JP3739895B2 - Centralized gas management device, centralized gas management system, and centralized gas management method - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a gas centralized management apparatus, a gas centralized management system, and a gas centralized management method, and more particularly, to a gas consumption system in which a gas consuming device that can be locally controlled and a gas consuming device that can be remotely controlled are mixed. The present invention relates to a gas central management device, a gas central management system, and a gas central management method.
[0002]
[Prior art]
FIG. 4 shows a schematic block diagram of a conventional gas consumption system of the consumer equipment individual control system.
The gas consumption system 100 performs operation monitoring during normal operation such as detection of the volume flow rate of gas supplied from the LP gas container 101 and abnormality monitoring such as gas leakage, and outputs meter reading data or abnormality detection report data. Based on the microcomputer gas meter 102 that shuts off a gas shut-off valve (not shown) at the time of abnormality, the gas alarm device 103 that notifies the user when abnormality such as gas leakage is detected, and outputs abnormality report data, meter reading data and abnormality detection report data A notification controller (NCU) 105 for transmitting meter reading data to the information center (not shown) via the telephone line 104 and reporting an abnormality based on the abnormality detection notification data or abnormality notification data, and a telephone call via the notification controller 105 Telephone 106 connected to line 104 and microcomputer gas meter The gas is supplied via the gas stove / gas range 107 and the microcomputer gas meter 102, and has a local controller 108. The hot water supply system 109, the bath 110, the floor heating device 111, etc. And a water heater 112 for supplying the water.
[0003]
Next, an outline operation of the gas consumption system will be described.
During normal operation, the microcomputer gas meter 102 supplies gas to the gas stove / gas range 107 or hot water heater 112 and detects the volume flow rate of the gas supplied from the LP gas container 101, and sends the meter reading data to the notification controller 105. And monitor for abnormalities such as gas leaks.
[0004]
As a result, the notification controller 105 transmits meter reading data to an information center (not shown) via the telephone line 104 at predetermined time intervals, the gas stove / gas range 107 heats by burning the gas, and the water heater 112 The hot water is generated and supplied to the hot water supply system 109, the bath 110, the floor heating device 111, and the like.
[0005]
During abnormal operation, the microcomputer gas meter 102 outputs abnormality detection notification data to the notification controller 105 and shuts off a built-in gas shut-off valve (not shown) as necessary, and the gas alarm 103 transmits the abnormality notification data to the notification controller. To 105.
[0006]
Thereby, the notification controller 105 issues an abnormality report to an information center (not shown) based on the abnormality detection report data or the abnormality report data.
[0007]
[Problems to be solved by the invention]
In the above conventional gas consumption system, gas consumption devices such as a gas stove / gas range and water heater are individually controlled. Therefore, LP gas supply equipment such as LP gas containers and pipes is used as the total consumption of LP gas consumption devices. A supply capacity of 1.5 times the amount was required.
[0008]
Therefore, there has been a problem that the supply facility becomes large due to an increase in gas consumption accompanying the increase in functionality of consumer equipment.
In particular, it is necessary to install a supply facility in a limited space in an area around the city, and there is a problem that it becomes difficult to store an LP gas supply facility such as an LP gas container.
[0009]
In addition, the safety of the LP gas consumption system is monitored by the total gas consumption using a microcomputer meter or S-type safety gas meter, but the individual operation of the gas consuming equipment is estimated by its consumption pattern. There is a possibility that problems such as stopping (shut off) the gas supply at an early stage due to misjudgment or the like may occur.
[0010]
For example, when the consumption situation differs from daily life due to a ceremonial occasion or the like, there is a possibility that the user may be inconvenienced due to an unexpected interruption.
Therefore, an object of the present invention is to level the gas consumption by individually controlling the gas supply and gas consuming equipment, reduce the capacity required for the gas supply equipment, and reduce the installation area of the gas supply equipment. An object of the present invention is to provide a gas centralized management device, a gas centralized management system, and a gas centralized management method capable of establishing an advanced security system by reducing the size and performing detailed monitoring.
[0011]
[Means for Solving the Problems]
According to the first aspect of the present invention, there is a concentration of gas consumption systems in which a first gas consuming device that performs operation control locally and a second gas consuming device that can perform operation control remotely by an operation control signal are mixed. A gas centralized management apparatus that performs management, the planned gas consumption calculating means for calculating the planned gas consumption of the entire first gas consuming device in an operating state based on an operation detection signal input from outside, Based on the planned gas consumption, the operation control signal is sent to each of the second gas consuming devices so that the sum of the planned gas consumption and the total gas consumption of the second gas consuming device is within a predetermined range. And a control means for outputting.
[0012]
According to a second aspect of the present invention, in the first aspect of the invention, the control unit performs the operation for each second gas consuming device in order to reduce the gas consumption per unit time of the entire second gas consuming device. It is configured to output a control signal.
According to a third aspect of the present invention, in the first or second aspect of the present invention, the control means controls the operation of each second gas consuming device to increase or decrease the gas consumption amount in the same operation mode. It is configured to output a signal.
[0013]
A fourth aspect of the present invention is the second gas consuming apparatus according to any one of the first to third aspects, wherein the control means has a plurality of operation modes having different gas consumption amounts per unit time. On the other hand, the operation control signal is output so as to change the operation mode based on the gas consumption for each operation mode.
[0014]
According to a fifth aspect of the present invention, in the fourth aspect of the present invention, the control unit determines an operation mode of a change destination of the second gas consuming device based on a past operation history of the second gas consuming device. To be configured.
According to a sixth aspect of the present invention, in the invention according to any one of the first to fifth aspects, the control means includes an actual gas of the entire gas consumption system based on a total gas consumption signal input from the outside. An abnormal consumption detecting means for detecting abnormal gas consumption of the first gas consuming device or the second gas consuming device based on the consumption amount and the scheduled gas consumption amount is provided.
[0015]
According to a seventh aspect of the present invention, in the invention according to any one of the first to fifth aspects of the present invention, the control means stores the past operation history of each of the first gas consuming device or the second gas consuming device. On the basis of this, it comprises a history abnormal consumption detecting means for detecting abnormal gas consumption of the first gas consuming device or the second gas consuming device.
