JP4258121B2 - Failure diagnosis support device for water heater - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
More particularly, the present invention relates to a technique for facilitating fault diagnosis of a hot water supply apparatus including a carbon monoxide detecting means for detecting a concentration of carbon monoxide contained in combustion exhaust gas.
[0002]
[Prior art]
FIG. 4 shows an example of a schematic configuration of a conventional hot water supply apparatus. This hot water supply device 1 is included in the combustion exhaust gas in an adapter 5 that connects a can body 1a having a burner 2 and a heat exchanger 3 and an exhaust pipe 4 for discharging the combustion exhaust gas of the burner 2 to the outside. A hot water supply apparatus of a type provided with a CO sensor (carbon monoxide detection means) 6 for detecting the carbon oxide concentration. In this type of hot water supply apparatus, the control unit (microcomputer) of the CO sensor 6 and the hot water supply apparatus 1 is used. 7, and the carbon monoxide concentration detected by the CO sensor 6 can be monitored by the control unit 7. When the carbon monoxide concentration detected by the CO sensor 6 during combustion of the burner 2 exceeds a predetermined value, the control means 7 is configured to stop the combustion of the burner 2.
[0003]
By the way, the CO sensor 6 used in such a hot water supply apparatus 1 is usually configured such that a wire composed of a platinum catalyst is arranged in the exhaust path of combustion exhaust, and a voltage output from a detection circuit including this wire. By detecting the value, carbon monoxide contained in the combustion exhaust gas is detected. Therefore, this type of hot water supply apparatus 1 is configured such that the control unit 7 can control energization (power ON / OFF) to the CO sensor 6 in detecting the carbon monoxide concentration.
[0004]
Further, in the CO sensor 6 having such a configuration, since the resistance value changes due to the attachment of a product such as carbon to the wire rod, the detection accuracy of the carbon monoxide concentration is distorted. The sensor 6 is provided with a heater (for example, a ceramic heater) in the vicinity of the wire, and when the power is supplied to the CO sensor 6, the heater is automatically operated to remove a product attached to the sensor surface. It is configured.
[0005]
In FIG. 4, reference numeral 8 denotes a combustion fan that operates in conjunction with the start of combustion of the burner 2, and the operation of the combustion fan 8 along with the burner 2 can be controlled by the control unit 7. Yes.
[0006]
[Problems to be solved by the invention]
However, the hot water supply apparatus having such a conventional configuration has the following problems and has been desired to be improved.
[0007]
That is, in this type of hot water supply apparatus, the quality of the combustion state of the burner 2 is determined exclusively by the exchange of data between the CO sensor 6 and the control unit 7, so that a periodic check of the hot water supply apparatus 1 is performed. Even if an operator tries to check the combustion state of hot water supply measures (whether carbon monoxide emissions are within the range of appropriate values), such combustion state is necessary without expert knowledge of microcomputer control and hot water supply equipment. I could not confirm. Therefore, an inexperienced worker cannot confirm the combustion state of the hot water supply device, or even if it can be confirmed, it takes a lot of labor and time for the operation, but it is difficult to accurately grasp the combustion state. .
[0008]
Similarly, it is determined whether or not the operation state of the CO sensor 6 that determines the determination in the control unit 7 is normal (that is, whether or not the detection result of the CO sensor 6 is within the allowable error range). However, since specialized knowledge and technology about microcomputer control and hot water supply equipment are required, such operation confirmation is also a task with the same difficulty as described above for inexperienced workers who do not have such specialized knowledge. It was.
[0009]
The present invention has been made in view of such conventional problems, and the purpose of the present invention is to make it possible for an inexperienced worker to easily and quickly and accurately check the combustion state of the hot water supply device and the operation of the CO sensor. An object of the present invention is to provide a failure diagnosis support device for a hot water supply device.
[0010]
[Means for Solving the Problems]
In order to achieve the above object, a failure diagnosis support apparatus for a hot water supply apparatus according to the present invention is provided as follows: An apparatus for diagnosing faults in a hot water supply apparatus comprising carbon monoxide detection means for detecting the concentration of carbon monoxide contained in combustion exhaust and scavenging means for scavenging combustion exhaust, the failure diagnosis support apparatus Comprises a communication means for communicating with the hot water supply apparatus, and comprises a portable computer storing a predetermined control program for failure diagnosis, and the control program is started by operating the input means of the computer By doing so, the control means of the computer outputs a scavenging start command signal for commanding the start of the operation of the scavenging means to the controller of the hot water supply device via the communication means based on the control program. The scavenging means of the hot water supply device is operated, and the carbon monoxide detector is detected after a predetermined time has elapsed after the scavenging start command signal is output. The detection start command signal is output to the control unit of the hot water supply device, and the carbon monoxide concentration detected by the carbon monoxide detection means at that time is acquired from the control unit of the hot water supply device via the communication means. And a control configuration for diagnosing the operating state of the carbon monoxide detecting means by comparing the obtained carbon monoxide concentration with a reference value. It is characterized by that.
