JP6655400B2 - Gas meter - Google Patents

Description

  The present invention relates to a gas meter.

  2. Description of the Related Art Conventionally, a gas meter provided with a flow rate sensor such as an ultrasonic type and a microcomputer has been known. The microcomputer measures the gas flow rate from the gas flow rate detected by the flow rate sensor, and calculates the integrated gas flow rate from the measured data. The calculated integrated flow rate is presented to a user or a meter reader via, for example, a liquid crystal panel provided in a gas meter. A gas meter equipped with a microcomputer can perform an advanced monitoring function, and has a function of shutting off gas when the measured data is logically determined to be abnormal (interruption function).

  The shutoff function includes a total flow shutoff, an increased flow shutoff, and a use time shutoff. The total flow cutoff is to shut off the gas for the use of gas exceeding the total gas consumption of the gas equipment installed at the gas supply destination, and the increased flow cutoff is the maximum gas consumption of a single gas appliance. The use of a gas exceeding the limit is performed to shut off the gas. In addition, the use time cutoff is to cut off gas for use of a gas appliance exceeding an extremely long use time, or to give an advance notice of cutoff prior to the cutoff. The microcomputer has respective cutoff determination values regarding the total flow rate, the increased flow rate, and the use time, and shuts off the gas when the gas flow rate or the gas use time exceeds the cutoff determination value. Further, the microcomputer learns a gas use pattern at the start of use of the gas meter or at a necessary timing, and updates the cutoff determination value according to the learning result. As a result, unnecessary shutoff of the gas does not occur.

  By the way, in general, the use frequency of gas is low in summer, so the cutoff determination value is set to a low value by the learning function. On the other hand, in the autumn season when the season changes and the temperature cools down, the frequency of using gas appliances such as water heaters increases, so the gas flow rate exceeds the cutoff determination value for total flow rate or the cutoff determination value for increased flow rate There is. Similarly, in winter, the usage time of the fan heater or the water heater becomes longer, so that the usage time of the gas may exceed the cutoff determination value for the usage time.

  In order to solve such a problem, it has been proposed to equip a gas meter with an appliance determination function. The appliance determination function is for determining a gas appliance using gas based on the measurement data. Then, even if the gas flow rate or the gas use time exceeds the cutoff determination value, if the gas appliance using the gas is determined, the gas is not cut off. This can suppress unnecessary gas shutoff.

  Here, for example, Patent Literature 1 discloses a method of transmitting usage state information including flow rate information on a gas flow rate and use tool information on a tool that uses gas. In addition, for example, in Patent Document 2, a use condition for continuously using the gas appliance is set based on the type of the gas appliance determined by the gas appliance determination unit, and a shutoff condition used by the gas stop control unit is changed. There is disclosed a technique for causing this to occur. Patent Literature 3 discloses a method of storing a breaking event caused by an earthquake and a breaking event caused by falling down as different information. Further, Patent Document 4 has a usage restriction timer means for counting a time limit of a predetermined time when the water heater discriminating means determines that the water heater is a small water heater. Communicates to the outside that there has been continuous use of the water heater and shuts off the gas shut-off valve, and communicates that there has been continuous use of the small water heater and the history data of the history data holding means to the outside. An approach is disclosed.

JP 2008-209097 A JP 2012-132632 A JP 2009-216542 A JP 2009-52895 A

  By the way, even if the appliance determination function mounted on the gas meter is operating normally, the gas is cut off when it is determined that the cutoff function is necessary. At this time, there is a problem that the user does not know whether or not the appliance determination function is working effectively, and is likely to question whether the function of the gas meter is operating normally.

  The present invention has been made in view of such circumstances, and an object of the present invention is to provide a gas meter capable of grasping whether a function of the gas meter is working normally.

In order to solve such a problem, the present invention provides a measurement unit that measures a flow rate of a gas flowing through a gas flow path to which a gas appliance is connected, a shutoff valve that shuts off the gas flow path, and the measurement unit that measures the flow rate. Based on the flow rate of the gas, a determination unit that determines the gas appliance that uses the gas, and a learning function that learns the usage pattern of the gas and updates the cutoff determination value, and uses a gas that exceeds the cutoff determination value When the determination is made, the shutoff valve is controlled to shut off the gas, while the determination unit determines the specific gas appliance using the gas even when it is determined that a gas exceeding the shutoff determination value is used. If you are in, to present without interruption of gas, and a cut-off control unit to update cutoff determination value raising the cutoff determination value to start the re-learning the usage patterns of the gas, information about the gas meter Has an information presentation unit, and the information presentation unit, identified in the evaluation unit when the interruption control unit on the basis of the updated cutoff determination value relearning is raised been conducted was cut off of the gas Is determined, the information of the determined specific gas appliance is presented as appliance determination information.