[0016]
The invention according to claim 8 is the invention according to any one of claims 1 to 5, wherein the control means changes the operating state based on a total gas consumption signal input from the outside. By comparing the change pattern of the total gas consumption of the one gas consuming device or the second gas consuming device before the change of operation of the gas consuming device to after the change of operation with the past change pattern corresponding to the gas consuming device. An abnormal use state detection means for detecting an abnormal use state of the gas consuming device is provided.
[0017]
The invention according to claim 9 is the invention according to any one of claims 1 to 8, wherein the control means is such that the operation of all the first gas consuming devices is stopped, and the operation control signal Gas in the gas consumption system by monitoring the actual gas consumption of the entire gas consumption system based on the total gas consumption signal input from the outside in a state where the operation of the second gas consumption device is stopped by A gas leakage inspection means for performing a leakage inspection is provided.
[0018]
According to a tenth aspect of the present invention, in the ninth aspect of the invention, the gas leakage inspection means is configured to perform the gas leakage inspection in a predetermined time zone set in advance.
The invention according to claim 11 is a concentration of a gas consumption system in which a first gas consuming device that performs operation control locally and a second gas consuming device that can perform operation control remotely by an operation control signal are mixed. 11. A gas centralized management system that performs management, an operation state detection device that detects an operation state of the first gas consuming device and outputs an operation detection signal, and the gas according to claim 1. A central control device, and a local control device that controls a gas consumption amount of the corresponding second gas consuming device based on the operation control signal output from the gas central management device.
[0019]
The invention according to claim 12 is a concentration of a gas consumption system in which a first gas consuming device that performs operation control locally and a second gas consuming device that can perform operation control remotely by an operation control signal are mixed. A gas centralized management method for performing management, comprising: a scheduled gas consumption calculating step for calculating a planned gas consumption of the entire first gas consuming device in an operating state; and the scheduled gas based on the scheduled gas consumption And a control step of controlling each of the second gas consuming devices so that the sum of the consumption amount and the gas consumption amount of the entire second gas consuming device falls within a predetermined range.
[0020]
According to a thirteenth aspect of the present invention, in the twelfth aspect of the present invention, the control step performs control for each second gas consuming device in order to reduce a gas consumption amount per unit time of the entire second gas consuming device. Configure to do.
According to a fourteenth aspect of the present invention, in the invention according to the twelfth or thirteenth aspect, the control step controls the second gas consuming device to increase or decrease the gas consumption amount in the same operation mode. Configure to do.
[0021]
According to a fifteenth aspect of the present invention, in the invention according to any one of the twelfth to fourteenth aspects, the control step includes the second gas consuming device having a plurality of operation modes having different gas consumption amounts per unit time. On the other hand, the control is performed to change the operation mode based on the gas consumption amount for each operation mode.
[0022]
According to a sixteenth aspect of the invention, in the fifteenth aspect of the invention, the control step determines an operation mode of a change destination of the second gas consuming device based on a past operation history of the second gas consuming device. To be configured.
According to a seventeenth aspect of the present invention, in the invention according to any one of the twelfth to sixteenth aspects, the control step includes actual gas in the entire gas consumption system based on a total gas consumption signal input from the outside. An abnormal consumption detecting step of detecting an abnormal gas consumption of the first gas consuming device or the second gas consuming device based on the consumption amount and the scheduled gas consumption amount is provided.
[0023]
According to an eighteenth aspect of the present invention, in the invention according to any one of the twelfth to sixteenth aspects, the control step includes a past operation history of each of the first gas consuming device or the second gas consuming device. On the basis of this, a history abnormal consumption detecting step for detecting abnormal gas consumption of the first gas consuming device or the second gas consuming device is provided.
[0024]
According to a nineteenth aspect of the present invention, in the invention according to any one of the twelfth to sixteenth aspects, the control step includes the first gas consuming device whose operation state has changed based on the total gas consumption or the Abnormal use of the gas consuming device by comparing the change pattern of the total gas consumption before and after the operation change of the gas consuming device with the past change pattern corresponding to the gas consuming device. An abnormal use state detecting step for detecting the state is provided.
[0025]
A twentieth aspect of the invention is the invention according to any one of the twelfth to nineteenth aspects of the invention, wherein in the control step, all the first gas consuming devices stop operating, and the second gas Gas for performing a gas leak test in the gas consumption system by monitoring the actual gas consumption of the entire gas consumption system based on a total gas consumption signal input from the outside with the operation of the consuming equipment stopped It is provided with a leakage inspection process.
[0026]
According to a twenty-first aspect of the invention, in the twentieth aspect of the invention, the gas leakage inspection step is set to perform the gas leakage inspection in a predetermined time zone set in advance.
According to the first aspect of the present invention, the planned gas consumption calculation means calculates the planned gas consumption of the entire first gas consuming device in the operating state based on an operation detection signal input from the outside.
[0027]
The control means is an operation control signal for each of the second gas consuming devices based on the planned gas consumption so that the sum of the scheduled gas consumption and the gas consumption of the entire second gas consuming device is within a predetermined range. Is output.
According to the second aspect of the present invention, in addition to the operation of the first aspect of the invention, the control means is provided for each second gas consuming device to reduce the gas consumption per unit time of the entire second gas consuming device. Since the operation control signal is output to the second gas consuming device, the gas consumption per unit time is reduced for each second gas consuming device.
[0028]
According to the invention described in claim 3, in addition to the operation of the invention described in claim 1 or 2, the control means increases or decreases the gas consumption amount in the same operation mode for each second gas consuming device. Therefore, an operation control signal is output.
According to the invention described in claim 4, in addition to the operation of the invention described in any one of claims 1 to 3, the control means has a plurality of operation modes having different gas consumption per unit time. Since the operation control signal is output to the two gas consuming devices to change the operation mode based on the gas consumption for each operation mode, the gas consumption of the entire system is determined according to the gas consumption of the operation mode after the change. Increased or decreased.
[0029]
According to the fifth aspect of the invention, in addition to the operation of the fourth aspect of the invention, the control means can change the second gas consuming device based on the past operation history of the second gas consuming device. Since the operation mode is determined, the possibility of changing to an operation mode not desired by the user is reduced.
[0030]
According to the invention described in claim 6, in addition to the operation of the invention described in any one of claims 1 to 5, the abnormal consumption detecting means of the control means outputs a total gas consumption signal inputted from the outside. The abnormal gas consumption of the first gas consuming device or the second gas consuming device is detected based on the actual gas consumption amount and the scheduled gas consumption amount of the entire gas consumption system based on the above.