[0015]
The present invention In the hot water supply apparatus failure diagnosis support apparatus according to the present invention, when the carbon monoxide detection means provided in the hot water supply apparatus is diagnosed, the scavenging means provided in the hot water supply apparatus is provided by outputting a scavenging start command signal from the control means to the hot water supply apparatus. Make it work. Here, as the scavenging means, a combustion fan provided for the hot water supply device to supply combustion air to the burner is preferably used. In this case, the scavenging start command signal is sent to the hot water supply device by the combustion fan. A signal whose content is an operation start command is used.
[0016]
On the other hand, when the scavenging means operates, the combustion gas remaining in the can body is discharged, and accordingly, carbon monoxide remaining in the can body is also discharged outside the can body. The control means waits for the discharge of the combustion gas after outputting the scavenging start command signal, and outputs a detection start command signal to the carbon monoxide detecting means. As a result, the carbon monoxide detection means detects the carbon monoxide concentration after exhausting the combustion gas. When carbon monoxide is detected in this state, the detected value is detected by the carbon monoxide detection means. This means an error (in this case, the detection error includes a deviation due to the temperature characteristic of the CO sensor). Therefore, the control means captures the carbon monoxide concentration detected by the carbon monoxide detection means at this time via the communication means, and compares the detected value with a predetermined reference value to detect the carbon monoxide. The quality of the operation state of the means is determined. That means This invention As the reference value used in the above, a value indicating a detection error allowable in the carbon monoxide detecting means is used.
[0017]
Therefore, The present invention According to , The worker can easily, accurately and quickly diagnose the quality of the operating state of the carbon monoxide detection means provided in the hot water supply device by simply performing a connection work between the hot water supply device and the communication means and starting the control program.
[0020]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, an embodiment of a failure diagnosis support apparatus (hereinafter referred to as a failure diagnosis support apparatus) for a hot water supply apparatus according to the present invention will be described in detail with reference to the drawings.
[0021]
FIG. 1 shows a schematic configuration of a failure diagnosis support apparatus 10 according to the present invention and a connection state between the failure diagnosis support apparatus 10 and the hot water supply apparatus 1. The hot water supply apparatus shown in FIG. 1 is a hot water supply apparatus having the same configuration as that of the hot water supply apparatus 1 shown in FIG. 4 described above. In FIG. 1, reference numeral 9 indicates a communication interface (communication means) provided for the hot water supply device 1 to communicate with a remote control device or the like not shown.
[0022]
The failure diagnosis support apparatus 10 is an apparatus used when a serviceman or the like performs an inspection operation or the like of the hot water supply apparatus 1, and includes a communication unit 11 for communicating with the hot water supply apparatus 1 and a storage for storing a predetermined control program. Means 12, control means 13 for executing predetermined processing based on the control program, notification means 14 for notifying the result of the processing in the control means 13 to the outside, and input of an instruction for starting the control program, etc. The input means 15 for performing is comprised as a main part.
[0023]
Specifically, as the failure diagnosis support apparatus 10, a so-called general-purpose computer, preferably a portable computer (so-called laptop personal computer), is equipped with the communication means 11 with the hot water supply apparatus 1, and the hot water supply apparatus. Those storing programs and data necessary for the failure diagnosis of 1 are preferably used.
[0024]
That is, the calculation unit (CPU) of the personal computer is used as the control unit 13 and a display device (for example, a liquid crystal display) provided in the computer is used as the notification unit 14. The storage means 12 is a storage device (for example, a built-in hard disk device or a built-in MO disk device) provided in the computer, and the input device 14 is a keyboard device, a mouse, a stylus pen, or the like. The pointing device is used. Further, as the communication means 11, a data communication device such as a modem built in or externally attached to the computer is used (incorporated in the illustrated example).
[0025]
The storage unit 12 includes a program storage unit 12a that stores a control program CP for executing processing that will be described later, and a data storage unit 12b that stores data D necessary for execution of the processing.
