]
The diagnostic reference detection value determination unit 39 receives the fan rotation signal from the fan rotation control unit 33, and while the fan rotation control unit 33 rotates the combustion fan 5 during the self-diagnosis operation, The power consumption is indirectly detected by the fan power detection means 25 as a current consumption value, and this value is captured. Then, an average value of the fan current detected at a predetermined time, for example, t seconds after the elapse of a predetermined time from the start of the fan rotation is obtained, and the average value A of the fan current is obtained. _X As a diagnostic reference detection value, and this diagnostic reference detection value A _X Is added to the comparison / determination unit 41.
[0074]
The power consumption allowable range memory 49 stores a power consumption allowable range given to the test reference fan power. In this embodiment, the power consumption allowable range is input by the test reference fan power input unit 44. The current consumption allowable range given to the test reference fan current is stored.
[0075]
FIG. 10 shows the exhaust port clogging rate (the rate of progression of ventilation deterioration) when the combustion fan 5 is rotated so that the fan rotation speed is constant under the condition that the temperature inside the apparatus is constant (25 ° C.). And the consumption current (fan current) of the combustion fan 5 are shown, and this relational data is obtained by the present applicant through experiments and the like. As is apparent from this figure, when the ventilation deterioration of the apparatus progresses and the exhaust port blocking rate increases, the fan current of the combustion fan 5 for achieving a constant fan rotation speed gradually decreases.
[0076]
Then, from this figure, the target fan speed (R) at 25 ° C. corresponding to the fan current corresponding to the test reference fan power. ₀ ) When the combustion fan 5 is rotated so that the exhaust port blockage rate becomes about 60%, the fan current becomes A ₁ It turns out that it becomes. In this embodiment, A is a fan current corresponding to an exhaust port blocking rate of 60%. ₁ , The current consumption allowable range lower limit value A of the combustion fan 5 _D Set as A ₁ The above is given to the power consumption allowable range memory 49 as the current consumption allowable range corresponding to the power consumption allowable range.
[0077]
The comparison determination unit 41 compares the allowable power consumption range with the diagnostic reference detection value (detected average value) added from the diagnostic reference detection value determination unit 39, and the power consumption diagnostic reference detection value of the combustion fan 5 is consumed. When the power is out of the allowable power range, a ventilation deterioration progress signal is output and added to the deterioration output number storage determination unit 47. In the present embodiment example, the comparison / determination unit 41 includes a fan current diagnosis reference value (an average value of the fan current) A added from the diagnosis reference detection value determination unit 39. _X Is the lower limit value A of the current consumption allowable range given to the power consumption allowable range memory 49. _D And the diagnostic reference value is A _D When it is less than this, a ventilation deterioration progress signal is output.
[0078]
The present embodiment is configured as described above. Next, the self-diagnosis operation of the present embodiment will be described based on the flowchart of FIG. First, the operation from step 101 to step 105 is performed in the same manner as in the first embodiment, and in step 106, when 4 hours as the device stabilization set time have elapsed since the combustion stop, the operation permission unit 50 The self-diagnosis operation starts when the operation is permitted.
[0079]
In this embodiment, in this self-diagnosis operation, first, the target fan rotation speed determination unit 43 determines the target fan rotation speed corresponding to the test reference fan current input by the test reference fan power input unit 44. . Then, based on the temperature detected by the in-device temperature detection sensor 27 detected in step 107, in step 108A, the fan rotational speed is corrected and determined by the target fan rotational speed correction unit 42 so as to correspond to the internal temperature. Then, the combustion fan 5 is rotated at step 109A with the corrected target fan speed. In step 110A, the detected current consumption data of the combustion fan 5 at this time is detected by the fan power detection means 25 for about t seconds after a predetermined time has elapsed from the start of fan rotation, and the combustion fan 5 at this time is detected. Is obtained by the diagnostic reference detection value determining unit 39, and the diagnostic reference detection value A _X As determined.
[0080]
In step 111A, the diagnostic reference detection value is A _X A which is the lower limit value of the current consumption allowable range set in the power consumption allowable range memory 49 _D The comparison / determination unit 41 determines whether or not the value is smaller. And the diagnostic reference detection value A _X Is A _D Is smaller than the allowable current consumption range, the operation from step 113 to step 115 is performed in the same manner as in the first embodiment, while the diagnosis reference detection is performed in step 111A. Value A _X Is the lower limit value of the current consumption allowable range of the combustion fan 5 _D If it is determined as described above, the operation of step 112 is performed in the same manner as in the first embodiment.