[0031]
According to the seventh aspect of the present invention, in addition to the operation of the first aspect of the present invention, the history abnormal consumption detecting means of the control means is the first gas consuming device or the second gas consuming device. The abnormal gas consumption of the first gas consuming device or the second gas consuming device is detected based on the past operation history of each device.
[0032]
According to the invention described in claim 8, in addition to the operation of the invention described in any one of claims 1 to 5, the abnormal use state detection means of the control means is provided with a total gas consumption signal inputted from the outside. The past corresponding to the gas consuming device the change pattern of the total gas consumption of the first gas consuming device or the second gas consuming device whose operation state has changed from before the operation change to after the operation change of the gas consuming device. The abnormal use state of the gas consuming device is detected by comparing with the change pattern.
[0033]
According to the ninth aspect of the present invention, in addition to the operation of the first aspect of the present invention, the gas leakage inspection means of the control means stops the operation of all the first gas consuming devices. And monitoring the actual gas consumption of the entire gas consumption system based on the total gas consumption signal input from the outside while the operation of the second gas consuming device is stopped by the operation control signal. Perform gas leak inspection in the gas consumption system.
[0034]
According to the invention described in claim 10, in addition to the operation of the invention described in claim 9, the gas leakage inspection means performs the gas leakage inspection in a predetermined time zone set in advance.
According to the eleventh aspect of the present invention, the operation state detection device detects the operation state of the first gas consuming device and outputs an operation detection signal to the gas central management device.
[0035]
The gas central management device outputs an operation control signal to a corresponding local control device based on the operation detection signal.
As a result, the local control device controls the gas consumption amount of the corresponding second gas consuming device based on the operation control signal output from the central management device.
[0036]
According to the twelfth aspect of the present invention, the planned gas consumption calculating step calculates the planned gas consumption of the entire first gas consuming device in the operating state.
The control step controls each of the second gas consuming devices based on the planned gas consumption so that the sum of the planned gas consumption and the gas consumption of the entire second gas consuming device is within a predetermined range.
[0037]
According to the thirteenth aspect of the invention, in addition to the operation of the twelfth aspect of the invention, the control step is performed for each second gas consuming device to reduce the gas consumption per unit time of the entire second gas consuming device. To control.
According to the invention described in claim 14, in addition to the action of the invention described in claim 12 or claim 13, the control step increases / decreases the gas consumption for each second gas consuming device in the same operation mode. Control as follows.
[0038]
According to the invention described in claim 15, in addition to the operation of the invention described in any one of claims 12-14, the control step has a plurality of operation modes having different gas consumption per unit time. Since control is performed to change the operation mode based on the gas consumption for each operation mode, the gas consumption of the entire system is increased or decreased according to the gas consumption of the operation mode after the change. .
[0039]
According to the invention described in claim 16, in addition to the action of the invention described in claim 15, the control process is performed based on the past operation history of each second gas consuming device. Since the operation mode is determined, the possibility of changing to an operation mode not desired by the user is reduced.
[0040]
According to the invention described in claim 17, in addition to the operation of the invention described in any one of claims 12 to 16, the abnormal consumption detection process of the control process is performed based on the total gas consumption signal input from the outside. The abnormal gas consumption of the first gas consuming device or the second gas consuming device is detected based on the actual gas consumption amount and the scheduled gas consumption amount of the entire gas consumption system based on the above.
[0041]
According to the invention described in claim 18, in addition to the operation of the invention described in any one of claims 12 to 16, the history abnormal consumption detection process of the control process includes the first gas consumption device or the second gas consumption. The abnormal gas consumption of the first gas consuming device or the second gas consuming device is detected based on the past operation history of each device.
[0042]
According to the nineteenth aspect of the invention, in addition to the action of the invention according to any one of the twelfth to sixteenth aspects, the abnormal use state detecting step of the control step is based on the total gas consumption amount. For the first gas consuming device or the second gas consuming device in which the gas consumption has changed, the change pattern of the total gas consumption from before the change of operation of the gas consuming device to after the change of operation is compared with the past change pattern corresponding to the gas consuming device. Thus, the abnormal use state of the gas consuming device is detected.
[0043]
According to the invention of claim 20, in addition to the action of the invention of any of claims 12 to 19, in the gas leakage inspection process of the control process, all the first gas consuming devices stop operating. In the gas consumption system, by monitoring the actual gas consumption of the entire gas consumption system based on the total gas consumption signal input from the outside in a state where the operation of the second gas consumption device is stopped Perform gas leak inspection.
[0044]
According to the twenty-first aspect of the invention, in addition to the action of the twentieth aspect of the invention, the gas leakage inspection step performs a gas leakage inspection in a predetermined time zone set in advance.
[0045]
DETAILED DESCRIPTION OF THE INVENTION
Next, preferred embodiments of the present invention will be described with reference to the drawings.
FIG. 1 shows a schematic configuration block diagram of a gas consumption system of a consumer equipment central control system according to an embodiment.
[0046]
The gas consumption system 1 performs operation monitoring during normal operation such as detection of the volume flow rate of gas supplied from the LP gas container 2 and abnormality monitoring such as gas leakage, and transmits meter reading data or abnormality detection report data to the communication line 3. The microcomputer gas meter 4 that shuts off the built-in gas shutoff valve (not shown) in the event of an abnormality, and notifies the user by buzzer on, flashing of the lamp, etc. when an abnormality such as a gas leak is detected, and the abnormality report data Based on the gas alarm device 6 output via 5 and the meter reading data and abnormality detection report data, the meter reading data is transmitted to the information center (not shown) via the telephone line 7 and the abnormality detection report data or abnormality report data is transmitted. A centralized management reporting device 8 that performs abnormality reporting based on the above and performs centralized management of the entire gas consumption system, A microcomputer gas meter having a telephone 9 connected to the telephone line 7 via the management reporting device 8, a gas stove / gas range 10 to which gas is supplied from the LP gas container 2 via the microcomputer gas meter 4, and a local controller 11. 4 is supplied with gas, the heat transfer medium is cooled or heated according to the principle of the heat pump, and is supplied to the indoor units 12A and 12B to perform heat exchange, to perform cooling / heating, and to use residual heat It has a gas heat pump (GHP) outdoor unit 18 for generating hot water and supplying hot water to the dishwasher 13, hot water washing machine 14, hot water supply system 15, bath 16, floor heating device 17 and the like, and a local controller 19 The gas is supplied through the microcomputer gas meter 4, and the dishwasher 13, hot water washing machine 14, hot water supply system 15 Bath 16, the water heater 20 supplies hot water such as a floor heating system 17 is configured to include a.
