JP4323762B2 - Automatic notification device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an automatic notification device, and more particularly to an automatic notification device that automatically notifies the management side device 4 of information such as meter reading data such as gas, water supply, electricity, and abnormality detection information.
[0002]
[Prior art]
Conventionally, as shown in FIG. 6, an automatic notification device 2 is connected to a gas meter 1 installed in a general house, an apartment house, a business facility, etc. via a signal line 3. This automatic reporting device 2 automatically reports data such as meter reading values and gas leakage abnormality detection information in the gas meter 1 to the management center 4 of the gas company via a communication line 6 connected to the public network 5. Yes. On the management center 4 side, a plurality of gas meters 1 are centrally monitored based on this automatic notification, thereby calculating a gas usage fee and preventing a gas leakage accident.
[0003]
Such an automatic notification device 2 performs an active mode for performing a notification operation with a large current consumption, a notification operation, and the like in order to reduce the consumption of a battery (not shown) as a driving power source as much as possible and extend the battery life. A sleep mode that consumes less current so that only the necessary parts are allowed to function.
[0004]
For example, the automatic notification device 2 starts communication with the gas meter 1 when receiving an activation request signal from the gas meter 1 via the signal line 3 when a gas leak abnormality occurs in the gas meter 1, and detects gas leak abnormality detection information from the gas meter 1. And the like are notified to the management center 4 via the communication line 6.
[0005]
The activation request signal from the gas meter 1 is usually defined by a pulse signal having a predetermined width (for example, 800 ms to 1200 ms). The automatic notification device 2 is normally in a sleep mode that consumes less current except during a notification operation. However, when the activation request signal is received, the operation mode is activated from the sleep mode by detecting the rising edge. Enter mode. Next, the automatic notification device 2 observes the pulse width of the activation request signal, confirms that it is the activation request signal if the pulse width is a predetermined pulse width (for example, 800 ms to 1200 ms), and communicates with the gas meter 1. Start.
[0006]
However, if the automatic notification device 2 is installed in a field or the like where a strong magnetic field is generated, the automatic notification device 2 operates in an active mode due to external noise even when not in automatic notification, and consumes a large current. There is.
[0007]
That is, in a field that is easily affected by external noise, a noise signal having a predetermined pulse width of the start request signal of the gas meter 1, for example, a pulse width that is less than 800 ms, frequently enters the automatic notification device 2. Device 2 will be in active mode. However, since the pulse width of the noise signal is less than 800 ms, the automatic notification device 2 does not recognize this noise signal as an activation request signal, and therefore communication with the gas meter 1 is not performed. Misreporting due to was prevented.
[0008]
As described above, since the automatic notification device 2 may change its operation mode from the sleep mode to the active mode due to the noise signal other than during the notification operation, the battery capacity of the automatic notification device 2 is, for example, It was designed by adding the power that would normally be consumed in 10 years of operation to the power that would be consumed due to noise or the like that was predicted in advance.
[0009]
[Problems to be solved by the invention]
However, if the automatic notification device 2 described above is installed in a place where noise is likely to occur, the transition from the sleep mode to the active mode occurs frequently. For example, even if the battery life is designed to be 10 years, the automatic notification is performed. Depending on the environment in which the apparatus 2 is installed, the battery is quickly consumed, and there is a problem that the service life is not long. When such a problem occurs, there is a possibility of developing a complaint from the user, and thus a quick response has been desired.
[0010]
Therefore, in order to solve such a problem, in the conventional automatic notification device 2, the capacity of the battery is designed to be large, or a function for preventing the erroneous notification due to the noise described above has been added to the automatic notification device 2. .
[0011]
In addition, if the automatic notification device 2 erroneously reports to the management center 4 due to the occurrence of noise, the management center 4 can be made to recognize that the environment is abnormal, but the automatic notification device 2 can prevent erroneous notification due to noise. Since it is rare that an erroneous notification is made if the function is provided, it is difficult for the management center 4 to recognize the noise generation state in the automatic notification device 2. In order for the management center 4 to recognize the noise occurrence state, the automatic notification device 2 has to add a function for counting the number of noise occurrences, but the function can be added or the battery capacity can be increased. Then, there arises a problem that the unit price of the automatic notification device 2 increases.
[0012]
In addition, it is possible to minimize wasteful operations due to the effects of noise, etc., but it is impossible to completely reduce the power consumed by the occurrence of noise, and it is installed in an environment where noise frequently occurs. In this case, the problem of shortening the battery life could not be solved.