[0026]
Thus, in the failure diagnosis support apparatus 1 of the present invention, the communication means 11 of the failure diagnosis support apparatus 10 thus configured and the communication interface 9 of the hot water supply apparatus 1 are connected by a predetermined communication cable L, By starting a predetermined control program CP by operating the input means 15, a failure diagnosis of the hot water supply apparatus 1 is performed as follows.
[0027]
A. Diagnosis of combustion condition of water heater
An example of a procedure for diagnosing the combustion state of the water heater 1 is shown in the flowchart of FIG. In this case, the control means 13 of the failure diagnosis support apparatus 10 outputs a combustion control signal for instructing a predetermined combustion operation to the control unit 7 of the hot water supply apparatus 1 via the communication means 11 based on the control program CP. To do. In the present embodiment, as this combustion control signal, first, as shown in step S1 of FIG. 2, a combustion control signal having the content of burning the burner 2 at the lowest gas pressure (MIN combustion) is output.
[0028]
Thereby, in the hot water supply device 1, the combustion operation for burning the burner 2 at the lowest gas pressure is started. At this time, the control means 13 waits for the combustion of the burner 2 to be stabilized and executes the next processing. Specifically, as shown in step S2 of FIG. 2, after the combustion control signal is output, the CO sensor 6 (carbon monoxide detecting means) waits for a predetermined time (20 seconds in the illustrated example) to elapse. The controller 7 of the hot water supply apparatus 1 is requested to transmit a detected value (CO sensor data) of the detected carbon monoxide concentration, and the CO sensor data is received from the hot water supply apparatus 1 (see step S3 in FIG. 2).
[0029]
Then, when the CO sensor data detected during the MIN combustion is acquired from the hot water supply device 1, the acquired CO sensor data is compared with a predetermined reference value. Specifically, as shown in step S4 of FIG. 2, CO center data (detected carbon monoxide concentration) and a predetermined reference value (100 ppm in the illustrated example) S ₁ And the CO sensor data is a predetermined reference value S ₁ It is determined whether or not the reference value S ₁ Is exceeded, it is determined that the concentration of carbon monoxide contained in the combustion exhaust gas is abnormal, and the fact is notified to the worker through the notification means 14.
[0030]
At this time, in the present embodiment, since the notification means 14 is constituted by a display device, the fact that the carbon monoxide concentration is abnormal is displayed on the screen of the display device. In this display, only the result of the diagnosis can be displayed (for example, “NG” is displayed), but the setting can be changed as appropriate, for example, by displaying a specific numerical value of the CO sensor data together with this display. Further, when the notification means 14 is provided with an output device such as a voice in addition to the display device, it can be configured to output an alarm sound or the like using these. In short, other configurations can be adopted as long as the operator can be notified that the result of the diagnosis is negative.
[0031]
As described above, in the present embodiment, the communication between the failure diagnosis support apparatus 10 and the hot water supply apparatus 1 forces the hot water supply apparatus 1 to perform a predetermined combustion operation, and the CO sensor data detected by the CO sensor 6 at that time. Is obtained by the failure diagnosis support device 10 and is compared with a predetermined reference value, so that the combustion state of the hot water supply device 1 can be diagnosed, so that the worker can connect the communication cable L and start the control program CP. The combustion state of the hot water supply apparatus 1 can be diagnosed easily, quickly and accurately by simply performing (specifically, the operation of the input means 15).
[0032]
In the present embodiment, the CO sensor data is determined to be a predetermined reference value S by the determination in step S4 of FIG. ₁ 2, without immediately determining that the combustion state of the hot water supply device 1 is normal, the process proceeds to step S5 in FIG. 2 and the burner 2 is burned at the maximum gas pressure with respect to the hot water supply device 1 ( A combustion control signal with the content of (MAX combustion) is output. That is, in the control program CP shown in the present embodiment, when performing the above-described combustion state diagnosis, the setting of the combustion operation of the hot water supply device 1 is changed and repeated a plurality of times (in the example shown, MIN combustion and MAX combustion twice). It is configured as follows.
[0033]
Specifically, in step S5 in FIG. 2, the control means 13 outputs a combustion control signal for burning the burner 2 at the maximum gas pressure, and the hot water supply device 1 is subjected to MAX combustion. Thereafter, after the combustion is stabilized (see step S6 in FIG. 2), the control unit 7 of the water heater 1 is requested to transmit the CO sensor data detected by the CO sensor 6 again. The CO sensor data is received (see step S7 in FIG. 2).