Here, in the present invention, the cutoff control unit, even when it is determined to use a gas exceeding the cutoff determination value, when the determination unit has determined the gas appliance using the gas, It is preferable that the cutoff determination value be switched to a predetermined upper limit value and that re-learning be started for the gas usage pattern.

  In addition, the present invention preferably further includes a storage unit that stores the appliance determination information in association with the shutdown details, which are information indicating that the shutdown control unit has shut off the gas. In this case, when the information presentation unit determines the presentation request for the blocking details, it is desirable to present the blocking details and the appliance determination information associated therewith based on the information stored in the storage unit.

  Further, in the present invention, the cutoff determination value is preferably a cutoff determination value related to a total flow rate of a plurality of gas appliances, or a cutoff determination value related to an increased flow rate of any one of the gas appliances. .

  Further, in the present invention, it is preferable that the cutoff determination value is a cutoff determination value related to a use time of the gas appliance.

  Further, it is preferable that the present invention further includes, for each gas appliance determined by the determining unit, an integrating operation unit that calculates an integrated flow rate of the gas appliance. In this case, when the information presenting unit determines the presentation request of the integrated flow rate for the predetermined gas appliance, the information presenting unit presents the information on the integrated flow rate calculated by the integration calculating unit for the gas appliance, and the presentation target of the integrated flow rate is determined. When the use of gas is determined by the determination unit for the gas appliance, it is preferable to present the information together.

  According to the present invention, when there is a gas appliance determined by the determination unit when the gas is cut off, appliance determination information is presented. This makes it possible to easily confirm whether the function of the gas meter is operating normally.

Block diagram showing the configuration of the gas meter according to the present embodiment Block diagram showing microcomputer functions Explanatory diagram showing a learning function for a cutoff determination value (total flow cutoff value) related to total flow cutoff Explanatory drawing showing a learning function for a cutoff determination value (usetime cutoff value) related to use time cutoff Explanatory diagram showing switchable display contents Explanatory drawing explaining the display method of each data regarding a meter information data group Explanatory diagram schematically showing a display mode of cutoff details Explanatory diagram schematically showing a display mode of cutoff details Explanatory drawing explaining the display method of each data regarding an individual integrated data group Explanatory drawing which shows the display mode of a water heater integrated value typically Explanatory diagram schematically showing the display mode of the fan heater integrated value

(First embodiment)
FIG. 1 is a block diagram illustrating a configuration of a gas meter 1 according to the present embodiment. The gas meter 1 is disposed on a supply path for supplying gas from a gas supply source to a gas appliance at a gas supply destination, and displays an integrated flow rate of gas used at the gas supply destination. The gas meter 1 is made of, for example, aluminum die-cast and has a box shape. A gas flow path (not shown) is formed inside the gas meter 1. One end of the gas flow path is connected to a gas supply source via an upstream pipe, and the other end is connected to a gas appliance of a gas supply destination via a downstream pipe.

  The gas meter 1 mainly includes a liquid crystal panel 2, an LED 3, a return button 4, a flow rate sensor 5, a pressure sensor 6, and a microcomputer (microcomputer) 10. The gas meter 1 has a battery for power supply (not shown) mounted therein, and is operated by the power of the battery.

  The liquid crystal panel 2 is disposed in front of the gas meter 1. The liquid crystal panel 2 is controlled by the microcomputer 10 and displays the integrated flow rate and various data held by the gas meter 1.

  The LED 3 is disposed in front of the gas meter 1 and is, for example, a red LED. The LED 3 is turned on or off in response to a drive signal from the microcomputer 10, thereby displaying an abnormal state of the gas meter 1 or the like. A user of the gas appliance, a meter reader, or the like can visually recognize the abnormal state of the gas meter 1 based on the lighting state of the LED 3 (continuous lighting, blinking, and the like).

  The return button 4 is arranged on the front of the gas meter 1. The return button 4 is pressed to open the shut-off valve 7 when the shut-off valve 7 is closed. For example, when an earthquake or a gas leak is determined, the gas meter 1 closes the shutoff valve 7 to shut off gas. On the other hand, at the time of solving a problem such as an earthquake or a gas leak, by pressing down the return button 4, the shut-off valve 7 is opened and the use of gas can be resumed. The return button 4 is electrically connected to the microcomputer 10, and when the return button 4 is pressed, an operation signal is input to the microcomputer 10.

  The return button 4 functions as an operation unit for operating the gas meter 1 in addition to opening the shutoff valve 7. For example, various data held by the gas meter 1 can be displayed on the liquid crystal panel 2 by pressing the return button 4.