[0047]
In this case, the local controller 11 and the local controller 19 are connected to the centralized management notification device 8 via a control communication line (indicated by a broken line in the figure) 21.
Also, the gas stove / gas range 10, indoor units 12A and 12B, dishwasher 13, hot water washing machine 14, hot water supply system 15, bath 16 and floor heating device 17, centralized management notification device 8, local controller 11 or local controller 19 Are connected via an operation monitoring communication line (indicated by a broken line in the figure) 22.
[0048]
FIG. 2 shows a schematic configuration block diagram of the centralized management reporting device 8.
The centralized management reporting device 8 temporarily stores a controller 40 that controls the entire centralized management reporting device 8, a ROM (Read Only Memory) 41 that stores a control program for the controller 40, control data, and the like, and various data. A RAM (Random Access Memory) 42, an EEPROM (Electrical Erasable and Programmable ROM) 43 that stores user information, past operation patterns of each gas consuming device, and the like, and a controller 40 and an information center (not shown) A data transmission / reception unit 44 for demodulating / modulating data exchanged in the network, a switching unit 46 for connecting either the telephone 9 or the data transmission / reception unit 44 to the telephone line 7 based on the switching control signal SW1, and an operation An interface operation is performed between the first terminal T1 to which the control communication line 21 is connected and the controller 40. 1 interface (IF) section 48, a second interface (IF) section 49 for performing an interface operation between the second terminal T2 to which the operation monitoring communication line 22 is connected and the controller 40, a separate gas alarm, etc. A third interface (IF) unit 50 for performing an interface operation between the spare terminal T3 connectable to the controller 40 and the controller 40, and a fourth interface (IF) unit for performing an interface operation between the gas alarm device 6 and the controller 40 51, a fifth interface (IF) unit 52 that performs an interface operation between the gas meter 4 and the controller 40, a liquid crystal display (LCD) 53 that displays various data under the control of the controller 40, and the controller 40 For entering various data manually The operation input part 54 provided with the setting switch which does not perform and the buzzer 55 for outputting an alarm sound are comprised.
[0049]
The controller 40 includes an internal clock 40A for managing time and an internal timer 40B for performing various timer operations.
Next, an outline operation of the gas consumption system will be described.
In this case,
(1) Gas consumption and operation pattern of gas stove / gas range 10 functioning as first gas consuming equipment
(2) Various operation modes such as idling control of the gas heat pump outdoor unit 18 functioning as the second gas consuming device, gas consumption for each operation mode, operation pattern in standard operation and past actual operation pattern
(3) Various operation modes such as hot water storage operation of the water heater 20 functioning as the second gas consuming device, gas consumption for each operation mode, operation pattern in standard operation and past actual operation pattern
It is assumed that various data necessary for operation control such as these are stored in the EEPROM 43 or the like of the centralized management notification device 8.
During normal operation
First, the general operation of the gas consumption system during normal operation will be described.
[0050]
The microcomputer gas meter 4 performs operation monitoring during normal operation such as detection of the volume flow rate of the gas supplied from the LP gas container 2 and outputs meter reading data via the communication line 3.
As a result, the controller 40 of the centralized management reporting device 8 does not show the meter reading data input via the fifth interface unit 52 via the telephone line at predetermined time intervals (or predetermined times) based on the internal clock 40A. Report to the information center.
[0051]
More specifically, the controller 40 stores the meter reading data input via the fifth interface unit 52 in the RAM 42. When a predetermined time has elapsed since the previous notification, the controller 40 causes the switching unit 46 to be switched by the switching control signal SW1. The information is sent to the information center (not shown) via the protector 30 and the telephone line 7 on the data transmission / reception unit 44 side.
[0052]
In parallel with the operation such as the meter reading data notification process, the controller 40 is connected to the gas stove / gas range 10, the indoor units 12A and 12B, and the dishwasher 13 via the second interface unit 49 and the operation monitoring communication line 22. The operation of the hot water washing machine 14, the hot water supply system 15, the bath 16, and the floor heating device 17 is monitored.
[0053]
More specifically, the controller 40 inputs whether or not the gas stove / gas range 10 functioning as the first gas consuming device is used by the user via the operation monitoring communication line 22. This is determined on the basis of an output signal from a combustion sensor (not shown) incorporated in the engine.
[0054]
When the gas stove / gas range 10 is used, the gas consumption during normal operation of the gas stove / gas range 10 is read from the EEPROM 43 to obtain the planned gas consumption. In this case, since the gas consuming device functioning as the first gas consuming device is the gas stove / gas range 10, the scheduled gas consumption is equal to the gas consumption during normal operation of the gas stove / gas range 10.
[0055]
Generally, when there are a plurality of first gas consuming devices in an operating state, the planned gas consumption is the sum of the gas consumption during normal operation of each first gas consuming device.
Subsequently, the controller 40 operates in the operation mode and the actual operation input from the local controller 11 of the gas heat pump outdoor unit 18 and the local controller 19 of the water heater 20 that function as the second gas consuming device via the operation monitoring communication line 22. Based on the operation state data such as the state, the second gas is set such that the sum of the planned gas consumption amount of the entire first gas consumer in the operation state and the gas consumption amount of the entire second gas consumption device is within a predetermined range. An appropriate operation control signal is sent to each consumer device via the operation control communication line 22.
[0056]
That is, communication for operation control is performed on the gas heat pump 18 and the water heater 20 so that the sum of the scheduled gas consumption of the gas stove / gas range 10 and the gas consumption of the gas heat pump outdoor unit 18 and the water heater 20 is within a predetermined range. An operation control signal is transmitted via the line 21.
[0057]
As a method for keeping the total gas consumption of the gas stove / gas range 10 and the gas consumption of the gas heat pump outdoor unit 18 and the hot water heater 20 within a predetermined range, (1) the gas heat pump outdoor unit 18 and the hot water heater In the second gas consuming device such as 20 gas, when the gas consumption can be reduced as much as necessary in the same operation mode (for example, the normal combustion mode) (for example, when reducing the thermal power), the same operation mode Reduce the gas consumption within the range.