[0034]
Then, when the CO sensor data at the time of the MAX combustion is transmitted from the hot water supply device 1, the control means 13 acquires the acquired CO sensor data and a predetermined reference value (300 ppm in the illustrated example) S. ₂ (See step S8 in FIG. 2). The reference value S used in step S8 in FIG. ₂ Is the reference value S used in step S4 in FIG. ₁ In addition, the numerical values are set according to the combustion state of the hot water supply device 1 to be forcibly operated (that is, the combustion state set by the combustion control signal), and these numerical values are stored in the storage unit 12 ( Specifically, a numerical value stored in advance as data in the data storage unit 12b) is used.
[0035]
In the determination of step S8 in FIG. 2, the acquired CO sensor data is converted into a predetermined reference value S. ₂ In the same manner as described above, it is determined that the concentration of carbon monoxide contained in the combustion exhaust gas is abnormal, and the fact is notified to the worker through the notification means 14 (see step S10 in FIG. 2). On the other hand, in the determination of step S8 of FIG. ₂ If determined to be within the range, the process proceeds to step S9 in FIG. 2 to notify the outside through the notification means 14 that the combustion state of the hot water supply apparatus 1 is normal. In this case as well, when the notification means 14 is constituted by a display device, other indications may be performed in addition to the display (for example, “OK” display). In the same way as in the case of “NG” display in step S10 of FIG. 2, it is possible to notify with an alarm sound or the like.
[0036]
As described above, in the failure diagnosis procedure of the illustrated example, the failure diagnosis support device 10 changes the setting of the combustion state of the hot water supply device 1 and detects the carbon monoxide concentration several times, so the diagnosis of the combustion state of the hot water supply device 1 is performed. It is possible to carry out finely and accurately.
[0037]
B. Diagnosis of the operating state of carbon monoxide detection means
Next, an example of a procedure for diagnosing the operating state of the CO sensor 6 included in the hot water supply device 1 will be described with reference to the flowchart of FIG.
[0038]
In this case, based on the control program CP, the control means 13 of the failure diagnosis support apparatus 10 first stops the combustion of the burner 2 with respect to the control unit 7 of the hot water supply apparatus 1 by communication via the communication means 11. Confirm whether or not (see step S1 in FIG. 3). In the illustrated example, the failure diagnosis support apparatus 10 only performs confirmation of whether or not the burner 2 has stopped combustion. However, when the burner 2 is in combustion, the control means 13 of the failure diagnosis support apparatus 10 controls the burner. It may be configured to output a combustion control signal for instructing 2 to stop combustion.
[0039]
If it is determined in step S1 in FIG. 3 that the burner 2 is stopped in combustion, it is next determined in step S2 in FIG. 3 whether the power supply to the CO sensor 6 is cut off (power off). Is done. This determination is also made by communication between the control means 13 and the control unit 7 of the hot water supply device 1. In the illustrated example, the configuration in which only the confirmation of power-off of the CO sensor 6 is performed is shown. However, a command signal for cutting off the power supply to the CO sensor 6 is output to the control unit 7 of the hot water supply device 1. You may comprise. Further, when the controller 7 of the hot water supply apparatus 1 is set to shut off the power source of the CO sensor 6 simultaneously with the combustion stop of the burner 2, the step of step S2 in FIG. 3 may be omitted.
[0040]
Then, when it is confirmed in step S2 in FIG. 3 that the power source of the CO sensor 6 is cut off, the combustion remaining in the can 1a and the adapter 5 of the hot water supply device 1 from the control means 13 to the control unit 7 of the hot water supply device 1 is confirmed. A scavenging start command signal for commanding the start of the operation of the scavenging means for scavenging the gas is output. Here, as the scavenging means, the combustion fan 8 provided in the hot water supply device 1 is preferably used. Therefore, this scavenging start command signal is a control signal for operating the combustion fan 8 to the control unit 7 of the hot water supply device 1.
[0041]
By the transmission of this control signal, the combustion fan 8 of the hot water supply device 1 starts to operate, whereby the combustion gas remaining in the can body 1a is discharged to the outside of the hot water supply device 1 through the adapter 5 and the exhaust pipe 4. Further, as the combustion gas is discharged, the temperature in the adapter 5 is cooled to room temperature, and the temperature of the CO sensor 6 is also stabilized at room temperature. After transmitting the scavenging start command signal, the control means 13 waits for the combustion gas to be discharged and the temperature of the CO sensor 6 to stabilize, and then proceeds to the next process (see step S3 in FIG. 3). That is, after a predetermined time (10 seconds in the illustrated example) predetermined as the required time has elapsed, the process proceeds to step S4 in FIG.
