JPH08270944A - Centralized control system for combustion device - Google Patents

Abstract

PURPOSE: To prevent a delay of communication on the fuel source side needing emergency owing to exclusive occupation of a communication circuit by communication on the combustion device side as equipment constitution is simplified by a method wherein the centralized control system of a combustion device is shared with a system for monitoring a fuel source, such as a cylinder, as much as possible. CONSTITUTION: A common communication part MOD is provided to selectively perform communication on the combustion device side to a central managing device CMP on the monitoring center side from a combustion device managing device to manage a combustion device A and communication on the fuel source side from a fuel source managing device MM, which manages a fuel feed source B to the combustion device A, to a central managing device CMP on the monitoring center side. A communication control means T is provided to control a communication state so that communication on the fuel source side is prior to communication on the combustion device side.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention enables a combustion device management device for managing a combustion device and a fuel source management device for managing a fuel supply source to the combustion device to communicate with a central management device on a monitoring center side. The present invention relates to a centralized monitoring system for a combustion device configured in.

[0002]

2. Description of the Related Art Conventionally, LP gas cylinders (corresponding to fuel supply sources) distributed and distributed at demand points such as homes and businesses
A device called a micom meter (corresponding to a fuel source management device) to manage information regarding the usage status such as the amount of gas used, the amount of gas remaining, and safety such as gas leakage.
Is provided, and information from the microcomputer meter is sent to the center side via a communication line such as a general telephone line,
There is a system configured to centrally manage each cylinder.

On the other hand, in order to centrally manage, on the center side, each gas water heater, gas cooling and heating device (corresponding to a combustion device) which is operated by being supplied with fuel such as LP gas or city gas There is a centralized monitoring system for a combustion device in which a combustion device management device that manages information such as operation records and failures is communicated to the center side.

[0004]

When the centralized monitoring system for the combustion device is used as an independent system by using a communication line different from the fuel source monitoring system for the cylinder or the like, a system is provided. It is conceivable to configure the system so that it is shared as much as possible. However, in order to share a single communication line, a common communication unit that allows communication from each combustion device management device and fuel source management device to the center side will be provided. When there is a need for communication from the device to the center on the combustion device side or from the fuel source to the center on the fuel source side,
By simply switching between the above two communications, if, for example, the combustion device is out of order and the frequency of communication on the combustion device side is excessive and the communication line is occupied for a long time, There is a possibility that communication on the fuel source side, which transmits urgent information such as disconnection or gas leakage, may be delayed.

The present invention has been made in view of the above circumstances, and an object thereof is to provide a centralized monitoring system for a combustion apparatus for monitoring a fuel source such as a cylinder in order to solve the above-mentioned problems of the prior art. The purpose of the present invention is to share the system with the system as much as possible to simplify the equipment configuration, and to avoid delaying the communication on the fuel source side, which requires an emergency, because the communication line is occupied by the communication on the combustion device side.

[0006]

A first characteristic configuration of a centralized monitoring system for a combustion apparatus according to the present invention is the communication on the combustion apparatus side from the combustion apparatus management apparatus to the central management apparatus, and from the fuel source management apparatus. A common communication unit that selectively performs fuel source side communication to the central control device is provided, and the communication state is controlled so that the fuel source side communication has priority over the combustion device side communication. The communication control means is provided.

A second characteristic configuration is the same as the first characteristic configuration, wherein the communication control means controls the communication state so that the fuel source side communication is executed before the combustion device side communication is executed. It is configured as follows.

A third characteristic configuration is the above first or second configuration.
In the characteristic configuration of the above, the communication control means confirms the necessity of the fuel source side communication when the fuel device side communication is necessary, and only when the fuel source side communication is necessary, Before the communication on the combustion device side is performed, the communication on the fuel source side is performed.

