JP2004045075A - Gas meter - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a gas meter aiming at cost reduction by saving manhour for confirming presence or absence of a connection of a gas leak alarm installed at each gas consumer, and reducing communication charge. <P>SOLUTION: A CPU18a2 detects connection and un-connection of the gas leak alarm 20. In a connection initial state, connection is not detected at all. In a state of certain connection, connection is detected at least once. After the connection initial state turns to the state of certain connection, the CPU18a2 detects that connection between the gas leak alarm 20 and a terminal board 16 is severed, in response to detection of un-connection. Data informing the disconnection are transmitted to the outside. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a gas meter, and more particularly to a gas meter that can detect connection and disconnection of a gas leak alarm.
[0002]
[Prior art]
In a centralized management system that manages a gas meter by using communication between the gas meter and the management center, information transmitted from the gas meter to the management center is divided into security information related to security and meter reading information related to gas consumption. It is roughly divided.
[0003]
When the information transmitted from the gas meter is security information, the management center transfers the security information to a section that manages security of the gas company. On the other hand, when the information transferred from the gas meter is the meter reading information, the meter reading information is mainly transferred to the section for gas container delivery.
[0004]
2. Description of the Related Art Conventionally, a gas meter capable of detecting connection / non-connection of a gas leak alarm device periodically transmits meter reading information to a management center. In addition, when detecting the disconnection of the gas leak alarm at the time of transmitting the meter reading information, the security information indicating that the gas leak alarm is not connected is transmitted to the management center together with the meter reading information. Was.
[0005]
Then, in the section that manages security, upon receiving the security information indicating that the gas leak alarm is not connected via the management center, the connection between the gas meter that transmitted the security information and the gas leak alarm is performed. Was determined to have been cut off and went to the site to work again to secure the connection with the gas leak alarm.
[0006]
[Problems to be solved by the invention]
By the way, the above-mentioned gas leak alarm device is not always connected to all gas meters, and depending on the gas consumption destination, there may be a case where the gas leak alarm device is not connected originally from the time of installation of the gas meter. However, when the conventional gas meter described above simply detects that the gas leak alarm device is not connected, it transmits security information indicating that fact.
[0007]
For this reason, in the security control section, whether security information indicating that the gas leak alarm was not connected was transmitted in response to the disconnection of the gas leak alarm, or whether the gas leak alarm was originally connected. It was not possible to determine whether it was sent because it did not.
[0008]
Therefore, in the section that manages security, it is necessary to check in advance whether a gas leak alarm is connected to the gas meters installed at each gas consuming destination, and to check for gas leak alarms from gas meters that have been confirmed to be connected. When security information indicating that the device was not connected was received, it was determined that the connection between the gas leak alarm device and the gas meter was disconnected, and the user was heading to the site. For this reason, it is troublesome to check the presence or absence of connection of a gas leak alarm device installed at each gas consumption destination, and there is a problem in cost.
[0009]
Also, if the gas leak alarm was not originally connected from the gas meter installation, safety information indicating that the gas leak alarm was not connected will always be shared with the meter reading information transmitted periodically, Communication charges are incurred, and this poses a cost problem. Moreover, since the security information is transferred from the management center to a destination different from the meter reading information, the communication fee is doubled compared to a case where only the meter reading information is transmitted.
[0010]
Therefore, the present invention focuses on the above-described problems, and saves the trouble of confirming the presence or absence of connection of a gas leak alarm device installed at each gas consumer, and reduces the communication fee, thereby reducing costs. It is an object to provide an intended gas meter.
[0011]
[Means for Solving the Problems]
The invention according to claim 1, which has been made to solve the above problem, is a connection / non-connection detecting means for detecting connection / non-connection of a gas leak alarm, and the connection / non-connection detecting means has never made the connection. From the connection initial state in which no connection has been detected, to the connected state in which the connection has been detected even once, the connection between the gas leak alarm and the gas meter is disconnected in response to the detection of the non-connection. There is provided a gas meter, comprising: a disconnection detecting means for detecting a hit; and a transmitting means for transmitting data notifying the fact to the outside in response to the detection of the disconnection.
[0012]
According to the first aspect of the present invention, the connection / non-connection detection means detects connection and non-connection of the gas leak alarm. From the connection initial state in which the connection / non-connection detecting means has never detected the connection to the connected state in which the connection has been detected at least once, the disconnection detecting means in response to the non-connection detection Detects that the connection between the gas leak alarm and the gas meter has been disconnected. The transmission means transmits data notifying the fact to the outside in response to the detection of the disconnection.