  The flow rate sensor 5 is provided in a gas flow path inside the gas meter 1 and outputs a signal corresponding to the flow velocity of the gas passing through the gas flow path. As the flow rate sensor 5, for example, an ultrasonic sensor or a flow sensor can be used. A signal output from the flow rate sensor 5 is input to the microcomputer 10.

  The pressure sensor 6 is provided in the above-described gas flow path, and outputs a signal corresponding to the gas pressure in the gas flow path. As the pressure sensor 6, a piezoresistive sensor or a capacitance sensor can be used. A signal output from the pressure sensor 6 is input to the microcomputer 10.

  The microcomputer 10 is a control unit that controls the gas meter 1. The microcomputer 10 mainly includes a CPU 10a, a ROM 10b, and a RAM 10c. The CPU 10a controls the overall control of the gas meter 1. The ROM 10b is a read-only memory accessible by the CPU 10a, and stores programs to be executed by the CPU 10a and various data. The RAM 10c is a memory from which data can be read and written freely, and stores various data generated during the operation of the gas meter 1 under the control of the CPU 10a.

  FIG. 2 is a block diagram illustrating functions of the microcomputer 10. When this is functionally grasped, the microcomputer 10 has a calculation unit 11a, an appliance determination unit 11b, a cutoff control unit 11c, a storage unit 11d, and an information presentation unit 11e.

  The arithmetic unit 11a measures the gas flow rate (instantaneous flow rate) by multiplying the flow velocity data output from the flow velocity sensor 5 by the cross-sectional area of the gas flow path in each sampling cycle (measurement unit). The calculation unit 11a calculates the integrated flow rate by integrating the flow rate of the gas as the measurement data. This integrated flow corresponds to the meter reading value measured by the meter reader.

  The calculation unit 11a has the following functions.

  The calculation unit 11a has an individual integration function in order to accurately grasp the flow rate change. This individual integration function calculates and processes data such as the oversized flow rate integrated value, large flow rate integrated value, medium flow rate integrated value, continuous use integrated value, designated time zone integrated value, prepaid remaining amount, and gas appliance integrated value. (Integration calculation unit).

  The extra-large flow-rate division integrated value, the large-flow-rate division integrated value, and the medium-flow-rate division integrated value respectively indicate the integrated flow rates corresponding to the specific flow divisions. The continuous use integrated value indicates an integrated flow rate when a gas in a specific flow rate range and a specified amount or more is continuously used. The designated time zone integrated value indicates the integrated flow rate when the gas is used in the specified time zone (day of the week / time). The prepaid integrated value indicates the amount of gas that can be used by a prepaid gas user by a predetermined counter value. The gas appliance integrated value indicates an individual integrated flow rate for a specific gas appliance, and in the present embodiment, the water heater integrated value indicating the integrated flow rate of the water heater and the fan heater integrated value indicating the integrated flow rate of the fan heater. The value corresponds to this.

  The calculation unit 11a has a pressure information function for confirming information on gas pressure. With this pressure information function, various data such as a current pressure value, a maximum pressure value, a minimum pressure value, and a closing pressure value are calculated and processed. These data are calculated and processed based on the measurement data output from the pressure sensor 6.

  The current pressure value is the current gas pressure. The maximum pressure value is the maximum value of the gas pressure when the gas appliance is used, and the minimum pressure value is the minimum value of the gas pressure when the gas appliance is used. The closing pressure value is a gas pressure when the use of the gas appliance is stopped.

  Further, the calculation unit 11a has a meter information function for checking internal information of the gas meter 1. With this meter information function, various data such as the remaining number of days of battery voltage drop interruption, the number of days of flow type minute leakage, the number of days of pressure type minute leakage, and details of interruption are calculated and processed.

  The remaining battery voltage drop interruption days warns the number of days until the shut-off valve 7 is closed when the battery voltage drops. The flow-rate type microleakage elapsed days are used to judge that there is a small leak in the piping after the gas meter 1 and warn of the elapsed days when a small gas flow rate continues to flow beyond a predetermined period. is there. When the pressure-type microleakage elapsed days cannot detect the rise in gas pressure in the gas flow path beyond the specified period, it is judged that there is a minute leak in the piping after the microcomputer meter, and the elapsed days are determined. It is a warning. The shutoff details indicate details related to shutoff of gas generated as abnormal use of gas. The details of each interruption include information such as an interruption event, a flow rate classification at the time of interruption, and a date and time at the time of interruption. When the appliance determination unit 11b determines the gas appliance that uses the gas when the gas is shut off, the details of the shutoff include information on the gas appliance determined by the appliance determination unit 11b (the appliance determination information). ) Is also associated.