A fourth characteristic configuration is the same as the second characteristic configuration, in which the combustion device management device and the fuel source management device are communicable with each other, and the combustion device management device comprises:
When the communication on the fuel device side is required, the fuel source management device is instructed to execute the communication on the fuel source side, and the combustion is performed after the communication on the fuel source side is executed accordingly. It is configured to execute device-side communication and also serves as the communication control means.

A fifth characteristic configuration is the same as the third characteristic configuration, wherein the combustion device management device and the fuel source management device are communicable with each other, and the combustion device management device comprises:
When the fuel device side communication is required, the necessity of the fuel source side communication is confirmed with respect to the fuel source management device, and only when the fuel source side communication is required, the fuel source management device To the fuel source side communication, and is configured to perform the combustion device side communication after the fuel source side communication is executed accordingly, and also serves as the communication control means. There is a point.

A sixth characteristic configuration is the same as the second characteristic configuration, wherein the communication unit, the combustion device management device, and the fuel source management device are communicable with each other, and the communication unit includes the combustion device. When the fuel device side communication request is received from the management device, the fuel source management device is instructed to execute the fuel source side communication, and accordingly the fuel source side communication is executed. After that, it is configured to instruct the combustion device management device to execute the communication on the combustion device side, and also serves as the communication control means.

A seventh characteristic configuration is the same as the third characteristic configuration, wherein the communication unit, the combustion device management device, and the fuel source management device are communicable with each other, and the communication unit includes the combustion device. When a request for the fuel device side communication is received from the management device, the necessity of the fuel source side communication is confirmed with respect to the fuel source management device, and only when the fuel source side communication is required, The fuel source management device is instructed to execute the fuel source side communication, and the fuel source side communication is executed accordingly, and then the combustion device side communication is executed to the combustion device management device. The communication control means is also used as the communication control means.

The eighth characteristic constitution is that the fourth, fifth, and
In the sixth or seventh characteristic configuration, when the combustion device management device needs to perform communication on the fuel device side having the same content as the previous communication content, the combustion device management device transmits the reply information from the central management device by the previous communication. When received, the fuel device side communication having the same content is not performed.

[0014]

According to the first characteristic configuration of the centralized monitoring system for the combustion apparatus of the present invention, the communication control means allows the fuel source side from the fuel source management apparatus managing the fuel supply source to the central management apparatus on the monitoring center side. The communication is prioritized over the communication on the combustion device side from the combustion device management device that manages the combustion device to the central management device on the monitoring center side, and both of the above communications are alternatively selected in the common communication unit. The communication status is controlled so that the communication is performed.

According to the second characteristic configuration, in the first characteristic configuration, when the communication control means performs the combustion device side communication, the fuel source side communication is performed before the combustion device side communication. Control the communication state.

According to the third characteristic configuration, in the first or second characteristic configuration, the communication control means confirms the necessity of the fuel source side communication when the combustion apparatus side communication becomes necessary. If the fuel source side communication is necessary, while performing the fuel source side communication before performing the combustion device side communication,
When the communication on the fuel source side is not necessary, the communication state is controlled so that only the communication on the combustion device side is performed.

According to the fourth characteristic configuration, in the second characteristic configuration, when the combustion apparatus management device which also serves as the communication control means requires the combustion apparatus side communication, the fuel source management apparatus is provided. The communication state is controlled so that the fuel source side communication is executed first by issuing a command and the fuel device side communication is executed after the fuel source side communication is executed.

According to the fifth characteristic configuration, in the third characteristic configuration, when the combustion device management device which also serves as the communication control means requires the combustion device side communication, On the other hand, if the fuel source side communication is confirmed, and if the fuel source side communication is necessary, the fuel source management device is instructed to execute the fuel source side communication first, and the fuel source side communication is executed. After that, the communication on the fuel device side is performed. On the other hand, when the communication on the fuel source side is not necessary, the communication state is controlled so that only the communication on the combustion device side is performed.