[0042]
In step S4 in FIG. 3, the control means 13 outputs a detection start command signal for instructing the control unit 7 of the hot water supply apparatus 1 to start detecting the carbon monoxide concentration by the CO sensor 6. Specifically, as this detection start command signal, a control signal for requesting the CO sensor 6 to start supplying power (that is, to turn on the power of the CO sensor) is output.
[0043]
As a result, the control unit 7 of the hot water supply device 1 executes a process of starting the power supply to the CO sensor 6. Therefore, the CO sensor 6 that receives the power supply operates the heater provided in the CO sensor 6, and The removal operation (heat-up operation) of carbon adhering to the surface of the wire constituting the CO sensor 6 is started. The control means 6 determines whether or not the heat-up operation has been completed through communication with the hot water supply device 1 (see step S5 in FIG. 3).
[0044]
When this heat-up operation ends, the CO sensor data detected by the CO sensor 6 is transmitted from the hot water supply device 1 to the control means 6, so that the control means 6 that has received the CO sensor data 6 performs this acquisition. The measured CO sensor data is a predetermined reference value S _Three The operation state of the CO sensor 6 is diagnosed in comparison with (see step S7 in FIG. 3).
[0045]
Specifically, this reference value S _Three Is 0 ± Xppm (Here, the output value of the CO sensor is output as a relative amount including the temperature condition, etc., so the state where there is no CO is the reference when using the measurement. The value at that time is 0, and X is Meaning an allowable detection error). In other words, it is considered that no combustion gas remains in the can body 1a after the combustion fan 8 has been operated for a predetermined time by the scavenging start command signal. Therefore, the monoxide detected by the CO sensor 6 in this state Although the carbon concentration is originally 0 ppm, an error may actually occur due to the temperature characteristics of the CO sensor 6 or the like. Therefore, in step S7 in FIG. 3, it is diagnosed whether the CO sensor data is within the allowable error.
[0046]
Therefore, if the CO sensor data is within the range of 0 ± X ppm in the determination of step S7 in FIG. 3, it can be determined that the operating state of the CO sensor 6 is normal. This is notified (see step S8 in FIG. 3). On the other hand, if the detected CO sensor data is outside the range of 0 ± X ppm as a result of the above determination, the CO sensor 6 indicates that the permissible detection error is exceeded, and the notification means 14 displays that fact. Do.
[0047]
In this embodiment, since the notification means 14 is in the form of a display device in this embodiment, if the diagnosis result is normal, “OK” is displayed on the display device, and the diagnosis result is abnormal. The point that “NG” is displayed is the same as the case of diagnosis of the operation state of the hot water supply apparatus 1 described above. Similarly, the actually detected carbon monoxide concentration is displayed as a numerical value together with this display, and when the notification means 14 is composed of output means such as sound, a report sound is used. The point that can be notified in the same manner as described above.
[0048]
Although not particularly shown in the flowchart of FIG. 3, the control means 13 of the failure diagnosis support apparatus 10 determines that the operating state of the CO sensor 6 is abnormal as a result of the determination in step S7 of FIG. In addition, it is preferable that the control unit 13 is configured to transfer the diagnosis result to the hot water supply device 1 together with the notification by the notification unit 14.
[0049]
That is, as a result of the determination in step S7 of FIG. _Three Is within the range, the relative amount of Xppm is used as the correction amount of the CO sensor 6 to correct the data, and the diagnosis result is transferred as the correction data. Specifically, since the CO sensor data means a detection error of the CO sensor 6, the CO sensor data is transferred to the hot water supply device 1 as it is. In the hot water supply device 1 that has received this transfer, the correction program for the CO sensor 6 is stored based on the transferred CO sensor data by storing a correction program for the CO sensor 6 in the control program of the control unit 7. Can be performed.
[0050]
Thus, according to this embodiment, the communication between the failure diagnosis support apparatus 10 and the hot water supply apparatus 1 causes the control means 13 of the failure diagnosis support apparatus 10 to stop the combustion of the hot water supply apparatus 1 and the CO sensor 6. When the power is off, the combustion gas remaining in the can 1a is forcibly discharged, and then the power of the CO sensor 6 is turned on to perform a predetermined heat-up operation (heat cleaning of the CO sensor 6). At that time, the failure diagnosis support apparatus 10 acquires the CO sensor data detected by the CO sensor 6 and compares it with a predetermined reference value, so that the operating state of the CO sensor 6 can be diagnosed. By simply connecting the communication cable L and starting the control program CP (specifically, operating the input means 15), the operating state of the CO sensor 6 can be diagnosed easily, quickly and accurately. Kill.