  The appliance determination unit 11b determines the gas appliance that uses the gas based on the change (transition) in the gas flow rate measured by the calculation unit 11a. Specifically, the change in the measured gas flow rate is compared with the specific flow rate change data to determine the gas appliance that uses the gas. The specific flow rate change data is data that defines a change mode of the flow rate specific to the gas appliance with use of the gas appliance, is prepared for each gas appliance, and is stored in the storage unit 11d described later. In the present embodiment, specific flow rate change data corresponding to two gas appliances of a water heater and a fan heater are prepared, and the appliance determination unit 11b can determine two gas appliances of a water heater and a fan heater. . The transition of the measured gas flow rate may not always match the specific flow rate change data. In this case, the appliance determination unit 11b does not determine any of the water heater and the fan heater.

  The shutoff control unit 11c controls the shutoff valve 7 to shut off the gas when judging the use of gas exceeding the shutoff determination value. The shutoff of the gas by the shutoff controller 11c includes total flow shutoff, increased flow shutoff, and use time shutoff.

  The total flow cutoff is to cut off the gas when it is determined that a gas that is abnormally larger than the total gas usage of a plurality of gas appliances installed at the gas supply destination is used. Specifically, the cutoff control unit 11c cuts off the gas when the flow rate of the gas exceeds a cutoff determination value for the total flow rate (hereinafter, referred to as “total flow cutoff value”). With this shutoff function, it is possible to determine a large amount of gas leakage due to erroneous opening of the gas source plug or disconnection of the rubber hose and shut off the gas.

  The increase flow rate cutoff is to cut off the gas when it is determined that the gas flow rate increase is abnormally larger than the use of the gas for the gas appliance that consumes the gas the most. Specifically, the cutoff control unit 11c cuts off the gas when the flow rate of the gas exceeds a cutoff determination value for the increased flow rate (hereinafter, referred to as “increased flow rate cutoff value”). With this shutoff function, it is possible to judge a large amount of gas leakage due to erroneous opening of the gas source plug or disconnection of the rubber hose, and shut off the gas.

  The use time cutoff is to cut off the gas when the use time of the gas is abnormally long. Specifically, the shutoff control unit 11c shuts off the gas when the usage time of the gas exceeds the shutoff determination value for the usage time (hereinafter, referred to as “usetime shutdown value”). With this shutoff function, it is possible to judge a gas leak due to forgetting to turn off the gas appliance or incomplete closing of the appliance plug of the gas appliance, and to shut off the gas.

  Further, the shutoff control unit 11c has a learning function of learning a gas usage pattern and updating the shutoff determination value based on the learning result. Hereinafter, the learning function will be described in detail.

  FIG. 3 is an explanatory diagram showing a learning function for a cutoff determination value (total flow cutoff value) related to the total flow cutoff. The total flow cutoff value can be set within a range between a predetermined lower limit (for example, 900 L / h) and an upper limit (for example, 2500 L / h).

  First, when the use of the gas meter 1 is started, the cutoff control unit 11c performs an initial learning. In this initial learning, the total flow cutoff value is set based on the gas usage pattern during the initial learning period (for example, two weeks). Specifically, when the gas is used during the initial learning period, the cutoff control unit 11c monitors the gas flow rate each time the gas is used. Then, the cutoff control unit 11c sets a value obtained by multiplying the maximum flow rate value in the initial learning period by a predetermined safety factor (for example, “2.2”) as the total flow cutoff value. In this initial learning period, a provisional value is used as the total flow cutoff value.

  When the total flow cutoff value is set, thereafter, the cutoff control unit 11c monitors the gas flow rate, and starts re-learning on the gas usage pattern when a certain re-learning condition is determined. For example, the re-learning condition is that the state where the gas flow rate exceeds the increase learning determination level continues for a predetermined number of days, or the state where the gas flow rate falls below the decrease learning determination level continues for a predetermined number of days. In this relearning, the gas flow rate is monitored over a predetermined relearning period as in the initial learning. Then, a value obtained by multiplying the maximum flow rate value by a predetermined safety factor in the relearning period is set as a new total flow rate cutoff value.

  With such a learning function, the total flow rate cutoff value is set to a low value in a season in which gas usage is low, such as in summer. On the other hand, the use of gas appliances, such as water heaters, will increase in the autumn season when the season changes and the temperature cools. In this case, the flow rate of the gas may exceed the total flow cutoff value, and the gas is normally cut off.