According to a sixth characteristic configuration, in the second characteristic configuration, the communication section which also serves as the communication control means,
When a request for the combustion device side communication is received from the combustion device management device, the fuel source management device is instructed to execute the fuel source side communication first, and after the fuel source side communication is executed, the combustion device The communication state is controlled so that the management device is instructed to perform the fuel device side communication.

According to a seventh characteristic configuration, in the third characteristic configuration, the communication section that also serves as the communication control means,
When a request for communication on the combustion device side is received from the combustion device management device, the necessity of communication on the fuel source side is confirmed with the fuel source management device, and if the communication on the fuel source side is required, the fuel source The management device is instructed to execute the fuel source side communication first, and after the fuel source side communication is executed, the combustion device management device is instructed to perform the fuel device side communication, while the fuel source side communication When it is not necessary, the combustor management device is instructed to control the communication state so that only the combustor side communication is performed.

According to the eighth characteristic configuration, the fourth,
In the fifth, sixth, or seventh characteristic configuration, the combustion device management device has the same communication content as the previous communication on the combustion device side when the communication on the combustion device side is necessary.
When reply information is received from the central management unit on the center side by the previous communication, the communication content of this combustion device side is not performed while the communication content of this combustion device side communication is not performed. If it is different from the device side communication, the current combustion device side communication is executed.

[0022]

Therefore, according to the first characteristic configuration of the centralized monitoring system for the combustion apparatus of the present invention, the communication on the combustion apparatus side and the communication on the fuel source side are selectively selected by the common communication unit. As shown in the figure, the system configuration shared with the fuel source monitoring system simplifies the equipment, while controlling the communication so that the fuel source side communication has priority over the combustion device side communication. It has become possible to avoid the problem that the communication on the device side occupies the communication line and the communication on the fuel source side, which requires an emergency, may be delayed.

According to the second characteristic configuration, the fuel source side communication is always executed before the combustion device side communication is executed.
It can be ensured that the communication on the fuel source side has priority over the communication on the combustion device side, so that the preferable means of the first characteristic configuration can be obtained.

According to the third characteristic configuration, only when the fuel source side communication is necessary, the fuel source side communication is executed before the combustion device side communication is executed, and the fuel source side communication is unnecessary. In this case, since only the combustion device side communication is performed, for example, as compared with the case where the fuel source side communication is always executed before the combustion device side communication is performed, there is no waste of performing unnecessary fuel source side communication, It is possible to quickly perform the communication on the combustion device side without occupying the communication line for the unnecessary communication on the fuel source side, and thus the preferable means of the first or second characteristic configuration can be obtained.

According to the fourth characteristic configuration, the combustion device management device controls the communication so that the fuel source side communication is always executed before the combustion device side communication. Therefore, for example,
It is possible to realize a simpler equipment configuration than that in which a communication control device for exclusive use other than the combustion device management device performs the communication control, and therefore, a suitable means of the second characteristic configuration can be obtained. .

Further, according to the fifth characteristic configuration, the combustion device management device performs communication control so that the fuel source side communication is executed as necessary before the combustion device side communication is performed.
For example, compared to a device that performs the communication control by a dedicated communication control device other than the combustion device management device, a simpler equipment configuration can be realized, and thus the preferred means of the third characteristic configuration is can get.

According to the sixth characteristic configuration, the communication section controls the communication so that the communication on the fuel source side is always performed before the communication on the combustion apparatus side. Therefore, for example, a dedicated unit different from the communication section is used. It is possible to realize a more simplified equipment configuration than that in which the communication control device performs the communication control, and thus it is possible to obtain a suitable means of the second characteristic configuration.

According to the seventh characteristic configuration, the communication section controls the communication so that the fuel source side communication is executed as needed before the combustion apparatus side communication is performed. Therefore, for example, the communication section is It is possible to realize a simpler equipment configuration as compared with the case where the above-mentioned communication control is performed by another dedicated communication control device, and therefore, the preferable means of the third characteristic configuration can be obtained.