[0081]
According to the present embodiment, by the above operation, the ventilation deterioration self-diagnosis unit 46 rotates the combustion fan 5 at the target fan rotation speed during the self-diagnosis operation, and based on the detection data of the fan power detection means 25 at this time. Depending on whether or not the detected data is within the allowable current consumption range given to the test reference fan current, it is possible to accurately determine the ventilation deterioration of the apparatus, and the same effect as in the first embodiment. Can be played.
[0082]
FIG. 12 shows the main configuration of the control unit of the third embodiment of the combustion apparatus according to the present invention. Similar to the first and second embodiment examples, the present embodiment example is also directed to the water heater having the system configuration shown in FIG. 2, and the present embodiment example is different from the first embodiment example. That is, during the self-diagnosis operation after the combustion of the burner 4 is stopped, the combustion fan is rotated so that the rotation speed of the combustion fan 5 becomes the test reference fan rotation speed, and this time is detected by the fan power detection means 25. The self-diagnosis operation of the ventilation deterioration of the apparatus is performed based on the power consumption of the combustion fan 5.
[0083]
The constituent elements of this embodiment are the same as those of the first embodiment except that a power consumption allowable range memory 49 is provided instead of the rotation speed allowable range memory 40 in the first embodiment. Also, elapsed time measuring means 30, operation permission unit 50, reference data storage unit 28, test reference fan rotation speed input unit 32, target power determination unit 38, target power correction unit 34, combustion stop command unit 48, deterioration output frequency storage The configurations and functions of the determination unit 47 and the ventilation deterioration information display unit 45 are the same as those in the first embodiment, and therefore, redundant description thereof is omitted.
[0084]
In the present embodiment, the value of the test reference fan rotation speed input by the test reference fan rotation speed input unit 32 is added to the target power determination unit 38 and also to the fan rotation control unit 33. The fan rotation control unit 33 rotates the combustion fan 5 so that the fan rotation speed detected by the fan rotation speed detection sensor 21 becomes the test reference fan rotation speed during the self-diagnosis operation.
[0085]
In this embodiment, the target power consumption value corresponding to the target power consumption corrected by the target power correction unit 34 is added to the target power allowable range memory 49 based on the temperature detected by the in-device temperature detection sensor 27. In the target power allowable range memory 49, the power consumption allowable range given to the target current consumption value corrected by the target power correction unit 34 (for example, its lower limit value A _D ′) Is given. Note that this allowable current consumption range is, for example, based on relational data as shown in FIG. 10 in the same way as when the allowable range is given to the allowable power consumption range memory 49 in the second embodiment. It is given as a range with some margin for the true target current consumption after the correction is determined.
[0086]
The diagnostic reference detection value determination unit 39 detects the combustion fan 5 detected by the fan power detection means 25 when the fan rotation control unit 33 rotates the combustion fan 5 so that the rotation number becomes the test reference fan rotation number. A value of current consumption (fan current) is taken in, for example, the fan current of the combustion fan 5 is detected for about t seconds after a predetermined time has elapsed from the start of rotation of the combustion fan 5, and the average value of the fan current is detected as a diagnostic reference detection value. A _X It is determined as ′ and added to the comparison judgment unit 41.
[0087]
The comparison / determination unit 41 includes a diagnosis reference detection value A added from the diagnosis reference detection value determination unit 39. _X 'And a power consumption allowable range given to the true target current consumption value given to the power consumption allowable range memory 49 (the lower limit value A thereof) _D ′), And when the detected value of the diagnostic reference is out of the current consumption allowable range, a ventilation deterioration progress signal is output and added to the deterioration output number storage determination unit 47.
[0088]
The present embodiment is configured as described above. As shown in FIG. 13, the operations from step 101 to step 108 are performed in the same manner as in the first embodiment. Next, in this embodiment, when the combustion fan 5 is driven and the combustion fan 5 is rotated for self-diagnosis in step 109B, the rotation speed of the combustion fan 5 becomes the test reference fan rotation speed. As described above, the combustion fan 5 is rotated by the fan rotation control unit 33.