  However, even in such a scene, in a situation where a gas appliance using a gas is determined, such as a water heater or a fan heater, the use of the gas (gas flow rate) is considered to be appropriate. . Therefore, when it is determined that a gas exceeding the total flow rate cutoff value is used, the cutoff control unit 11c determines whether or not a gas appliance (fan heater or water heater) using the gas is determined in the appliance determination unit 11b. I do. When the fan heater or the water heater is determined, the gas is not shut off, and the learning of the gas usage pattern is started again. Specifically, the cutoff control unit 11c switches the total flow cutoff value to a predetermined upper limit (for example, 2500 L / h) to avoid gas cutoff, and starts learning again about the gas usage pattern. . On the other hand, when neither the water heater nor the fan heater is determined, the shutoff control unit 11c shuts off the gas.

  The learning concept for the cutoff determination value (increased flow cutoff value) related to the increased flow cutoff is the same as that for the total flow cutoff, and a description thereof will be omitted.

  FIG. 4 is an explanatory diagram showing a learning function for a cutoff determination value (use time cutoff value) related to use time cutoff. The use time cutoff value can be set within a range between a predetermined lower limit (for example, 300 minutes) and an upper limit (for example, 720 minutes).

  First, when the use of the gas meter 1 is started, the cutoff control unit 11c performs an initial learning. In the initial learning, the use time cutoff value is set based on the gas usage pattern during the initial learning period (for example, two weeks). Specifically, when gas is used during the initial learning period, the cutoff control unit 11c monitors the usage time each time the gas is used. Then, the cutoff control unit 11c sets a value obtained by multiplying the maximum use time in the initial learning period by a predetermined safety factor (for example, “2.2”) as the use time cutoff value. In this initial learning period, a provisional value is used as the use time cutoff value.

  When the use time cutoff value is set, thereafter, the cutoff control unit 11c monitors the gas use time and starts relearning for the gas use pattern when a certain relearning condition is determined. For example, the re-learning condition is that the state in which the gas usage time exceeds the increase learning determination level continues for a predetermined number of days, or the state in which the gas usage time falls below the decrease learning determination level continues for a predetermined number of days. In this relearning, the gas flow rate is monitored over a predetermined relearning period as in the initial learning. Then, a value obtained by multiplying the maximum use time in the relearning period by a predetermined safety factor is set as a new use time cutoff value.

  With such a learning function, the use time cutoff value is set to a low value in a season in which gas usage is low, such as summer. On the other hand, in winter when the temperature is low, the usage time of gas appliances such as fan heaters and water heaters increases. In this case, the usage time of the gas may exceed the usage time cutoff value, and the gas is normally cut off.

  However, even in such a scene, in a situation where a gas appliance using gas is determined, such as a water heater or a fan heater, the use of the gas (gas use time) is considered to be appropriate. Can be Therefore, when it is determined that a gas exceeding the usage time cutoff value is to be used, the cutoff control unit 11c determines whether a gas appliance (fan heater or water heater) using the gas is determined by the appliance determination unit 11b. to decide. When the fan heater or the water heater is determined, the gas is not shut off, and the learning of the gas usage pattern is started again. Specifically, the cutoff control unit 11c switches the use time cutoff value to a predetermined upper limit (for example, 720 minutes), avoids gas cutoff, and starts relearning on the gas use pattern. On the other hand, when neither the water heater nor the fan heater is determined, the shutoff control unit 11c shuts off the gas.

  The storage unit 11d stores programs and various data necessary for the operation of the gas meter 1. In relation to the present embodiment, the storage unit 11d stores specific flow rate change data for each gas appliance, specifically, specific flow rate change data for the fan heater and specific flow rate change data for the water heater.

  The storage unit 11d stores data obtained by each function of the microcomputer 10, specifically, integrated flow rate data, individual integrated data group, pressure information data group, and meter information data group.

  Here, the integrated flow rate data is data on the integrated flow rate measured by the calculation unit 11a. The individual integrated data group includes extra large flow rate integrated values, large flow rate integrated values, medium flow rate integrated values, continuous use integrated values, designated time zone integrated values, prepaid remaining amount, fan heater integrated values, and water heater integrated values. This is a data group including data. The pressure information data group is a data group including data on the current pressure value, the maximum pressure value, the minimum pressure value, and the closing pressure value. The meter information data group is a data group including the data on the remaining number of days of battery voltage drop interruption, the number of days of flow type minute leakage, the number of days of pressure type minute leakage, and the last three interruption details.

  The information presenting unit 11e controls the liquid crystal panel 2 and displays various information related to the gas meter 1. Information display on the liquid crystal panel 2 is possible by pressing and holding the return button 4. That is, the operation of the return button 4, specifically, an operation signal input to the microcomputer 10 (the information presentation unit 11 e) corresponds to a display request for data held by the gas meter 1.