According to the eighth characteristic configuration, if the information of the combustion device has already been sent to the monitoring center side by the previous communication of the combustion device side, the communication of the same content is not performed again. , When communication of the combustion device side that has the same content to notify the failure state of the combustion device is continuously requested, the communication line is monopolized for the continuous communication of the combustion device side, and the necessary fuel source side communication is performed. This eliminates the possibility that the above-mentioned problems will be hindered, thus providing the preferred means of the fourth, fifth, sixth or seventh characteristic configuration.

[0030]

Embodiments of the present invention will be described below with reference to the drawings. As shown in FIG. 1, a water heater A as a combustion device.
Is composed of a water heater main body A1 and a remote controller A2 that gives an operation command to the water heater main body A1. Water heater body A
1 includes a heat exchanger 1 for heating water, a burner 2 for heating the heat exchanger 1, a fan 3 for supplying combustion air to the burner 2, and the like. A water supply passage W through which water is supplied to the heat exchanger 1.
1 is connected to a hot water supply passage W2 for supplying heated hot water to a hot water tap or the like (not shown), and the water supply passage W1 is provided with an incoming water temperature sensor S2 for detecting an incoming water temperature into the heat exchanger 1, and a heat exchanger. 1
A water amount sensor S1 for detecting the amount of water supplied to the heat exchanger 1 is provided, and a hot water supply temperature sensor S3 for detecting the hot water supply temperature of the heat exchanger 1 is provided in the hot water supply passage W2.

Fuel gas supply path G1 to the burner 2
Is provided with two open / close valves 4 and 5 for intermittently supplying the fuel gas and an electromagnetic gas amount adjusting valve 6 for adjusting the fuel gas supply amount. Near the burner 2, an igniter 7 for ignition is provided.
And a frame rod 8 for detecting whether or not the burner 2 is ignited, and the fan 3 is provided with a rotation speed sensor S4 for detecting the rotation speed thereof. Further, a CO sensor S5 for detecting the CO gas concentration in the exhaust gas is installed near the outlet of the exhaust gas passage as an example of detection means for detecting the unburned components in the combustion exhaust gas.

A control unit C1 for controlling hot water supply based on the detection information of the sensors S1 to S5, 8 is provided.
The control unit C1 is a microcomputer 10
(Hereinafter, referred to as a water heater microcomputer) and each sensor S1 to
A control circuit 11 which performs signal processing for inputting the input signals from S5 and 8 to the water heater microcomputer 10 and outputs a drive signal to each of the valves 4, 5, 6 and the igniter 7.
And an electrically writable and erasable nonvolatile memory 9 for storing detection information of each sensor and operation information of each valve and the like.
(Eg, EEPROM) or the like. Therefore, the control unit C1 constitutes a combustion device management device that manages the water heater A.

On the remote controller A2, an operation switch SW for instructing the start / stop of operation, an operation lamp 21 for displaying the operation state, a hot water supply temperature indicator 22 for displaying the hot water supply temperature in a digital numeral display, and a hot water supply temperature are set. Temperature setter 2
3 etc. are provided.

A program for hot water supply control is stored in advance in the hot water supply microcomputer 10, and is configured to execute hot water supply control based on the operation of the remote controller A2. That is, when the operation switch SW is turned on, the control is started, and when the hot water tap or the like is opened and the amount of water detected by the water amount sensor S1 exceeds the set value, the open / close valves 4 and 5 are opened and then the burner is opened. 2 Ignition control is executed and the incoming water temperature sensor S
2. Based on the detection information of the water amount sensor S1 and the hot water temperature sensor S3, the gas amount adjusting valve 6 is controlled so that the hot water supply temperature is maintained at the set temperature, and the fan 3 is controlled to the target rotation speed. When the hot water tap is closed and the amount of water detected by the water amount sensor S1 falls below the set value, each on-off valve 4,
After closing 5 to stop the combustion of the burner 2, the fan 3 is operated for a set time and then the hot water supply control is ended.
When the CO concentration detected by the CO sensor S5 is abnormally high, the water heater microcomputer 10 stops the combustion of the burner 2 to stop the operation, and at the same time, the remote controller A detects the abnormality.
Display on 2.