[0089]
In step 110B, the current consumption value of the combustion fan 5 at this time is taken in, for example, a predetermined t seconds by the diagnostic reference detection value determination unit 39, and the current consumption of the combustion fan 5 detected in this t seconds is detected. Average value A of detected values _X 'Is diagnostic standard detection value A _X Determined as'. In step 111B, this diagnostic reference detection value A _X ′ Is the lower limit value A of the current consumption allowable range given to the power consumption allowable range memory 49 _D It is determined whether it is smaller than '.
[0090]
And the diagnostic reference detection value A _X 'Is the lower limit A of the current consumption allowable range _D When it is smaller than ′, the operation from step 113 to step 115 is performed in the same manner as in the first and second embodiments in order to deviate from the current consumption allowable range. The value is the lower limit A of the current consumption allowable range _D If it is determined that the current consumption is within the allowable current consumption range, the operation of step 112 is performed in the same manner as in the first and second embodiments.
[0091]
According to the present embodiment, by the above operation, the ventilation deterioration self-diagnosis unit 46 rotates the rotation speed of the combustion fan 5 to be the test reference fan rotation speed during the self-diagnosis operation, and the fan power detection means at this time Based on the detected data of 25, it is possible to accurately determine the ventilation deterioration of the apparatus depending on whether or not the consumption current of the combustion fan 5 is within an allowable range given to the true target consumption current value. The same effects as those of the first and second embodiments can be obtained.
[0092]
FIG. 14 shows the configuration of the main part of the control unit of the fourth embodiment of the combustion apparatus according to the present invention. As in the first to third embodiments, this embodiment is also intended for the water heater having the system configuration shown in FIG. 2, and this embodiment is the most distinctive from the second embodiment. This is because the power consumption of the combustion fan 5 is detected by detecting the current consumption under a constant voltage condition during the self-diagnosis operation after the burner 4 stops combustion, and the value of this current consumption is determined by the test reference fan power input unit 44. And the self-diagnosis operation of the ventilation deterioration of the apparatus is performed based on the detected value of the rotational speed of the combustion fan 5 at this time.
[0093]
In this embodiment, the components other than the power consumption allowable range memory 49 are the same as those of the second embodiment except that the rotation speed allowable range memory 40 is provided. Also, elapsed time measuring means 30, operation permission unit 50, target fan rotation speed correction unit 42, reference data storage unit 28, target fan rotation speed determination unit 43, test reference fan power input unit 44, combustion stop command unit 48, deterioration The configurations and functions of the output number storage determination unit 47 and the ventilation deterioration information display unit 45 are the same as those in the second embodiment, and therefore, redundant description thereof is omitted.
[0094]
In this embodiment, in order to perform a self-diagnosis operation based on the detected value of the rotation speed of the combustion fan when the combustion fan 5 is rotated so as to have a test reference fan current, a test reference fan power input unit is used. The value of the test reference fan current input by 44 is added to the target fan rotation speed determination unit 43 and the fan rotation control unit 33, and the fan rotation control unit 33 receives the test reference fan current and the test reference fan current during the self-diagnosis operation. The combustion fan 5 is rotated so that
[0095]
Further, in the present embodiment, the value of the target fan speed determined and corrected by the target fan speed correction unit 42 is added to the rotation speed allowable range memory 40. In the rotation speed allowable range memory 40, , A rotation speed allowable range given to the target fan rotation speed corrected by the target fan rotation speed correction unit 42 (for example, its upper limit value X _UP ′) Is given. The rotational speed allowable range is determined based on the relational data shown in FIG. 5 in the same manner as when the rotational speed allowable range memory 40 is given an allowable range in the first embodiment. It is given as a range with some margin for the subsequent true target fan speed.
[0096]
The diagnostic reference detection value determination unit 39 detects the rotation speed of the combustion fan 5 when the combustion fan 5 is rotated by the control of the fan rotation control unit 33 so that the consumption current of the combustion fan 5 becomes the test reference fan current. The value is taken in from the fan rotation speed detection sensor 21, the average value of the rotation speed detection values detected for a predetermined time, for example, t seconds after a predetermined time has elapsed from the start of rotation of the combustion fan 5, is calculated. An average value X ′ of the number detection values is determined as a diagnostic reference detection value.
[0097]
The comparison determination unit 41 supplies the average value X ′ of the rotation speed detection value added from the diagnostic reference detection value determination unit 39 to the rotation speed tolerance range memory 49, and a correction value for the target fan rotation speed (true target fan). Rotational speed tolerance range (upper limit value X) _UP When the average value of the rotation speed detection values is out of the rotation speed allowable range as compared with '), it is determined that the ventilation deterioration has progressed and a ventilation deterioration progress signal is output and added to the deterioration output count storage determination section 47.