  When the information presenting unit 11e determines that the return button 4 is pressed for a long time, the information presenting unit 11e displays information of the integrated flow rate data, the individual integrated data group, the pressure information data group, and the meter information data group. Specifically, as shown in FIG. 5, the information presenting unit 11e initially displays the accumulated flow rate data when a long press operation of the return button 4 is performed, and each time the long press operation is performed, an individual accumulation The data / data group to be displayed is switched in the order of the data group, the pressure information data group, and the meter information data group.

  In displaying the individual integrated data group, the pressure information data group, and the meter information data group, the information presenting unit 11e individually displays each data included in the data group. For example, the information presenting unit 11e sequentially switches and displays each data included in the data group in response to a short press of the return button 4.

  Here, FIG. 6 is an explanatory diagram for explaining a method of displaying each data relating to the meter information data group. In the display of the meter information data group, each data included in the meter information data group, that is, the remaining days of the battery voltage drop cutoff, the number of days of flow type micro leaks, the number of days of pressure type micro leaks, and the details of the last three cuts (block details Information on 1, blocking details 2 and blocking details 3) is displayed. Each data is individually displayed. For example, when the return button 4 is shortly pressed, the remaining days of the battery voltage drop / shutdown, the number of days of the flow-type minute leakage, the number of days of the pressure-type minute leakage, and the details of the interruption , The data to be displayed can be sequentially switched in the order of the block details 2 and the block details 3.

  In FIG. 6, the display of the remaining number of days of battery voltage drop interruption indicates that the number of days is “16 days”. The display of the number of elapsed days of the flow rate type microleakage indicates that the number of days is “28 days”. The display of the number of elapsed days of the pressure-type microleakage indicates that the number of days is “18 days”. The display of the three block details 1 to 3 shows information on each block.

  Each of the shut-off details 1 to 3 includes a display pattern indicating a shut-off event and a flow rate category, and a display pattern indicating a shut-off date and time, which is switched from the display pattern by short-pressing the return button 4.

  The display pattern indicating the cutoff event and the flow rate classification is composed of the first half digit and the second half digit following the hyphen.

  The first digit of the first half indicates which of the last three cut-off details. More specifically, “1” indicates the immediately preceding interruption details, “2” indicates the previous interruption details, and “3” indicates the last interruption details.

  The last two digits indicate a blocking event. For example, “1 *” indicates a total flow interruption, and “2 *” indicates an increased flow interruption. Although not shown, “3 *” indicates that the use time is shut off, and “42” indicates that the seismic sensor is shut off. Note that a specific number corresponding to the flow rate category is assigned to “*”.

  The display pattern indicating the cutoff date and time is configured by seven consecutive digits. In this display pattern, the leftmost digit is the last digit of the year, the last two digits are the month, the next two digits are the day, and the last two digits are the hour. Is shown. For example, at 1 o'clock on March 8, 2016, at 1 o'clock on March 8, 2016, at 15:00 on o'clock on February 8, 2016, at 15:00 on January 8, 2016, at 1 o'clock on January 8, 2016. It is shown.

  FIG. 7 and FIG. 8 are explanatory diagrams schematically showing the display mode of the details of the cutoff. As one of the features of the present embodiment, the information presenting unit 11e displays, as appliance determination information, information on the gas appliance determined by the appliance determining unit 11b when the shutoff control unit 11c shuts off the gas. I have.

  When the appliance determination unit 11b does not determine the gas appliance using the gas when the gas is shut off, that is, when the appliance determination information is not associated with the shutdown details stored in the storage unit 11d, information is presented. The unit 11e displays the cutoff details in the above-described manner as shown in FIG. 7 (normal display). On the other hand, when the appliance determination unit 11b determines the gas appliance using gas when the gas is shut off, that is, when the appliance determination information is associated with the shutdown details stored in the storage unit 11d. As shown in FIG. 8, the information presenting unit 11e displays appliance determination information in addition to the normal display.

  In the example illustrated in FIG. 8, the appliance determination information includes an upper frame, a lower frame, an upward arrow, and a letter L. The letter L in the appliance determination information indicates that the determined gas appliance is a water heater. When the determined gas appliance is a fan heater, for example, a letter S is displayed instead of the letter L. However, the display mode of the appliance determination information is not limited to this method, and any display mode may be used as long as it indicates a gas appliance determined to use gas when the gas is shut off. .

  As described above, according to the present embodiment, when the gas appliance using the gas is determined when the gas is shut off, the information of the gas appliance determined to use the gas (the appliance determination information) is included. Will be displayed. Therefore, when the appliance determination information is displayed, it is determined that the gas appliance is appropriately determined by the appliance determination function and the cutoff of the gas based on the learning value is avoided, but the gas exceeding the upper limit was used. You can see that. On the other hand, when the appliance determination information is not displayed, it can be understood that the gas is shut off by a gas appliance other than the water heater or the fan heater. Thereby, it can be easily confirmed whether the function of the gas meter 1 is operating normally.