A state in which a water heater adapter ADP for signal conversion, which is interposed between the control unit C1 and a modem device MOD (FIG. 3) described later, can exchange various information with the water heater microcomputer 10. Are installed outside the water heater A.

It should be noted that the nonvolatile memory 9 has a failure such that the burner 2 is ignition-controlled but not ignited in addition to the operation record information such as the hot-water use accumulation time and the number of times hot-water is used during hot-water supply control. Or failure or abnormal history when abnormalities such as operation stop due to abnormal CO concentration occur,
Further, various information such as each temperature, water amount, CO concentration sensor, etc., each valve, etc. are sequentially stored, and these information are transmitted through the water heater microcomputer 10 and the water heater adapter ADP, and by the fuel device side communication described later, the monitoring center. Sent to CE (FIG. 3).

As shown in FIG. 2, a cylinder B for LP gas as a fuel supply source for supplying fuel gas to the water heater A, and a microcomputer meter MM as a fuel source management device for managing the cylinder B are provided. is set up. The microcomputer meter MM has an opening / closing valve 31 that opens and closes a fuel gas supply path G2 from the cylinder B to the water heater A, a flow rate sensor 32 that detects the gas flow rate of the fuel gas supply path G2, and the amount of gas remaining in the cylinder B. Is provided with a remaining amount sensor 33 for detecting the vibration, and a seismoscope 34 for detecting the vibration, and further, based on the output of the measurement unit 35, which inputs the detection information of each sensor and processes the signal. A determination unit 36 that determines the state of the cylinder B and that issues an operation signal to the on-off valve 31 based on the determination result, and a communication unit 37 that communicates the determination information of the determination unit 36 and the like with the outside are provided. ing. still,
The measurement unit 35, the determination unit 36, and the communication unit 37 are configured by using the microcomputer C2.

Next, the contents of the judgment of the judgment unit 36 will be exemplified. It should be noted that these pieces of information are transmitted to the monitoring center CE (FIG. 3) by the fuel source side communication described later. (1) When the remaining amount of gas in the cylinder B becomes a certain value or less from the detection information of the remaining amount sensor 33, the fuel shortage prevention information is transmitted. (2) When the gas flow rate per unit time exceeds a certain value from the detection information of the flow rate sensor 32, the on-off valve 31 is closed and the flow rate overgas cutoff information is transmitted. (3) Even if the gas flow rate per unit time is less than a certain value from the detection information of the flow rate sensor 32, if the state continues for a set time or more, the on-off valve 31 is closed and the time overgas is exceeded. Send blocking information. (4) When the tremor 34 detects a tremor having a amplitude larger than the set amplitude, the on-off valve 31 is closed and the tremor detection gas cutoff information is transmitted.

As shown in FIG. 3, a plurality of sets of the water heater A and the cylinder B are arranged in a dispersed manner, and the monitoring center CE centrally manages the plurality of water heaters A and the cylinder B.
In addition, a host computer CMP as a central management device is installed. The control unit C1 and the microcomputer meter MM are configured to be communicable with the host computer CMP on the monitoring center CE side. Specifically, from the control unit C1 to the host computer C
A modem device MOD is provided as a common communication unit that selectively performs the combustion device side communication to the MP and the fuel source side communication from the microcomputer meter MM to the host computer CMP, and the modem device MOD further includes a terminal. Host computer CM via the network control unit (NCU) on the mobile side, the general telephone line L, and the network control unit (C-NCU) on the monitoring center CE side.
It is communicatively connected to P.