[0098]
The present embodiment is configured as described above. As shown in the flowchart of FIG. 15, operations from step 101 to step 108A are performed in the same manner as in the second embodiment. Next, in this embodiment, in step 109C, when the combustion fan 5 is driven and rotated during the self-diagnosis operation, the consumption current of the combustion fan 5 is the test reference fan current input by the test reference fan power input unit 44. In step 110C, the rotation speed of the combustion fan 5 at this time is fetched from the fan rotation detection sensor 21, and the average value (diagnosis reference detection value) of the fan rotation speed detection value is obtained. ) X 'is determined.
[0099]
In step 111C, the average value X ′ of the detected rotational speed value X ′ is the upper limit value X of the rotational speed allowable range given to the rotational speed allowable range memory 40. _UP It is determined whether or not it is greater than ′, and the average value X ′ of the rotational speed detection values is the upper limit X _UP ′, The operation of step 112 is performed in the same manner as in the first to third embodiments. On the other hand, the average value X ′ of the rotational speed detection values is the upper limit value X. _UP When the value is larger than ′, the average value X ′ of the diagnostic reference detection value is out of the rotation speed allowable range. Therefore, the operation from step 113 to step 115 is the same as in the first to third embodiments. Done.
[0100]
According to the present embodiment, the ventilation fan self-diagnosis unit 46 causes the combustion fan 5 to become the test reference fan current under the constant voltage condition by the above-described operation so that the current consumption of the combustion fan 5 under the constant voltage condition becomes the test reference fan current. Based on the detection data of the rotational speed of the combustion fan 5 at this time, the ventilation deterioration of the apparatus depends on whether or not the detected data of the fan rotational speed is within an allowable range given to the true target fan rotational speed. Judgment can be made accurately and the same effects as those of the first to third embodiments can be obtained.
[0101]
In addition, this invention is not limited to the said embodiment example, Various aspects can be taken. For example, in the above embodiment, the power consumption of the combustion fan 5 is obtained or set based on the value of the current consumption (fan current) of the combustion fan 5 under a constant voltage condition. May be obtained or set by the consumption voltage of the combustion fan 5 under a constant current condition.
[0102]
Further, in the above embodiment, the reference data storage unit 28 stores the relationship data between the test reference fan speed and the target power consumption, or the relationship data between the test reference fan power and the target fan speed as graph data. However, the relation data may be other data such as table data other than the graph data.
[0103]
Further, the test reference fan rotation speed input unit 32 and the test reference fan power input unit 44 provided in the above embodiment are omitted, and the test reference fan rotation speed and the test reference fan power are stored in a memory such as a reference data storage unit, for example. You may make it give beforehand.
[0104]
Further, in the above embodiment, the test reference fan rotation speed is input by the test reference fan rotation speed input unit 32, and the test reference fan power is input by the test reference fan power input unit 44. The number and the test reference fan air volume may be automatically determined each time by the combustion device during the self-diagnosis operation of the device.
[0105]
Further, in the above-described embodiment, when the ventilation deterioration progress signal is output from the comparison determination unit 41, a deterioration output number storage determination unit 47 is provided for storing and determining the number of signal outputs. The combustion operation of the combustion device is stopped by the combustion stop command unit 48 when the given number of times of life determination has been reached, but the combustion device of the present invention uses the ventilation deterioration progress signal in addition to the above. Various devices can be configured. For example, the number of outputs of the ventilation deterioration progress signal is displayed, or the number of outputs of the ventilation deterioration progress signal is used to perform input down control so that air necessary for combustion can be secured even if the ventilation is clogged. You may do it.
[0106]
Further, in the above-described embodiment, as a diagnostic reference detection value for determining the ventilation deterioration progress state of the apparatus by the comparison determination unit 41, a predetermined time after elapse of a predetermined time after rotating the combustion fan 5, for example, t The average value of the detection values of the fan power detection means 25 or the average value of the sensor output detection values of the fan rotation detection sensor 21 detected at a time such as a second is determined, but the diagnostic reference detection value is not necessarily the detection value. For example, the sensor output detection value when a predetermined time has elapsed from the start of rotation of the combustion fan 5 may be determined as the diagnostic reference detection value.