[0013]
Therefore, paying attention to the fact that the gas leak alarm is not originally connected from the time of installation of the gas meter, the state does not shift from the initial connection state to the connected state. The disconnection is detected according to the connection detection. As a result, only when the connection between the gas leak alarm device and the gas meter is disconnected, data notifying that fact is transmitted, and the data is transmitted each time the disconnection with the gas leak alarm device is detected. Can be prevented. In addition, the management side can determine that the gas leak alarm device has been disconnected without confirming the connection with the gas leak alarm device by receiving the notification of the disconnection detection.
[0014]
The invention according to claim 2 is the gas meter according to claim 1, wherein a first connection flag indicating whether or not the gas leak alarm is connected according to a detection result of the connection / non-connection detection means. A first flag control means for turning on or off the power supply, and a second connection flag for indicating whether the connection is in the initial state or the connected state according to a detection result of the connection / non-connection detection means. There is provided a gas meter comprising: a second flag control unit that turns off the disconnection; and the disconnection detection unit detects the disconnection based on the states of the first and second connection flags.
[0015]
According to the second aspect of the invention, the first flag control means turns on or off the first connection flag indicating whether or not the gas leak alarm is connected based on the detection result of the connection / non-connection detection means. I do. The second flag control means turns on or off the second connection flag indicating whether the connection is in the initial state or the connected state based on the detection of the connection / non-connection detection means. The disconnection detecting means detects a disconnection based on the state of the first and second connection flags. Therefore, data can be transmitted only when disconnection is detected simply by controlling the two connection flags of the first and second connection flags.
[0016]
According to a third aspect of the present invention, in the gas meter according to the second aspect, when the gas usage time continues for a predetermined time or more, the usage time cutoff unit that cuts off the gas supply, and the first connection flag is turned on. The gas meter is provided with changing means for changing the set time between the time of the off and the time of the off.
[0017]
According to the third aspect of the invention, the use time shut-off means cuts off the gas supply when the gas use time continues for a predetermined time or more. The changing means changes the set time between when the first connection flag is on and when it is off. Therefore, using the first connection flag controlled to change the set time of use time cutoff between the ON and OFF of the first connection flag, that is, when the gas leak alarm is connected and when it is not connected, When a disconnection is detected more easily, data can be transmitted.
[0018]
The invention according to a fourth aspect is the gas meter according to the first, second or third aspect, further comprising reset means for resetting the connection to the initial state.
[0019]
According to the invention described in claim 4, the reset means resets the gas meter to the connection initial state. Therefore, when the installation place of the gas meter is changed, if the gas meter is returned to the initial connection state by the reset means, the disconnection can be accurately detected according to the presence or absence of the gas leak alarm at the new installation place.
[0020]
According to a fifth aspect of the present invention, there is provided the gas meter according to any one of the first to fourth aspects, wherein the connection mode and the connection mode are not detected, and the shipping mode in which the power consumption is low and the connection mode and the non-connection mode are set. Is detected, and when it is possible to switch to a normal mode in which a normal power consumption state is set, the reset unit performs a switching operation from the normal mode to the shipping mode, or a switch from the shipping mode to the normal mode. The gas meter is characterized in that the reset is performed in response to a switching operation.
[0021]
According to the invention as set forth in claim 5, when the installation location of the gas meter is changed, the gas meter is normally shipped after being switched from the normal mode to the shipping mode, and is switched from the shipping mode to the normal mode when the gas meter is installed at a new installation location. Focusing on switching to the normal mode, the resetting means resets in response to a switching operation from the normal mode to the shipping mode, or a switching operation from the shipping mode to the normal mode. Therefore, there is no need to separately perform the operation of resetting the connection to the initial state and the operation of switching from the normal mode to the shipping mode and from the shipping mode to the normal mode.
[0022]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings. FIG. 1 is a block diagram showing one embodiment of the gas meter of the present invention. As shown in FIG. 1, the gas meter includes an integrating display unit 11, a measuring unit 12, and a flow sensor 13.
[0023]
The integrated display unit 11 counts (integrates) the flow rate of gas supplied from a gas container (not shown) as a gas supply source to a gas appliance (not shown). The integration display unit 11 is connected to the weighing unit 12.
[0024]
The flow rate sensor 13 outputs a pulse each time the gas flows from the gas container to the gas appliance at a constant flow rate using the rotational movement in the measuring section 12.