[0058]
(2) In the second gas consuming device such as the gas heat pump outdoor unit 18 and the water heater 20 gas, if it is impossible to reduce the gas consumption as much as necessary within the range of the same operation mode, The gas consumption is reduced by shifting to another operation mode (for example, idling mode) with a small gas consumption.
[0059]
(3) From the viewpoint of gas consumption, a plurality of other operation modes can be selected. If there is a more preferable operation mode from the past operation history of the second gas consuming device, the operation mode is shifted to the preferable operation mode. To reduce gas consumption.
[0060]
As a result, the gas consumption per unit time of the entire second gas consuming device can be reduced.
Here, with reference to FIG. 3, the effect of the gas consumption system of this embodiment is demonstrated.
[0061]
As shown in FIG. 3B, the gas consumption of the gas heat pump outdoor unit 18 (indicated by a broken line in FIG. 3B) and the gas consumption of the water heater 20 (FIG. 3) when individually operated. (B), as indicated by a solid line), in the conventional gas consumption system (see FIG. 4), as shown in FIG. The total gas consumption of the gas consumption system is the sum of the gas consumption of the gas stove / gas range 10 and the gas consumption of the gas heat pump outdoor unit 18 and the hot water heater 20.
[0062]
That is, the gas consumption amount of the entire gas consumption system is the sum of the gas consumption amount of the first gas consuming device and the gas consumption amount of the second gas consuming device.
However, according to the gas consumption system of the present embodiment, the gas consumption per unit time of the gas heat pump outdoor unit 18 and the hot water heater 20 can be reduced by the control of the controller 40, so the gas heat pump outdoor unit 18 and the hot water supply The gas consumption of the machine 20 is not a simple sum of both gas consumptions, and the gas consumption is leveled.
[0063]
Therefore, the gas consumption amount of the gas consumption system 1 as a whole is not a simple sum of the gas consumption amount of the gas stove / gas range 10 and the gas heat pump outdoor unit 18 and the hot water heater 20, and the consumption peak value is higher than in the conventional case. Reduction and leveling can be achieved.
[0064]
That is, the gas consumption fee of the entire gas consuming system is the sum of the gas consumption of the first gas consuming device and the gas consumption of the entire second gas consuming device leveled by the controller 40, which is higher than the conventional case. Both the consumption amount and the consumption peak value can be reduced.
As a result, it is possible to reduce the capacity required for the gas supply equipment such as the LP gas container and the piping, and it is possible to reduce the installation area of the gas supply equipment.
During normal inspection operation
Next, the normal inspection operation will be described.
[0065]
Here, the normal inspection operation refers to an inspection operation performed for inspection in order to prevent occurrence of an abnormality, and mainly performs a gas leakage inspection.
The controller 40 functions as a gas leakage inspection means, and the operation control communication line 21 and the local controller 11 or the local controller 11 or the first gas consuming equipment (in the present embodiment, only the gas stove / gas range 10 only) are stopped. The meter reading data as the total gas consumption signal input from the microcomputer gas meter 4 is monitored in a state where the operation of the gas heat pump outdoor unit 18 or the water heater 20 as the second gas consuming device is stopped via the local controller 19. The actual gas consumption of the entire gas consumption system 1 is monitored.
[0066]
As a result, if unexpected gas consumption (for example, gas consumption other than gas consumption due to a known fire, etc.) is observed, an information center (not shown) is notified via the telephone line 7, or a microcomputer gas meter 4 is controlled to operate the shut-off valve to shut off the gas.
[0067]
On the other hand, if unexpected gas consumption is not observed, it will shift to normal operation.
In this case, the controller 40 functioning as a gas leakage inspection means is set to perform a gas leakage inspection as a normal inspection operation in a predetermined time zone (for example, a time zone from 2 am to 3 am) set in advance. It is also possible to configure as described above.
[0068]
Thus, by performing the inspection using a time zone such as nighttime, it is possible to maintain the reliability of the gas consumption system and provide an advanced security service without impairing the convenience of the user.
Abnormal operation
Next, the outline operation of the gas consumption system during abnormal operation will be described.
[0069]
The microcomputer gas meter 4 detects the volume flow rate of the gas supplied from the LP gas container 2, and when an abnormal volume flow rate is detected, outputs the abnormality detection notification data to the centralized management notification device 8 via the communication line 3. In addition, the built-in gas shut-off valve is shut off.
As a result, the controller 40 of the centralized management notification device 8 immediately notifies the information center (not shown) via the telephone line 7 based on the abnormality notification data input via the fifth interface unit 52, and also displays the liquid crystal display (LCD) ) An abnormality is displayed at 53 and an alarm sound is output via the buzzer 55.
[0070]
Further, the gas alarm device 6 also notifies the user by a buzzer on, blinking of a lamp, etc. when an abnormality such as a gas leak is detected, and outputs abnormality notification data to the centralized management notification device 8 via the communication line 5.
As a result, the controller 40 of the centralized management reporting device 8 immediately reports to the information center (not shown) via the telephone line 7 based on the abnormality reporting data input via the fourth interface unit 51, and the liquid crystal display (LCD) ) An abnormality is displayed at 53 and an alarm sound is output via the buzzer 55.
[0071]
Further, the controller 40 gives an instruction to the microcomputer gas meter 4 via the communication line 3 and shuts off a shut-off valve (not shown).
The above explanation is for the case where an abnormality is detected by the microcomputer gas meter 4 or the gas alarm device 6, but the operation when an abnormality occurs where no abnormality is detected will be described below.
[0072]
The controller 40 includes the actual gas consumption of the entire gas consumption system 1 based on the meter reading data as the total gas consumption signal input from the microcomputer gas meter 4, and the entire first gas consuming device (in this embodiment, the gas stove / gas range 10). Only) the difference between the gas consumption predicted for the gas consumption system 1 as a whole and the actual gas consumption is obtained, and the first gas consuming device or the second gas consuming device (outside the gas heat pump) The gas heat pump outdoor unit 18 or the water heater as the gas consuming device is detected via the operation control communication line 21 and the local controller 11 or the local controller 19 as necessary. 20 is stopped, or the microcomputer gas meter 4 is instructed via the communication line 3 For example, it is possible to shut off the shut-off valve (not shown).