[0107]
Further, in the above embodiment, the upper limit value of the allowable rotational speed range is given to the allowable rotational speed range memory 40, and the lower limit value of the allowable power consumption range (current consumption under a constant voltage condition) is given to the allowable power consumption range memory 49. However, in addition to one of the upper limit value and the lower limit value of the allowable range, both the upper limit value and the lower limit value may be given to the rotation speed allowable range memory and the air volume allowable range memory.
[0108]
Furthermore, in the above-described embodiment, the in-apparatus temperature detection sensor 27 for detecting the air temperature in the apparatus is provided in the nozzle holder 6. The in-apparatus temperature detection sensor 27 detects the air temperature in the combustion apparatus (equipment). It may be a place where it can be used, and may be installed in a place in any other device. In the embodiment, one in-apparatus temperature detection sensor 27 is provided, but a plurality of in-apparatus temperature detection sensors may be provided in different locations in the instrument.
[0109]
Furthermore, in the above embodiment example, the operation permission unit 50 outputs the operation permission signal when the elapsed time measured by the elapsed time measuring means 30 reaches the device stabilization set time. The operation permission signal may be output when a predetermined time elapses after reaching the device stabilization set time.
[0110]
Further, in the above embodiment, the elapsed time measuring means 30 is provided, and the self-diagnosis operation is started by the operation permission unit 50 after the elapsed time measured by the elapsed time measuring means 30 reaches the device stabilization set time. The self-diagnosis operation is started, but instead of providing the elapsed time measuring means 30, as shown in FIG. 16, it is determined whether or not the temperature in the apparatus after the combustion stop of the burner 4 has stabilized. A self-diagnosis operation by the ventilation deterioration self-diagnosis unit is permitted after the in-device temperature stabilization judgment means 53 is provided, and the stabilization of the in-device temperature is judged by the in-device temperature stabilization judgment means 53. A diagnosis operation permission unit 54 may be provided to start the self-diagnosis operation.
[0111]
In addition, as shown in FIG. 16A, for example, the apparatus internal temperature stabilization determining means 53 is configured to detect the temperature change of the apparatus internal temperature detected by the apparatus internal temperature detection sensor 27 (of the apparatus internal temperature detection sensor 27). The device internal temperature change detection unit 55 for obtaining the time change of the output value, and the device internal temperature when the ratio of the temperature change obtained by the device internal temperature change detection unit 55 falls within a predetermined temperature change allowable range. A temperature change comparison / determination unit 56 for determining the stabilization of the temperature can be provided.
[0112]
When a plurality of in-device temperature detection sensors 27 are provided, the in-device temperature stabilization detection means 53 is detected by each of the plurality of in-device temperature detection sensors 27 as shown in FIG. A temperature variation detector 58 for obtaining a plurality of detected temperature variations in the device, and stabilizing the temperature in the device when the temperature variation obtained by the temperature variation detector falls within a predetermined allowable temperature variation range. A temperature variation comparison / determination unit 59 for determination may be provided.
[0113]
Furthermore, the target power correction unit 34 and the target fan rotation speed correction unit 42 can be omitted. However, since the relationship between the power consumption of the combustion fan 5 and the rotational speed has temperature dependence, these correction units are provided, and the target consumption is determined based on the in-apparatus air temperature detected by the in-apparatus temperature detection sensor 27. By correcting the power and the target fan speed, the self-diagnosis operation can be performed more accurately.
[0114]
Further, in the above embodiment example, the ventilation deterioration information display unit 45 is provided on the remote control and is connected to the self-diagnosis unit 54. However, the ventilation deterioration information display unit 45 can be omitted or different from the remote control and the control device. It can also be provided in the display device so that it can be connected to the ventilation deterioration self-diagnosis unit 46 as needed.
[0115]
Furthermore, in order to shorten the waiting time until the air temperature in the apparatus is stabilized, a device for cooling the inside of the apparatus by air cooling of a fan (combustion fan can be used) or water cooling by passing water may be provided.
[0116]
Furthermore, in the above-described embodiment, the single-function water heater as shown in FIG. 2 (a hot water heater having only a hot water function) has been described as the combustion device. It can also be applied to hot water heaters with bathing and heating functions), and also to various combustion devices such as burner combustion heaters, air conditioners, air conditioners, and air conditioners. Applicable.