[0051]
The above-described embodiment is merely a preferred embodiment of the present invention, and the present invention is not limited to this, and various design changes can be made within the scope of the invention.
[0052]
For example, in the above-described embodiment, a case where a general-purpose portable computer is used as the failure diagnosis support apparatus 10 has been described. However, the failure diagnosis support apparatus 10 can be manufactured as a dedicated apparatus having the same function. Further, the failure diagnosis support apparatus 10 may be configured to store one or more control programs and perform failure diagnosis for a plurality of items.
[0053]
In the above-described diagnosis of the combustion operation of the hot water supply apparatus, the combustion control signals output from the failure diagnosis support apparatus 10 are two types of commands for instructing MIN combustion and MAX combustion. It may be configured to output a commanded combustion control signal, and this value can be arbitrarily set by the input means 15 by setting a control program.
[0055]
【The invention's effect】
As detailed above, the present invention According to the hot water supply apparatus failure diagnosis support apparatus according to the present invention, the failure diagnosis support apparatus communicates with the hot water supply apparatus. And a computer that stores a predetermined control program for failure diagnosis, and the control means of the computer is activated by operating the input means of the computer, Based on the control program, the hot water supply device via the communication means Control unit Output a scavenging start command signal for commanding the start of the operation of the scavenging means. Operating the scavenging means of the hot water supply device The detection start command signal of the carbon monoxide detection means after the elapse of a predetermined time after the output of the scavenging start command signal Control unit of the hot water supply device In this case, the above monoacid Conversion The hot water supply apparatus detects the carbon monoxide concentration detected by the carbon detection means via the communication means. Control unit And having the control structure for diagnosing the operating state of the carbon monoxide detection means by comparing the obtained carbon monoxide concentration with a reference value, and connecting the communication means to a hot water supply device to perform a predetermined control. By activating the program, the operating state of the carbon monoxide detection means provided in the hot water supply device is automatically diagnosed, so even an inexperienced service person who does not have specialized knowledge about the hot water supply device can easily In addition, the operating state of the carbon monoxide detecting means can be diagnosed accurately and quickly.
[Brief description of the drawings]
FIG. 1 is an explanatory diagram of a schematic configuration showing a schematic configuration of a failure diagnosis support device for a hot water supply apparatus according to the present invention and a connection state with the hot water supply apparatus.
FIG. 2 is a flowchart showing a control configuration of a control means when diagnosing a combustion state of a hot water supply device in the failure diagnosis support apparatus.
FIG. 3 is a flowchart showing a control configuration of the control means when diagnosing the operating state of the carbon monoxide detection means provided in the hot water supply apparatus in the failure diagnosis support apparatus.
FIG. 4 is an explanatory diagram showing a schematic configuration of a conventional hot water supply apparatus.
[Explanation of symbols]
1 Water heater
2 Burner
3 heat exchanger
4 Exhaust pipe
5 Adapter
6 CO sensor (Carbon monoxide detection means)
7 Control unit
8 Combustion fan (scavenging means)
10 Failure diagnosis support device
11 Communication means
12 Storage means
14 Notification means
15 Input means

Claims (2)

An apparatus for diagnosing a fault in a hot water supply apparatus comprising carbon monoxide detection means for detecting the concentration of carbon monoxide contained in combustion exhaust and scavenging means for scavenging combustion exhaust,
The failure diagnosis support device includes a communication unit for communicating with the hot water supply device, and includes a portable computer that stores a predetermined control program for failure diagnosis.
By activating the control program by operating the input means of the computer control means of the computer, based on the control program, the scavenging means to the control unit of the hot water supply device via the communication means with operating the scavenging means of the hot water supply device outputs a scavenging start command signal for instructing the operation start, the hot water supply detection start command signal of the carbon monoxide detecting means after the output after a predetermined time of the scavenging start command signal outputs to the control unit of the apparatus, to obtain a carbon monoxide concentration detected by the monoacid carbon detecting means when the the control unit of the hot water supply device via the communication means, and the acquired one failure diagnosis support of the water heater, characterized in that <br/> having the control configuration of the carbon oxides concentration is compared with a reference value to diagnose the operating condition of the carbon monoxide detector Location. The failure diagnosis support apparatus for a hot water supply apparatus according to claim 1, further comprising an informing means for informing the outside of a result of diagnosis by the control means.

Images