[0073]
Further, the controller 40 is based on the past operation history of the first gas consuming device (only the gas stove / gas range 10 in the present embodiment) or the second gas consuming device (the gas heat pump outdoor unit 18 or the water heater 20). When an operation state (gas consumption, etc.) far from the past operation history is detected, it is detected that the first gas consuming device or the second gas consuming device is abnormal gas consumption, and for operation control as necessary. The operation of the gas heat pump outdoor unit 18 or the water heater 20 as the gas consuming device is stopped via the communication line 21 and the local controller 11 or the local controller 19, or an instruction is given to the microcomputer gas meter 4 via the communication line 3. A shut-off valve (not shown) can be shut off.
[0074]
Further, the controller 40, based on meter-reading data corresponding to the total gas consumption signal transmitted from the microcomputer gas meter 4, has changed the first gas consuming device (in this embodiment, only the gas stove / gas range 10) or the first For two gas consuming equipment (gas heat pump outdoor unit 18 or water heater 20), the change pattern of the total gas consumption from before the change of operation of the gas consuming equipment to after the change of operation is compared with the past change pattern corresponding to the gas consuming equipment. However, if the change pattern is too different from the past change pattern, it is detected that the gas consuming device is in an abnormal use state, and the operation control communication line 21 and the local controller 11 or the local controller 19 are connected as necessary. Gas heat pump outdoor unit 18 or water heater 2 which is the gas consuming device The operation is stopped, or gives an instruction through the communication line 3 to the microcomputer gas meter 4, it is possible to shut off the shut-off valve (not shown).
[0075]
As described above, according to the present embodiment, the gas consumption can be leveled, the supply facility can be reduced in size and the capacity can be reduced, and the number of gas containers, the installation area, and the like can be reduced. In addition, NOx and CO2 can be reduced.
In addition, the peak value of gas consumption can be lowered, and it is possible to construct a system commensurate with normal gas consumption, that is, with reduced gas supply capacity._XAnd CO₂Can be suppressed.
[0076]
Furthermore, since abnormality detection can be reliably performed, it is possible to construct an advanced security system.
In the above embodiment, only the case of the LP gas consumption system has been described, but the present invention can be similarly applied to a gas consumption system using city gas.
[0077]
【The invention's effect】
According to the first aspect of the present invention, the planned gas consumption calculating means calculates the planned gas consumption of the entire first gas consuming device in the operating state based on the operation detection signal input from the outside, and the control means. Outputs an operation control signal to each of the second gas consuming devices based on the planned gas consumption so that the sum of the scheduled gas consumption and the gas consumption of the entire second gas consuming device is within a predetermined range. Therefore, the combined gas consumption of the first gas consuming device and the second gas consuming device can always be within a predetermined range, and it is necessary to largely estimate the capacity margin required for the gas supply facility of the gas consuming system. Therefore, the capacity of the gas supply facility can be reduced, the installation area of the gas supply facility can be reduced, and NO._XAnd CO₂Can be suppressed.
[0078]
According to the second aspect of the present invention, in addition to the effect of the first aspect of the invention, the control means is provided for each second gas consuming device to reduce the gas consumption per unit time of the entire second gas consuming device. Since the operation control signal is output to the second gas consuming device, the gas consumption per unit time is reduced for each second gas consuming device, and the occurrence of peak gas consumption can be reduced. The required capacity can be reduced, and the equipment can be used effectively._XAnd CO₂Can be suppressed.
[0079]
According to the invention described in claim 3, in addition to the effect of the invention described in claim 1 or 2, the control means increases or decreases the gas consumption for each second gas consuming device in the same operation mode. Since the operation control signal is output as much as possible, the total gas consumption and the gas consumption per unit time can be easily reduced.
[0080]
According to the invention described in claim 4, in addition to the effect of the invention described in any one of claims 1 to 3, the control means has a plurality of operation modes having different gas consumption per unit time. Since the operation control signal is output to the two gas consuming devices to change the operation mode based on the gas consumption for each operation mode, the gas consumption of the entire system is determined according to the gas consumption of the operation mode after the change. The gas consumption can be elastically leveled by increasing or decreasing.
[0081]
According to the fifth aspect of the present invention, in addition to the effect of the fourth aspect of the invention, the control means can change the second gas consuming device based on the past operation history of each second gas consuming device. Since the operation mode is determined, the possibility of changing to an operation mode not desired by the user is reduced, and the total gas consumption and the gas consumption per unit time can be reduced while maintaining a desired operation state. .
[0082]
According to the invention described in claim 6, in addition to the effect of the invention described in any one of claims 1 to 5, the abnormal consumption detecting means of the control means outputs a total gas consumption signal inputted from the outside. Since the abnormal gas consumption of the first gas consuming device or the second gas consuming device is detected based on the actual gas consumption amount and the planned gas consumption amount of the entire gas consumption system based on the above, the abnormal gas consumption state is surely detected. It becomes possible to construct an advanced security system.
[0083]
According to the invention described in claim 7, in addition to the effect of the invention described in any one of claims 1 to 5, the history abnormal consumption detecting means of the control means is the first gas consuming device or the second gas consuming Since the abnormal gas consumption of the first gas consuming device or the second gas consuming device is detected based on the past operation history of each device, the abnormal gas consumption of the gas consuming device can be reliably detected. It is possible to construct a safe security system.
[0084]
According to the invention described in claim 8, in addition to the effect of the invention described in any one of claims 1 to 5, the abnormal use state detecting means of the control means is provided with a total gas consumption signal inputted from the outside. The past corresponding to the gas consuming device the change pattern of the total gas consumption of the first gas consuming device or the second gas consuming device whose operation state has changed from before the operation change to after the operation change of the gas consuming device. Since the abnormal usage state of the gas consuming device is detected by comparing with the change pattern, it is possible to reliably detect the abnormal gas usage state and to construct an advanced security system.
[0085]
According to the ninth aspect of the present invention, in addition to the effect of the first aspect of the present invention, the gas leakage inspection means of the control means stops the operation of all the first gas consuming devices. And monitoring the actual gas consumption of the entire gas consumption system based on the total gas consumption signal input from the outside while the operation of the second gas consuming device is stopped by the operation control signal. Since the gas leakage inspection in the gas consumption system is performed, the gas leakage can be reliably inspected, the reliability of the system can be maintained, and the safety can be improved.