[0117]
【The invention's effect】
According to the present invention, during the self-diagnosis operation after the burner stops combustion, the rotation speed of the fan is detected by rotating the combustion fan so that the power consumption of the combustion fan becomes the target power consumption of the air volume detection sensor or the test reference fan power. Judgment of ventilation deterioration of the device based on the detection data of the sensor, or rotating the combustion fan at the target fan rotation speed or the test reference fan rotation speed, based on the detection data of the power consumption of the combustion fan at this time Ventilation deterioration is determined, and when the detection value for the diagnostic standard obtained from these detection data is out of the allowable range, it is determined that the ventilation deterioration is in progress, so that the combustion of the combustion device is simply performed as in the conventional case. Unlike the method of determining the life of the device based on the number of times and the combustion time, it is possible to accurately determine the ventilation deterioration state of the device due to the deviation of the detection value for the diagnostic reference from the allowable range. Constant, and it is possible to determine the life of the device accurately.
[0118]
Further, according to the present invention, an in-device temperature sensor for detecting the temperature in the device is provided, and the target power consumption and the target fan speed are corrected based on the detected temperature of the in-device temperature sensor. Since the reference value of the combustion fan rotation at the time of self-determination and the determination reference value of self-diagnosis can be corrected corresponding to the air temperature in the apparatus, the self-diagnosis operation can be performed more accurately.
[0119]
Furthermore, a self-diagnosis operation permission unit that permits the start of self-diagnosis operation for ventilation deterioration after the elapsed time after the burner combustion stop has reached a predetermined device stabilization set time, or in the device after the burner combustion stop According to the present invention, which is provided with a self-diagnosis operation permitting unit that permits the start of ventilation deterioration self-diagnosis operation after it is determined that the temperature has stabilized, the temperature in the apparatus after the burner has stopped burning is completely stabilized. Then, since the self-diagnosis operation is started after that, the self-diagnosis operation for ventilation deterioration as described above can be performed very accurately.
[0120]
Further, the apparatus internal temperature stabilization determining means includes an apparatus internal temperature change detection unit for determining a temperature change of the apparatus internal detection temperature detected by the apparatus internal temperature sensor, and a temperature change calculated by the apparatus internal temperature change detection unit. A temperature change comparison / determination unit that determines whether the temperature in the apparatus is stabilized when the ratio falls within a predetermined allowable temperature change range, or a plurality of apparatus temperature sensors are provided to stabilize the temperature in the apparatus. The detecting means includes a temperature variation detecting unit that obtains a plurality of in-device detected temperature variations detected by each of the plurality of in-device temperature sensors, and a temperature at which the temperature variation obtained by the temperature variation detecting unit is determined in advance. By having a temperature variation comparison / determination unit that determines the stabilization of the temperature in the device when the variation is within the allowable range, Time becomes very accurately it is possible to determine the stability of the self-diagnosis operation of the ventilation deterioration may be very accurately performed.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a main configuration of a control unit of a first embodiment of a combustion apparatus according to the present invention.
FIG. 2 is a configuration explanatory diagram of a water heater as a combustion apparatus according to the present embodiment.
FIG. 3 is a graph showing an example of relational data between a test reference fan rotational speed and a target current consumption, which is stored in the reference data storage unit 28 of the first embodiment.
FIG. 4 is a flowchart showing a self-diagnosis operation for ventilation deterioration in the first embodiment.
FIG. 5 is a graph showing the relationship between the exhaust port blocking rate and the fan rotation speed when the combustion fan is rotated so that the fan current of the combustion fan becomes constant.
FIG. 6 is a graph showing the relationship between the temperature in the apparatus and the fan current of the combustion fan when the combustion fan is rotated so that the fan rotation number is constant, and the result obtained for the exhaust port blockage rate of 0%. is there.
FIG. 7 is a block diagram showing a configuration of a main part of a control unit of a second embodiment of a combustion apparatus according to the present invention.
FIG. 8 is a graph showing an example of relational data between a test reference fan current and a target fan speed, which is stored in the reference data storage unit 28 of the second embodiment.
FIG. 9 is a flowchart showing a self-diagnosis operation for ventilation deterioration in the second embodiment.
FIG. 10 is a graph showing the relationship between the exhaust port closing rate and the fan current when the combustion fan is rotated so that the fan rotation number is constant.
FIG. 11 is a graph showing the results of obtaining the relationship between the temperature inside the apparatus and the number of rotations of the fan when the combustion fan is rotated so that the fan current is constant with respect to an exhaust port closing rate of 0%.
FIG. 12 is a block diagram showing the configuration of the main part of the control unit of the third embodiment of the combustion apparatus according to the present invention.