Further, each terminal side is provided with communication control means T for controlling the communication state to the monitoring center CE so that the fuel source side communication has priority over the combustion device side communication. That is, the communication control means T causes the fuel source side communication to be executed before executing the combustion device side communication, specifically, when the fuel device side communication is necessary, the fuel source side communication is executed. The communication state is controlled so that the communication on the fuel source side is performed before the communication on the combustion device side is performed only when the necessity of communication is confirmed and the communication on the fuel source side is required.

Next, the specific structure of the communication control means T will be described. As shown in FIG. 3, the control unit C1 on the water heater A side and the microcomputer meter MM can communicate with each other via the modem device MOD. Configured,
The control unit C1 is configured to also serve as the communication control means T. When the control unit C1 requires the fuel device side communication, the microcomputer meter M
The microcomputer meter M is confirmed only when the fuel source side communication is confirmed with respect to M and the fuel source side communication is required.
Instructing M to execute the fuel source side communication,
Along with this, the fuel source side communication is executed, and then the combustion device side communication is executed.

A specific procedure of the above communication control is shown in FIG. (1) First, the water heater control unit C1 to the modem device M
Request the fuel source information from the microcomputer meter MM via the OD. (2) Fuel source information is sent from the microcomputer meter MM to the water heater control unit C1 to confirm the necessity of fuel source side communication. (3) When the fuel source side communication is required, the water heater control unit C1 instructs the microcomputer meter MM to execute the fuel source side communication. (4) The microcomputer meter MM transmits the fuel source information to the monitoring center CE via the modem device MOD. (4 ') The return information of the fuel source information is transmitted from the monitoring center CE to the water heater control unit C1. (5) The water heater control unit C1 transmits the fuel device information to the monitoring center CE via the modem device MOD. (5 ') The reply information of the fuel device information is transmitted from the monitoring center CE to the water heater control unit C1, and the communication control is thereby ended.

The water heater control unit C1 which also serves as the communication control means T is the microcomputer meter M as described above.
It is also possible not to confirm the necessity of the communication on the fuel source side with respect to M. In that case, when the water heater control unit C1 requires the communication on the fuel device side, the microcomputer meter The MM is instructed to execute the fuel source side communication, the fuel source side communication is executed accordingly, and then the combustion device side communication is executed. Then, as shown in FIG. 5, the specific contents of the communication control when the necessity of the communication on the fuel source side is not confirmed are as follows.
The steps (3) to (5 ') obtained by omitting steps (1) and (2) from the procedure shown in FIG.

Further, when it becomes necessary for the water heater control unit C1 to communicate on the fuel device side with the same contents as the previous communication contents, the reply information from the host computer CMP, that is, FIG. 4 and FIG. When the reply information in the procedure (5 ′) of No. 5 is received, the fuel device side communication having the same content as the previous communication content is not performed to the host computer CMP.

[Other Embodiment] Next, another embodiment of the communication control means T will be explained. As shown in FIG. 3, the modem device MOD, the water heater control unit C1 and the microcomputer meter MM can communicate with each other. Is composed of
The modem device MOD is configured to also serve as the communication control means T. Then, when the modem device MOD receives a request for the fuel device side communication from the water heater control unit C1, the modem device MOD confirms with the microcomputer meter MM that the fuel source side communication is necessary, and performs the fuel source side communication. Only when necessary, the microcomputer meter MM is instructed to execute the fuel source side communication, and the fuel source side communication is executed accordingly, and then the water heater control unit C1 is operated. Commands the combustor side to execute communication.