  Further, in the present embodiment, the cutoff control unit 11c sets the cutoff determination value when the appliance determination unit 11b determines the gas appliance that uses the gas when determining the use of gas exceeding the cutoff determination value. While switching to the predetermined upper limit, re-learning of the gas usage pattern is started.

  According to this configuration, when the gas appliance using the gas is determined, the cutoff determination value is switched to the upper limit, so that unnecessary cutoff can be suppressed. Further, by performing the re-learning, the cutoff determination value can be switched to an appropriate value according to the usage pattern.

  Further, in the present embodiment, the storage unit 11d stores the appliance determination information in association with the details of the shutdown, which is information that the shutdown control unit 11c has shut off the gas. When the information presenting unit 11e determines the presentation request for the blocking details, the information presenting unit 11e displays the blocking details and the appliance determination information based on the information stored in the storage unit 11d.

  According to this configuration, when the return button 4 is operated to display the details of the cutoff, it is possible to display the appliance determination information related to the cutoff together with the display. Thereby, the presence or absence of the gas appliance for which the use of the gas is determined at the time of shutoff can be confirmed together with confirmation of shutoff details. As a result, it is possible to easily confirm whether the function of the gas meter 1 is operating normally.

  Note that, in the present embodiment, the appliance determination information is displayed in response to the presentation request for the details of the cutoff associated with the operation of the return button 4. However, the device determination information may be displayed when the gas is shut off.

(Second embodiment)
Hereinafter, the gas meter 1 according to the second embodiment will be described. Here, FIG. 9 is an explanatory diagram for explaining a method of displaying each data relating to the individual integrated data group. In the display of the meter information data group, each data included in the meter information data group, that is, the extra-large flow section integrated value, the large flow section integrated value, the medium flow section integrated value, the continuous use integrated value, the specified time zone integrated value, the prepaid Data regarding the remaining amount, the integrated value of the water heater, and the integrated value of the fan heater are displayed. Each data is displayed individually. For example, when the return button 4 is shortly pressed, the integrated value of the extra-large flow rate section, the integrated value of the large flow rate section, the integrated value of the medium flow rate section, the integrated value of the continuous use, the designation The data to be displayed can be sequentially switched in the order of the time zone integrated value, the prepaid remaining amount, the water heater integrated value, and the fan heater integrated value.

In FIG. 9, the display of the oversized flow rate integrated value indicates that the integrated value is “888.88 m ³ ”. In addition, the display of the large flow rate integrated value indicates that the integrated value is “666.66 m ³ ”, the display of the medium flow rate integrated value indicates that the integrated value is “444.44 m ³ ”, and the continuous use integrated value. Indicates that the integrated value is “3333.33 m ³ ”, the indication of the designated time zone integrated value is that the integrated value is “2222.22 m ³ ”, and the display of the prepaid remaining amount indicates that the remaining amount is “ 99.9 m ³ ". Further, the display of the water heater integrated value indicates that the integrated value is “7777.77 m ³ ”, and the display of the fan heater integrated value indicates that the integrated value is “5555.55 m ³ ”.

  As one of the features of the present embodiment, the information presenting unit 11e displays appliance determination information. The display of the appliance determination information is performed together with the display of the integrated value of the corresponding gas appliance.

  FIG. 10 is an explanatory diagram schematically showing a display mode of a water heater integrated value. As shown in FIG. 10 (a), when the water heater integrated value is displayed, the information presenting unit 11e displays the integrated value of the water heater and the integrated value if the water heater is not determined by the appliance determining unit 11b. Indicates that the value is for a water heater (normal display). In FIG. 10A, a seven-digit number indicates an integrated value, and the letter L and an upward arrow indicate that the integrated value relates to a water heater. On the other hand, as shown in FIG. 10B, when displaying the integrated value of the water heater, when the water heater is determined by the appliance determining unit 11b, the information presenting unit 11e adds to the normal display. And display the appliance determination information. In the example illustrated in FIG. 10B, the appliance determination information includes an upper frame and a lower frame positioned above and below the letter L and the upward arrow. Based on the presence or absence of the upper frame and the lower frame, it is possible to determine whether the water heater is currently determined in the appliance determining unit 11b or whether the water heater is not determined.