FIG. 13 is a flowchart showing a self-diagnosis operation for ventilation deterioration in the third embodiment.
FIG. 14 is a block diagram showing a main configuration of a control unit of a fourth embodiment of the combustion apparatus according to the present invention.
FIG. 15 is a flowchart showing a self-diagnosis operation for ventilation deterioration in the fourth embodiment.
FIG. 16 is an explanatory diagram of another embodiment of a combustion apparatus according to the present invention.
FIG. 17 is a graph showing the state of variation in the temperature of each part in the apparatus immediately after the combustion of the water heater is stopped.
FIG. 18 is a graph of the temperature in each part of the apparatus in a state where the variation in the temperature in each part of the apparatus after a predetermined time has elapsed after the combustion of the water heater is stopped and becomes uniform.
FIG. 19 is an explanatory view showing an example of a water heater as a conventional combustion apparatus.
[Explanation of symbols]
27 Internal temperature sensor
33 Fan rotation controller
34 Target power correction unit
39 Diagnostic criteria detection value determination unit
40 Speed tolerance memory
41 Comparison judgment section
42 Target fan speed correction unit
43 Target fan speed determining unit
46 Ventilation deterioration self-diagnosis department
49 Power consumption tolerance memory
50 Operation permission part
53 Device temperature stabilization judgment means
56 Temperature change comparison judgment section
59 Temperature variation comparison judgment section

Claims (10)

A combustion apparatus comprising a burner, a combustion fan for supplying combustion air to the burner, fan power detection means for detecting power consumption of the combustion fan, and a fan rotation speed detection sensor for detecting the rotation speed of the combustion fan A reference data storage unit for storing relationship data between a test reference fan speed and a target power consumption of the combustion fan in a state where there is no ventilation deterioration of the device corresponding to the test reference fan speed, and the burner At the time of self-diagnosis operation after the combustion stop, the combustion fan rotation speed detection value when the combustion fan is rotated so that the power consumption of the combustion fan becomes the target power consumption is taken from the fan rotation speed detection sensor, When the detected rotational speed value is out of the rotational speed allowable range given for the test reference fan rotational speed, it is determined that the ventilation deterioration has progressed and a ventilation deterioration progress signal is output. The ventilation deterioration self diagnosis unit which is provided a combustion apparatus according to claim. A combustion apparatus comprising a burner, a combustion fan for supplying combustion air to the burner, fan power detection means for detecting power consumption of the combustion fan, and a fan rotation speed detection sensor for detecting the rotation speed of the combustion fan A reference data storage unit for storing relational data between the test reference fan rotational speed and the target power consumption of the combustion fan in a state where there is no ventilation deterioration of the apparatus corresponding to the test reference fan rotational speed, And a target power correction unit that corrects a target power consumption corresponding to the test reference fan rotational speed based on the temperature detected by the temperature sensor in the apparatus. When the combustion fan is rotated so that the power consumption of the combustion fan becomes the target power consumption corrected by the target power correction unit during the self-diagnosis operation after the combustion stop The rotational speed detection value of the baked fan is taken in from the fan rotational speed detection sensor. A combustion apparatus comprising a ventilation deterioration self-diagnosis unit for outputting a deterioration progress signal. A combustion apparatus comprising a burner, a combustion fan for supplying combustion air to the burner, fan power detection means for detecting power consumption of the combustion fan, and a fan rotation speed detection sensor for detecting the rotation speed of the combustion fan A reference data storage unit for storing relational data between the test reference fan rotational speed and the target power consumption of the combustion fan in a state where there is no ventilation deterioration of the apparatus corresponding to the test reference fan rotational speed, And a target power correction unit that corrects a target power consumption corresponding to the test reference fan rotational speed based on the temperature detected by the temperature sensor in the apparatus. When the combustion fan is rotated so that the rotation speed of the combustion fan becomes the test reference fan rotation speed during the self-diagnosis operation after the combustion stop, the fan power detection means When the detected power consumption value of the combustion fan deviates from the power consumption allowable range given to the target power consumption corrected by the target power correction unit, it is determined that the ventilation deterioration has progressed and a ventilation deterioration progress signal is output. A combustion apparatus characterized in that a ventilation deterioration self-diagnosis unit is provided. A combustion apparatus comprising a burner, a combustion fan for supplying combustion air to the burner, fan power detection means for detecting power consumption of the combustion fan, and a fan rotation speed detection sensor for detecting the rotation speed of the combustion fan A reference data storage unit for storing relationship data between a test reference