A concrete procedure of the communication control of the above-mentioned another embodiment is shown in FIG. (A) First, the water heater control unit C1 to the modem device M
Request the communication on the fuel device side to the OD. (B) The modem device MOD requests the fuel source information from the microcomputer meter MM, receives the fuel source information, and confirms the necessity of the fuel source side communication. (C) When the fuel source side communication is required, the modem device MOD instructs the microcomputer meter MM to execute the fuel source side communication. (D) The microcomputer meter MM transmits the fuel source information to the monitoring center CE via the modem device MOD. (D ') The reply information of the fuel source information is transmitted from the monitoring center CE to the modem device MOD. (E) The modem device MOD commands the water heater control unit C1 to transmit the fuel device information. (F) The water heater control unit C1 transmits the fuel device information to the monitoring center CE via the modem device MOD. (F ') The reply information of the fuel device information from the monitoring center CE is the modem device MOD and the water heater control unit C1.
And the communication control ends.

Incidentally, the modem device MOD which also serves as the communication control means T can be arranged not to confirm the necessity of the fuel source side communication with the microcomputer meter MM as described above. Is a modem device MOD,
When the fuel device side communication request is received from the water heater control unit C1, the microcomputer meter MM is instructed to execute the fuel source side communication, and the fuel source side communication is executed accordingly. After that, the hot water heater control unit C1 is instructed to execute the combustion device side communication. The specific contents of the communication control when the necessity of the communication on the fuel source side is not confirmed, as shown in FIG. 7, omitting (b) from the procedure of FIG. 6, (a) and (c). To (f ').

Also in this other embodiment, the water heater control unit C
1 is the reply information from the host computer CMP by the previous communication when the fuel device side communication having the same content as the previous communication is required, that is, the reply in the procedure (f ′) of FIGS. 6 and 7. When the information is received, the fuel device side communication having the same content as the previous communication content is not performed to the host computer CMP.

In the above-described embodiment, the combustion device is constituted by the gas combustion type water heater A, but the invention is not limited to this, and for example, a gas combustion type cooling or heating device may be used in addition to the water heater, or Alternatively, a kerosene combustion type water heater other than gas may be used.

In the above embodiment, the fuel supply source is constituted by the cylinder B for LP gas, but the present invention is not limited to this.
For example, in addition to the cylinder, a city gas source supplied by a pipe may be used, or a kerosene tank or the like in the case where the combustion device is composed of a kerosene combustion type water heater or the like may be used.

In the above embodiment, the combustion device management device is constituted by the water heater control unit C1 in the water heater A when the combustion device is, for example, the gas combustion type water heater A, but it is not limited to this. Instead, for example, a combustion device management device separate from the water heater A may be provided.

In the above-described embodiment, the fuel source management device is composed of the ready-made microcomputer meter MM when the fuel supply source is, for example, the cylinder B for LP gas, but the present invention is not limited to this.

In the above embodiment, the combustion device management device (water heater control unit C1) and the fuel source management device (microcomputer meter MM) are configured as separate devices, but the invention is not limited to this. , A single management device having both a combustion device management function and a fuel source management function.

In the above-mentioned embodiment, the communication unit is constituted by the modem device MOD according to the communication line L being an analog general telephone line, but the present invention is not limited to this, and for example, a digital communication line is used. In some cases, a conversion device for digital lines may be used.

In the above-described embodiment, the communication control means T is configured to be shared by the combustion device management device (water heater control unit C1) and the communication unit (modem device MOD). For example, the fuel source management device (microcomputer meter MM) may be configured to be used in common, or a dedicated communication control device provided separately from these devices may be configured.

It should be noted that reference numerals are added to the claims for convenience of comparison with the drawings, but the present invention is not limited to the configurations of the accompanying drawings by the entry.

[Brief description of drawings]

FIG. 1 is a configuration diagram of a water heater as a combustion device.

FIG. 2 is a configuration diagram of a fuel supply source management device.

[Fig. 3] Overall configuration diagram of a centralized monitoring system for a combustion device

FIG. 4 is a flow chart of the control operation of the monitoring system.

FIG. 5 is a procedure diagram of control operation of the monitoring system.

FIG. 6 is a procedure diagram of control operation of a monitoring system according to another embodiment.

FIG. 7 is a procedure diagram of control operation of a monitoring system according to another embodiment.