[0025]
In addition, the gas meter includes a test switch 14 that is turned on when a magnet key (not shown) is approached, a shutoff valve 15 that shuts off gas supply from the gas container to the gas appliance by closing the valve, and a gas leak alarm 20. It has a terminal block 16 to be connected and a terminal block 17 to which a transmission controller (NCU) 30 is connected.
[0026]
The transmission controller 30 connects to a telephone line network via a telephone line, and a modem (not shown) for communicating with a remote management center, and an automatic switch for switching the connection of the telephone line between the subscriber telephone and the gas meter. A switch (not shown) is provided.
[0027]
Further, the gas meter includes a control circuit 18. The control circuit 18 includes a microcomputer (μCOM) 18a serving as a main control unit, a battery 18b functioning as an operation power supply, an interface 18c, and the like.
[0028]
The μCOM 18a includes a ROM 18a1, which is a read-only memory for storing programs, fixed data, and the like, a central processing unit (CPU) 18a2 for performing various processing operations in accordance with programs stored in the ROM 18a1, and a work area used for processing in the CPU 18a2. And a RAM 18a3, which is a readable and writable memory having a data storage area for storing the results of processing operations.
[0029]
The interface 18c is connected to the pulse output terminal of the flow sensor 13, the test switch 14, the control terminal of the shutoff valve 15, and the terminal blocks 16 and 17.
[0030]
The operation of the gas meter having the above configuration will be described below.
First, when a gas meter is newly installed, the gas company operates a magnet key to perform a switching operation from a shipping mode in a low power consumption state to a normal mode in a normal power consumption state. When the CPU 18a2 in the gas meter detects the switching operation from the shipping mode to the normal mode by turning on the test switch 14 according to the operation of the magnet key, a flag control process I, a flag control process II, a use time cutoff process described later. , Set time change processing, weighing processing, meter reading processing, and the like.
[0031]
The operation of the gas meter in the flag control processing I will be described below with reference to the flowchart of FIG.
First, the CPU 18a2 in the gas meter functions as a reset unit, and turns on a mask flag (= second connection flag) stored in the RAM 18a3 (step S1). When the mask flag is ON, it indicates that the connection is in the initial connection state in which the connection of the gas leak alarm device 20 has never been detected, and when the mask flag is OFF, the connection of the gas leak alarm device 20 has been detected even once. This is a flag indicating the connected state.
[0032]
Next, the CPU 18a2 functions as connection / non-connection detection means, and detects whether or not the gas leak alarm 20 is connected to the terminal block 16 (step S2). When the disconnection of the gas leak alarm 20 is detected (N in step S2), the CPU 18a2 returns to step S2 again. On the other hand, when the connection of the gas leak alarm 20 is detected (Y in step S2), the CPU 18a2 turns off the mask flag (step S3), and ends the flag control processing I.
[0033]
Next, the operation of the gas meter in the flag control process II will be described below with reference to the flowchart of FIG.
First, the CPU 18a2 in the gas meter functions as a reset unit, and turns on a non-connection flag (first connection flag) stored in the RAM 18a3 (step S4). The unconnected flag is a flag that indicates that the gas leak alarm 20 is currently connected when turned off, and that the gas leak alarm 20 is not connected when turned on.
[0034]
Next, the CPU 18a2 functions as connection / non-connection detection means, and detects whether or not the gas leak alarm 20 is connected to the terminal block 16 (step 5). When the non-connection of the gas leak alarm 20 is detected (N in step S5), the CPU 18a2 turns on the non-connection flag (step S6), and then returns to step S5 again. On the other hand, when the connection of the gas leak alarm 20 is detected (Y in step S5), the CPU 18a2 turns off the non-connection flag (step S7), and then returns to step S5 again.
[0035]
Note that the flag control process II is performed until it is determined that the switching operation from the normal mode to the shipping mode using the magnet key has been performed by detecting that the test switch 14 is continuously turned on twice.
[0036]
As is clear from the operations in the flag control processing I and the flag control processing II described above, it is understood that the CPU 18a2 functions as the first flag control means and the second flag control means. Further, as a result of performing the above-described flag control processing I and flag control processing II, the mask flag and the non-connection flag are in a state as shown in FIG. That is, when the gas meter is changed from the shipping mode to the normal mode, the gas meter is in the initial connection state, and both the mask flag and the non-connection flag are turned on.