fan power and a target fan speed in a state where there is no ventilation deterioration of a device corresponding to the test reference fan power, and after the combustion of the burner is stopped When the combustion fan is rotated so that the rotation speed of the combustion fan becomes the target fan rotation speed during the self-diagnosis operation, the detected power consumption value of the combustion fan detected by the fan power detection means is the test standard. A ventilation deterioration self-diagnosis unit that outputs a ventilation deterioration progress signal by determining that the ventilation deterioration has progressed when it falls outside the allowable power consumption range given to the fan power. Combustion apparatus characterized by being provided. A combustion apparatus comprising a burner, a combustion fan for supplying combustion air to the burner, fan power detection means for detecting power consumption of the combustion fan, and a fan rotation speed detection sensor for detecting the rotation speed of the combustion fan A reference data storage unit for storing relational data between the test reference fan power and the target fan speed in a state where there is no ventilation deterioration of the device corresponding to the test reference fan power, and detects the temperature in the device And a target fan rotational speed correction unit that corrects a target fan rotational speed corresponding to the test reference fan power based on a temperature detected by the internal temperature sensor, and stops burning of the burner. During the subsequent self-diagnosis operation, the combustion fan is rotated so that the rotation speed of the combustion fan becomes the target fan rotation speed after being corrected by the target fan rotation speed correction unit. When the detected power consumption value of the combustion fan detected by the fan power detection means deviates from the power consumption allowable range given to the test reference fan power, it is determined that the ventilation deterioration has progressed and a ventilation deterioration progress signal is output. A combustion apparatus characterized in that a ventilation deterioration self-diagnosis unit is provided. A combustion apparatus comprising a burner, a combustion fan for supplying combustion air to the burner, fan power detection means for detecting power consumption of the combustion fan, and a fan rotation speed detection sensor for detecting the rotation speed of the combustion fan A reference data storage unit for storing relational data between the test reference fan power and the target fan speed in a state where there is no ventilation deterioration of the device corresponding to the test reference fan power, and detects the temperature in the device And a target fan rotational speed correction unit that corrects a target fan rotational speed corresponding to the test reference fan power based on a temperature detected by the internal temperature sensor, and stops burning of the burner. During the subsequent self-diagnosis operation, the detected value of the rotation speed of the combustion fan when the combustion fan is rotated so that the power consumption of the combustion fan becomes the test reference fan power If the detected rotational speed is out of the allowable rotation range given to the target fan speed after being corrected by the target fan speed correcting section, it is determined that the ventilation deterioration has progressed. A combustion apparatus comprising a ventilation deterioration self-diagnosis unit that outputs a ventilation deterioration progress signal. Elapsed time measuring means is provided for measuring the elapsed time after the burner has stopped combustion, and the elapsed time measured by the elapsed time measuring means is less than the self-deteriorating airflow after reaching a predetermined device stabilization set time. The combustion apparatus according to any one of claims 1 to 6, further comprising a self-diagnosis operation permission unit that permits the diagnosis unit to start a self-diagnosis operation. After the apparatus internal temperature stabilization determining means for determining whether or not the internal temperature after the combustion of the burner is stabilized is determined, and after the internal temperature stabilization is determined by the internal temperature stabilization determining means The combustion apparatus according to claim 1, further comprising a self-diagnosis operation permission unit that permits a self-diagnosis operation start by the ventilation deterioration self-diagnosis unit. The in-apparatus temperature stabilization determining means includes an in-apparatus temperature change detecting section for determining a temperature change of the in-apparatus detected temperature detected by the in-apparatus temperature sensor, and a ratio of the temperature change obtained by the in-apparatus temperature change detecting section in advance. 9. The combustion apparatus according to claim 8, further comprising a temperature change comparison / determination unit that determines whether the temperature in the apparatus is stabilized when the temperature change is within a predetermined allowable temperature change range. A plurality of in-device temperature sensors are provided, and the in-device temperature stabilization detecting means includes a temperature variation detecting unit that obtains a plurality of in-device detected temperature variations detected by each of the plurality of in-device temperature sensors, 9. A temperature variation comparison / determination unit that determines whether the temperature in the apparatus is stabilized when the temperature variation obtained by the temperature variation detection unit falls within a predetermined temperature variation allowable range. Combustion equipment.

Images