[0086]
According to the invention described in claim 10, in addition to the effect of the invention described in claim 9, the gas leakage inspection means performs the gas leakage inspection in a preset predetermined time period, so that the convenience of the user is impaired. In addition, it is possible to maintain the reliability of the system and provide an advanced security service.
[0087]
According to the invention described in claim 11, the operation state detection device detects the operation state of the first gas consuming device and outputs an operation detection signal to the gas central management device. Based on this, the operation control signal is output to the corresponding local control device, and the local control device controls the gas consumption amount of the corresponding second gas consuming device based on the operation control signal output from the central management device. Since the gas consumption combined with the first gas consuming device and the second gas consuming device can always be within a predetermined range, it is not necessary to estimate the capacity margin required for the gas supply equipment of the gas consuming system. The capacity of the gas supply facility can be reduced, the installation area of the gas supply facility can be reduced, and NO._XAnd CO₂Can be suppressed.
[0088]
According to the twelfth aspect of the present invention, the planned gas consumption calculating step calculates the planned gas consumption of the entire first gas consuming device in the operating state, and the control step is based on the planned gas consumption. Since each of the second gas consuming devices is controlled so that the sum of the gas consumption and the gas consumption of the entire second gas consuming device is within a predetermined range, the first gas consuming device and the second gas consuming device are combined. The gas consumption can always be within the specified range, and it is not necessary to estimate the capacity margin required for the gas supply equipment of the gas consumption system. The installation area of the supply equipment can be reduced, and NO_XAnd CO₂Can be suppressed.
[0089]
According to the invention described in claim 13, in addition to the effect of the invention described in claim 12, the control process is performed for each second gas consuming device so as to reduce the gas consumption per unit time of the entire second gas consuming device. Therefore, the gas consumption per unit time is reduced for each second gas consuming device, and the occurrence of peak gas consumption can be reduced, which is required for the gas supply equipment. The capacity can be reduced and the equipment can be used effectively._XAnd CO₂Can be suppressed.
[0090]
According to the invention of claim 14, in addition to the effect of the invention of claim 12 or claim 13, the control step increases or decreases the gas consumption amount in the same operation mode for each second gas consuming device. Thus, the total gas consumption and the gas consumption per unit time can be easily reduced.
[0091]
According to the invention described in claim 15, in addition to the effect of the invention described in any one of claims 12-14, the control step has a plurality of operation modes having different gas consumption per unit time. Since control is performed to change the operation mode based on the gas consumption for each operation mode for the two gas consuming devices, the gas consumption of the entire system is increased or decreased according to the gas consumption of the operation mode after the change, Gas consumption can be leveled elastically.
[0092]
According to the invention described in claim 16, in addition to the effect of the invention described in claim 15, the control step performs the change destination of the second gas consuming device based on the past operation history of each second gas consuming device. Since the operation mode is determined, the possibility of changing to an operation mode not desired by the user is reduced, and the total gas consumption and the gas consumption per unit time can be reduced while maintaining a desired operation state. Therefore, the possibility of changing to an operation mode not desired by the user is reduced.
[0093]
According to the invention described in claim 17, in addition to the effect of the invention described in any one of claims 12 to 16, the abnormal consumption detection process of the control process includes a total gas consumption signal input from the outside. Since the abnormal gas consumption of the first gas consuming device or the second gas consuming device is detected based on the actual gas consumption amount and the planned gas consumption amount of the entire gas consumption system based on the above, the abnormal gas consumption state is surely detected. It becomes possible to construct an advanced security system.
[0094]
According to the invention of claim 18, in addition to the effect of the invention of any one of claims 12 to 16, the history abnormal consumption detecting step of the control step includes the first gas consumption device or the second gas consumption. Since the abnormal gas consumption of the first gas consuming device or the second gas consuming device is detected based on the past operation history of each device, it is possible to reliably detect an abnormal gas use state, and a high degree of security. It becomes possible to construct a system.
[0095]
According to the nineteenth aspect of the invention, in addition to the effects of the invention according to any one of the twelfth to sixteenth aspects, the abnormal use state detecting step of the control step is based on the total gas consumption amount. For the first gas consuming device or the second gas consuming device in which the gas consumption has changed, the change pattern of the total gas consumption from before the change of operation of the gas consuming device to after the change of operation is compared with the past change pattern corresponding to the gas consuming device. As a result, the abnormal use state of the gas consuming device is detected, so that it is possible to reliably detect the abnormal gas use state, and it is possible to construct an advanced security system.
[0096]
According to the twentieth aspect of the invention, in addition to the effects of the invention of any one of the twelfth to nineteenth aspects, in the gas leakage inspection step of the control step, all the first gas consuming devices stop operating. In the gas consumption system, by monitoring the actual gas consumption of the entire gas consumption system based on the total gas consumption signal input from the outside in a state where the operation of the second gas consumption device is stopped Since the gas leakage inspection is performed, the gas leakage can be reliably inspected, the reliability of the system can be maintained, and the safety can be improved.
[0097]
According to the invention described in claim 21, in addition to the effect of the invention described in claim 20, the gas leak inspection step performs the gas leak inspection in a predetermined time zone, which impairs the convenience for the user. In addition, it is possible to maintain the reliability of the system and provide an advanced security service.
[Brief description of the drawings]
FIG. 1 is a block diagram of a schematic configuration of a gas consumption system according to an embodiment.
FIG. 2 is a schematic configuration block diagram of a centralized management notification device.
FIG. 3 is an explanatory diagram of effects of the embodiment.
FIG. 4 is a schematic configuration block diagram of a conventional gas consumption system.