[0037]
Thereafter, when the connection of the gas leak alarm device 20 is detected and the state is shifted to the connected state, both the mask flag and the unconnected flag are turned off. When the connection between the gas leak alarm 20 and the terminal block 16 is disconnected for some reason, the mask flag remains off and only the unconnected flag is turned on.
[0038]
Further, the CPU 18a2 in the gas meter performs the use time cutoff process and the set time change process in parallel with the flag control process I and the flag control process II described above. In the use time cutoff process, the CPU 18a2 functions as a use time cutoff unit, and outputs a valve close signal to the control terminal of the cutoff valve 15 when the gas use time exceeds a predetermined time to close the cutoff valve 15. This shuts off the gas supply.
[0039]
In the set time changing process, the CPU 18a2 functions as a changing unit, and changes the set value used to cut off the use time according to the on / off state of the non-connection flag. Specifically, as shown in FIG. 4, the CPU 18a2 periodically checks the state of the unconnected flag, sets the set time to the time extension 1 when the unconnected flag is on, and sets Set the set time in time extension 2 (≧ time extension 1).
[0040]
In addition, the CPU 18a2 in the gas meter stores in the RAM 18a3 every time a pulse is output from the flow rate sensor 13 in parallel with the flag control processing I, the flag control processing II, the use time cutoff processing, and the set time change processing. A metering process is performed in which a fixed amount is added to the gas usage and the added value is overwritten as a new gas usage.
[0041]
The CPU 18a2 in the gas meter periodically performs the meter reading process in parallel with the flag control process I, the flag control process II, the use time cutoff process, the set time change process, and the metering process. The operation of the gas meter in the meter reading process will be described below with reference to the flowchart of FIG.
First, the CPU 18a2 determines whether the mask flag stored in the RAM 18a3 is off (step S7).
[0042]
If the mask flag is ON (N in step S7), the CPU 18a2 determines that the gas leak alarm 20 has not been originally connected since the gas meter was installed, and stores it in the RAM 18a3. After transmitting the gas usage amount as meter reading information to the management center via the NCU 30 (step S10), the meter reading process ends.
[0043]
On the other hand, when the mask flag is off (Y in step S7), the CPU 18a2 determines that the connected state is established, and then determines whether the unconnected flag is on (step S7). S8). If the unconnected flag is off (N in step S8), the CPU 18a2 determines that the connection between the gas leak alarm 20 and the terminal block 16 has not been disconnected, and proceeds to step S10.
[0044]
On the other hand, if the non-connection flag is on (Y in step S8), the CPU 18a2 functions as a disconnection detecting unit and a transmitting unit, and detects that the connection between the gas leak alarm 20 and the terminal block 16 has been disconnected. Then, in addition to the meter reading information transmitted in step S10, security information indicating that the connection between the gas leak alarm device 20 and the terminal block 16 has been disconnected is transmitted to the management center (step S9), and the meter reading process ends. .
[0045]
According to the above-described gas meter, after the connection is changed from the initial connection state to the connected state, the disconnection is detected in response to the detection of the non-connection, and data for notifying the disconnection is transmitted. Therefore, the security information is transmitted only when the connection between the gas leak alarm 20 and the gas meter is disconnected, and the security information is prevented from being transmitted every time the disconnection with the gas leak alarm 20 is detected. Can be. That is, the unconnected flag is masked when the mask flag is turned on, so that security information is not transmitted only when the unconnected flag is turned on, and communication charges can be reduced.
[0046]
In addition, the management center received the security information indicating that the disconnection was detected, and the connection between the gas leak alarm 20 and the terminal block 16 was disconnected without checking whether or not the gas leak alarm 20 was connected. Since the determination can be made, the trouble of checking whether or not the gas leak alarm device 20 installed at each gas consuming destination is connected can be omitted, and the cost can be reduced.
[0047]
Further, according to the above-described gas meter, the security information can be transmitted only when the disconnection is detected simply by controlling ON / OFF of the two flags of the mask flag and the non-connection flag.
[0048]
Further, according to the above-described gas meter, the disconnection detection is performed by using the non-connection flag controlled to change the setting time of the use time cutoff between the connection and the non-connection of the gas leak alarm device. The disconnection can be detected with a simple configuration.
[0049]
Further, according to the above-described gas meter, the mask flag is turned on in response to switching from the shipping mode to the normal mode (step S1 in FIG. 2), and the connection is forcibly reset to the initial state. For this reason, if the gas meter installation location is changed, if the gas meter is returned to the initial connection state, disconnection detection can be accurately performed according to the presence or absence of the gas leak alarm 20 at the new installation location.