  FIG. 11 is an explanatory diagram schematically illustrating a display mode of the fan heater integrated value. As shown in FIG. 11A, when displaying the fan heater integrated value, the information presenting unit 11e displays the integrated value of the fan heater and the integrated value of the fan heater if the appliance determining unit 11b does not determine the fan heater. Indicates that the value is related to the fan heater (normal display). In FIG. 11A, a seven-digit number indicates an integrated value, and the letter S and an upward arrow indicate that the integrated value relates to a fan heater. On the other hand, as shown in FIG. 11 (b), when the fan heater is determined by the appliance determination unit 11b at the time of displaying the fan heater integrated value, the information presenting unit 11e displays the appliance in addition to the normal display. Displays judgment information. In the example illustrated in FIG. 11B, the appliance determination information includes an upper frame and a lower frame positioned above and below the letter S and the upward arrow. Based on the presence or absence of the upper frame and the lower frame, it is possible to determine whether the appliance determination unit 11b is currently determining the fan heater or not.

  As described above, in the present embodiment, when the information presenting unit 11e determines the presentation request regarding the integrated flow rate of the predetermined gas appliance, the information presenting unit 11e presents the information regarding the integrated flow rate calculated by the arithmetic unit 11a for the gas appliance, and When use of the gas appliance for which the integrated flow rate is presented is determined by the appliance determination unit 11b, the information (apparatus determination information) is also displayed.

  According to this configuration, it is possible to confirm that the use of the gas appliance has been determined. Thereby, the operation of the integrating function for each gas appliance can also be confirmed. Therefore, it can be easily checked whether the function of the gas meter 1 is operating normally.

  In addition, according to the present embodiment, the information of the gas appliance determined to be used (apparatus determination information) is displayed together with the display of the integrated value. May be displayed. Further, information of the gas appliance whose use has been determined may be displayed during the period in which the gas appliance using the gas is determined.

  As described above, the gas meter according to the embodiment of the present invention has been described. However, it goes without saying that the present invention is not limited to the above-described embodiment, and various modifications can be made within the scope of the present invention.

  For example, in the present embodiment, information is displayed on the liquid crystal panel 2 as a technique for presenting information. However, the information may be presented by sound or voice, or may be transmitted to an external device through various types of communication, and the information may be presented through the external device.

1 gas meter 2 liquid crystal panel 3 LED
4 return button 5 flow velocity sensor 6 pressure sensor 7 shut-off valve 10 microcomputer 10a CPU
10b ROM
10c RAM
11a Operation unit (measurement unit / integration operation unit)
11b Appliance determination unit (determination unit)
11c Shut-off control unit 11d Storage unit 11e Information presentation unit

Claims (6)

A measuring unit that measures the flow rate of the gas flowing through the gas flow path to which the gas appliance is connected,
A shutoff valve that shuts off the gas flow path;
Based on the flow rate of the gas measured by the measurement unit, a determination unit that determines a gas appliance that uses the gas,
While having a learning function to learn about the gas usage pattern and update the shutoff determination value, while controlling the shutoff valve to determine the use of gas exceeding the shutoff determination value, to shut off the gas, Even when it is determined that a gas exceeding the cutoff determination value is used, if the determination unit has determined a specific gas appliance that uses gas, the gas is not cut off and the gas usage pattern is repeated. A cutoff control unit that starts learning, raises the cutoff determination value and sets an updated cutoff determination value ,
An information presenting unit that presents information about the gas meter,
The information presenting unit is configured such that when a specific gas appliance is determined by the determination unit when the shutdown control unit performs the shutdown of the gas based on the updated shutdown determination value that has been re-learned and raised. A gas meter for presenting information on a determined specific gas appliance as appliance determination information. The shutoff control unit is configured to set the shutoff determination value in advance when the determination unit determines a gas appliance that uses gas, even when determining the use of gas exceeding the shutoff determination value. The gas meter according to claim 1, wherein the gas meter switches to the upper limit and starts re-learning on the gas usage pattern. The storage further includes a storage unit that stores the appliance determination information in association with the shutdown details, which is information indicating that the shutdown control unit has shut off the gas,
The information presenting unit, when determining a presentation request for the blocking details, based on the information stored in the storage unit, presents the blocking details and the appliance determination information associated therewith, The gas meter according to claim 1.   The shutoff determination value may be a shutoff determination value for a total flow rate of a plurality of gas appliances or a shutdown determination value for an increased flow rate of any one of the gas appliances. The gas meter according to any one of 1 to 3.   The gas meter according to any one of claims 1 to 3, wherein the cutoff determination value is a cutoff determination value related to a usage time of the gas appliance. For each gas appliance determined in the determination unit, further comprising an integration calculation unit that calculates the integrated flow rate for the gas appliance,
When the information presenting unit determines the presentation request of the integrated flow rate for the predetermined gas appliance, the information presenting unit presents information regarding the integrated flow rate calculated by the integration calculating unit for the gas appliance, and serves as a presentation target of the integrated flow rate. The gas meter according to any one of claims 1 to 5, wherein when the use of gas is determined for the gas appliance by the determination unit, the information is also presented together.

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