[Explanation of symbols]
1 Gas consumption system
2 LP gas container
3 communication lines
4 Microcomputer gas meter
5 communication lines
6 Gas alarm
7 Telephone line
8 Centralized management reporting device
9 Telephone
10 Gas stove / gas range
11 Local controller
12A, 12B indoor unit
13 Dishwasher
14 Hot water washing machine
15 Hot water supply system
16 Bath
17 Floor heating system
18 Gas heat pump (GHP) outdoor unit
19 Local controller
20 Water heater

Claims (21)

A gas central management apparatus that performs centralized management of a gas consumption system in which a first gas consuming device that performs operation control locally and a second gas consuming device that can perform operation control remotely by using an operation control signal There,
A planned gas consumption calculating means for calculating a planned gas consumption of the entire first gas consuming device in an operating state based on an operation detection signal input from the outside;
Based on the scheduled gas consumption, the operation control is performed for each of the second gas consuming devices so that the sum of the scheduled gas consumption and the gas consumption of the entire second gas consuming device is within a predetermined range. Control means for outputting a signal;
A gas centralized management device characterized by comprising: The centralized gas management apparatus according to claim 1,
The gas concentration management apparatus characterized in that the control means outputs the operation control signal for each second gas consuming device in order to reduce the gas consumption per unit time of the entire second gas consuming device. In the gas centralized management apparatus according to claim 1 or 2,
The centralized gas management apparatus according to claim 1, wherein the control means outputs the operation control signal to the second gas consuming device in order to increase or decrease the gas consumption amount in the same operation mode. In the gas central management apparatus according to any one of claims 1 to 3,
The control means controls the operation control signal to change the operation mode for the second gas consuming device having a plurality of operation modes having different gas consumption per unit time based on the gas consumption for each operation mode. Gas centralized management device characterized by The centralized gas management apparatus according to claim 4,
The said control means determines the operation mode of the change destination of the said 2nd gas consumption apparatus based on the past operation | movement history of each said 2nd gas consumption apparatus, The gas centralized management apparatus characterized by the above-mentioned. In the gas central management apparatus according to any one of claims 1 to 5,
The control means is configured to control the first gas consumption device or the second gas consumption based on the actual gas consumption amount and the scheduled gas consumption amount of the entire gas consumption system based on a total gas consumption signal input from the outside. A gas centralized management apparatus comprising an abnormal consumption detecting means for detecting abnormal gas consumption of equipment. In the gas central management apparatus according to any one of claims 1 to 5,
The control means detects the abnormal gas consumption of the first gas consuming device or the second gas consuming device based on the past operation history of the first gas consuming device or the second gas consuming device. A gas centralized management device comprising an abnormal consumption detecting means. In the gas central management apparatus according to any one of claims 1 to 5,
Based on a total gas consumption signal input from the outside, the control means is configured to change the operation state of the first gas consuming device or the second gas consuming device before the change of the operation of the gas consuming device. A gas having an abnormal use state detecting means for detecting an abnormal use state of the gas consuming device by comparing a change pattern of the total gas consumption over the past with a change pattern corresponding to the gas consuming device. Centralized management device. In the gas central management apparatus according to any one of claims 1 to 8,
The control means is configured to stop the operation of all the first gas consuming devices and stop the operation of the second gas consuming devices according to the operation control signal. A gas concentration management apparatus comprising gas leakage inspection means for performing a gas leakage inspection in the gas consumption system by monitoring an actual gas consumption of the entire gas consumption system based on a quantity signal. In the gas central management apparatus according to claim 9,
The gas concentration management apparatus, wherein the gas leakage inspection means is set to perform the gas leakage inspection in a predetermined time zone set in advance. A gas central management system that performs centralized management of a gas consumption system in which a first gas consuming device that performs operation control locally and a second gas consuming device that can perform operation control remotely using an operation control signal There,
An operation state detection device for detecting an operation state of the first gas consuming device and outputting an operation detection signal;
A gas centralized management apparatus according to any one of claims 1 to 10,
A local control device for controlling the gas consumption of the corresponding second gas consuming device based on the operation control signal output from the gas central management device;
Gas centralized management system characterized by comprising A gas centralized management method for performing centralized management of a gas consumption system in which a first gas consuming device that performs operation control locally and a second gas consuming device that can perform operation control remotely by using an operation control signal There,
A planned gas consumption calculation step of calculating a planned gas consumption of the entire first gas consuming device in an operating state;
A control step of controlling each of the second gas consuming devices based on the scheduled gas consumption so that the sum of the scheduled gas consumption and the gas consumption of the entire second gas consuming device is within a predetermined range. When,
A gas centralized management method characterized by comprising: In the gas centralized management method according to claim 12,
The gas concentration management method according to claim 1, wherein the control step performs control for each second gas consuming device so as to reduce a gas consumption amount per unit time of the entire second gas consuming device. In the gas centralized management method according to claim 12 or 13,
The gas concentration management method according to claim 1, wherein the control step controls each of the second gas consuming devices to increase or decrease a gas consumption amount in the same operation mode. The gas centralized management method according to any one of claims 12 to 14,
In the control step, the second gas consuming device having a plurality of operation modes with different gas consumption per unit time is controlled to change the operation mode based on the gas consumption for each operation mode. Centralized gas management method. The gas centralized management method according to claim 15,
The said control process determines the operation mode of the change destination of the said 2nd gas consumption apparatus based on the past operation | movement history of each said 2nd gas consumption apparatus, The gas centralized management method characterized by the above-mentioned. The gas centralized management method according to any one of claims 12 to 16,
The control step includes the first gas consuming device or the second gas consuming based on the actual gas consuming amount and the scheduled gas consuming amount of the entire gas consuming system based on a total gas consuming signal input from the outside. A gas centralized management method comprising an abnormal consumption detection step of detecting abnormal gas consumption of equipment. The gas centralized management method according to any one of claims 12 to 16,
The control step includes a history of detecting abnormal gas consumption of the first gas consuming device or the second gas consuming device based on a past operation history of the first gas consuming device or the second gas consuming device. A gas centralized management method comprising an abnormal consumption detection step. The gas centralized management method according to any one of claims 12 to 16,
In the control step, the total gas consumption of the first gas consuming device or the second gas consuming device whose operation state has changed based on the total gas consumption is measured before and after the operation change of the gas consuming device. A gas concentration management method comprising an abnormal use state detection step of detecting an abnormal use state of the gas consuming device by comparing the change pattern with a past change pattern corresponding to the gas consuming device. In the gas centralized management method according to any one of claims 12 to 19,
The control step is based on the total gas consumption signal input from the outside in a state where all of the first gas consuming devices are stopped and the operation of the second gas consuming devices is stopped. A gas centralized management method comprising a gas leakage inspection step of performing a gas leakage inspection in the gas consumption system by monitoring an actual gas consumption amount of the entire gas consumption system. The gas centralized management method according to claim 20,
The gas leak inspection process stage is set to perform the gas leak inspection in a predetermined time zone set in advance.

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