[0050]
In addition, when the operation of switching from the shipping mode to the normal mode is performed, by resetting the connection to the initial state, the gas company can reset the connection to the initial state when installing the gas meter in a new place, It is not necessary to separately perform the operation of switching from the normal mode to the normal mode, and the usability is good.
[0051]
In the above-described embodiment, when the switching operation from the shipping mode to the normal mode is performed, the connection is reset to the initial state. However, for example, when the switching operation from the normal mode to the shipping mode is reset, the connection is reset to the initial state. You may do so.
[0052]
【The invention's effect】
As described above, according to the first aspect of the present invention, only when the connection between the gas leak alarm device and the gas meter is cut off, data notifying the fact is transmitted, and the gas leak alarm device is not connected. Each time is detected, it is possible to prevent data from being transmitted, so that communication charges can be reduced. Moreover, the management side can determine that the connection between the gas leak alarm device and the gas meter has been disconnected without confirming the connection with the gas leak alarm device by receiving the notification of the disconnection detection. It is possible to save the trouble of confirming the presence or absence of connection of the gas leak alarm device installed at the gas consuming destination, and to obtain a gas meter with a reduced cost.
[0053]
According to the second aspect of the present invention, it is possible to obtain a gas meter that can transmit data only when disconnection is detected simply by controlling two connection flags of the first and second connection flags.
[0054]
According to the third aspect of the present invention, the setting time of the use time cutoff is controlled by changing the first connection flag between on and off, that is, between when the gas leak alarm is connected and when it is not connected. A gas meter capable of transmitting data when disconnection is detected more easily by using the one connection flag can be obtained.
[0055]
According to the invention as set forth in claim 4, when the installation place of the gas meter is changed, if the gas meter is returned to the connection initial state by the reset means, according to the presence or absence of the gas leak alarm at the new installation place, Since disconnection can be detected, a gas meter that can accurately detect disconnection even when the installation location is changed can be obtained.
[0056]
According to the fifth aspect of the present invention, it is not necessary to separately perform the operation of resetting the connection to the initial state and the operation of switching from the normal mode to the shipping mode and from the shipping mode to the normal mode. be able to.
[Brief description of the drawings]
FIG. 1 is a block diagram showing an embodiment of a gas meter according to the present invention.
FIG. 2 is a flowchart showing a processing procedure of a CPU 18a2 in a flag control processing I.
FIG. 3 is a flowchart showing a processing procedure of a CPU 18a2 in a flag control processing II.
FIG. 4 shows states of a mask flag and a non-connection flag as a result of performing the flag control processes I and II.
FIG. 5 is a flowchart showing a processing procedure of a CPU 18a2 in a meter reading process.
[Explanation of symbols]
18a2 CPU (connection / disconnection detection means, disconnection detection means, transmission means, first flag control means, second flag control means, reset means, use time cutoff means, change means)
20 Gas leak alarm

Claims (5)

Connection / non-connection detection means for detecting connection / non-connection of the gas leak alarm;
From the connection initial state in which the connection / non-connection detecting means has never detected the connection, to the connected state in which the connection has been detected even once, in response to the detection of the non-connection Disconnection detecting means for detecting disconnection of the gas meter and the gas meter,
A gas meter, comprising: transmission means for transmitting data notifying the disconnection in response to detection of the disconnection. The gas meter according to claim 1, wherein
First flag control means for turning on or off a first connection flag indicating whether or not the gas leak alarm is connected, according to a detection result of the connection / non-connection detection means;
Second flag control means for turning on or off a second connection flag indicating whether the connection is in the initial state or in the connected state according to a detection result of the connection / non-connection detection means,
The gas meter, wherein the disconnection detecting means detects the disconnection based on states of the first and second connection flags. The gas meter according to claim 2, wherein
A use time cutoff means for cutting off gas supply when the gas use time is equal to or longer than a predetermined set time,
A gas meter, comprising: changing means for changing the set time depending on whether the first connection flag is on or off. The gas meter according to claim 1, 2 or 3, wherein
The gas meter further comprising reset means for resetting to the connection initial state. The gas meter according to any one of claims 1 to 4, wherein
The reset is performed when it is possible to switch between a shipping mode in which the connection and non-connection are not detected and a low power consumption state is performed and a normal mode in which the connection and non-connection is detected and the normal power consumption state is performed. The gas meter performs the reset according to a switching operation from the normal mode to the shipping mode or a switching operation from the shipping mode to the normal mode.

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