[Explanation of symbols]

 A Combustion device C1 Combustion device management device B Fuel supply source MM Fuel source management device CMP Central management device MOD communication unit T Communication control means

 ─────────────────────────────────────────────────── ─── Continuation of the front page (72) Inventor Toshiya Shirakura 1-152 Oka, Minami-shi, Minato-ku, Osaka-shi, Osaka Prefecture Harman Co., Ltd.

Claims (8)

[Claims] 1. A combustion device management device (C1) for managing the combustion device (A) and a fuel source management device (MM) for managing a fuel supply source (B) to the combustion device (A) are monitored. A centralized monitoring system for a combustion device configured to be communicable with a central management device (CMP) on the center side, wherein the combustion device-side communication from the combustion device management device (C1) to the central management device (CMP), A common communication unit (MOD) that selectively performs fuel source side communication from the fuel source management device (MM) to the central management device (CMP) is provided, and the fuel source side communication is the above A centralized monitoring system for a combustion device, which is provided with communication control means (T) for controlling a communication state so as to give priority to communication on the combustion device side. 2. The communication control means (T) is configured to control the communication state so that the fuel source side communication is executed before the combustion device side communication is executed. Centralized monitoring system for combustion equipment. 3. The communication control means (T) confirms the need for the fuel source side communication when the fuel device side communication is required, and when the fuel source side communication is required, The combustion system centralized monitoring system according to claim 1 or 2, wherein the fuel source side communication is performed only before the combustion device side communication is performed. 4. The combustion device management device (C1) and the fuel source management device (MM) are communicable with each other, and the combustion device management device (C1) requires the fuel device side communication. To instruct the fuel source management device (MM) to execute the fuel source side communication, and accordingly execute the combustion source side communication after the fuel source side communication is executed. 3. The centralized monitoring system for a combustion device according to claim 2, wherein the centralized monitoring system is also configured to function as the communication control means (T). 5. The combustion device management device (C1) and the fuel source management device (MM) are configured to be communicable with each other, and the combustion device management device (C1) requires the fuel device side communication. Confirms that the fuel source side communication is necessary with the fuel source management apparatus (MM), and only when the fuel source side communication is required, the fuel source management apparatus (M
M) is instructed to execute the fuel source side communication, and accordingly, the fuel source side communication is executed, and then the combustion device side communication is executed, and the communication control means ( The centralized monitoring system for a combustion device according to claim 3, which also serves as T). 6. The communication unit (MOD), the combustion device management device (C1), and the fuel source management device (MM) are communicable with each other, and the communication unit (MM) is the combustion device management device. (C1)
When the fuel source side communication request is received from the fuel source side communication device, the fuel source management device (MM) is instructed to execute the fuel source side communication, and the fuel source side communication is executed accordingly. The combustion according to claim 2, further configured to instruct the combustion device management device (C1) to execute the communication on the combustion device side and also serve as the communication control means (T). Centralized monitoring system for equipment. 7. The communication unit (MOD), the combustion device management device (C1), and the fuel source management device (MM) are configured to be communicable with each other, and the communication unit (MOD) includes the combustion device management device. (C
When the request for communication on the fuel device side is received from 1),
It is confirmed that the fuel source side communication is necessary for the fuel source management apparatus (MM), and only when the fuel source side communication is necessary, the fuel source side is set for the fuel source management apparatus (MM). It is configured to instruct the combustion device management device (C1) to execute the communication on the combustion device side after the communication on the fuel source side is executed accordingly. 4. The centralized monitoring system for a combustion device according to claim 3, wherein the communication control means (T) is also used. 8. The combustion device management device (C1), when it is necessary to communicate on the fuel device side with the same contents as the previous communication contents, returns the reply information from the central management device (CMP) by the last communication. 8. The centralized monitoring system for a combustion device according to claim 4, 5, 6 or 7, wherein the fuel device side communication having the same content is not performed when the message is received.