[0013]
Therefore, in view of the above-described problems, an object of the present invention is to provide an installation availability determination device and an automatic notification device that can prevent installation in an environment that affects battery consumption.
[0014]
[Means for Solving the Problems]
In order to solve the above-mentioned problem, the automatic notification device according to claim 1 according to the present invention comprises a battery as a driving power source as shown in the basic configuration diagram of FIG. Through 22 Regular signal Is received Transition from sleep mode to active mode, the normal signal Is sent to the management-side device 4 that manages the meter via the second communication line 25, the request detection means 301a1 for detecting a determination start request from the outside of the device body, and the request detection In response to the detection of the means 301a1, whether or not the place where the apparatus main body is installed is a place where the installation is not likely to be adversely affected by the battery remaining amount due to the surrounding environment. In a state where the regular signal is not input, Installation availability determination means 301a2 that is determined based on a determination result obtained by determining the presence or absence of a noise signal based on the presence or absence of an input signal from at least one of the first communication line and the second communication line; and the installation availability determination means 301a2. of The noise signal If there is a judgment result that it is impossible to install or The noise signal Determination result information generating means 301a3 for generating determination result information for notifying the determination result that it can be installed when there is no information, and the notification based on the determination result information generated by the determination result information generating means 301a3 Output means 301a4 for outputting the determination result information in order to perform the process.
[0015]
According to the automatic notification device of the present invention described in claim 1, when the request detection unit 301a1 detects the determination start request, the location where the device main body is installed adversely affects the remaining battery level due to the surrounding environment. Whether it is an impossible place to install In a state where the regular signal is not input, It is determined by the installation availability determination unit 301a2 based on the determination result of determining the presence or absence of a noise signal based on the presence or absence of an input signal from at least one of the first communication line and the second communication line. Then, determination result information generating means 301a3 is a determination result information generation unit 301a3 for notifying the determination result that the installation is impossible when there is an input signal or the determination result that the installation is possible when there is no input signal. In order to make a notification based on the determination result information, the determination result information includes, for example, a display unit of the apparatus main body, a display unit of an external device connected to the apparatus main body, and the management-side apparatus 4. Is output by the output unit 301a4 to a transmitting / receiving unit capable of transmitting / receiving the data. Therefore, when a determination start request is detected, it is determined whether or not the location where the device body is installed is a location where the battery capacity is adversely affected by the surrounding environment, and the determination result is notified. Since the determination result information for output is output, an operator, an administrator, or the like can easily check whether or not the installation is possible by requesting the start of determination when the automatic notification device is installed. Therefore, since it is possible to prevent the automatic notification device from being installed at a location where abnormal noise or the like frequently occurs, it is possible to suppress as much as possible that the battery is consumed due to the adverse effects of the surrounding environment.
[0016]
In order to solve the above-mentioned problem, the invention according to claim 2 is as shown in a basic configuration diagram of FIG. 1, and in the automatic notification device according to claim 1, the request detection means 301 a 1 The detection unit is configured to perform the detection based on data received from the management side device 4 via a communication line, and the output unit 301a4 may perform the notification based on the determination result information in the management side device 4. The above-mentioned output is performed.
[0017]
According to the automatic notification device of the present invention described in claim 2, the request detection unit 301a1 detects the determination start request based on the data received from the management side device 4. Then, the determination result information indicating the determination result according to the detection is output to, for example, the transmission / reception unit or the like by the output unit 301a4 and transmitted to the management side device 4, and the management side device 4 notifies based on the determination result information. Is done. Therefore, since it is determined whether or not installation is possible according to the determination start request received from the management-side apparatus 4 and the determination result is notified by the management-side apparatus 4, for example, after the automatic notification apparatus is installed Therefore, it is possible to detect a change in the surrounding environment. Therefore, even after the installation, even if the surrounding environment changes to an environment that adversely affects the remaining battery level, the change can be detected. Thus, it is possible to avoid such a problem that a battery designed to have a battery life of, for example, 10 years does not have the service life.
[0018]
In order to solve the above-mentioned problem, the invention according to claim 3 is characterized in that, as shown in the basic configuration diagram of FIG. If it is determined that the location is not a correct location, the information processing unit 301a5 further includes a handling information generation unit 301a5 that generates handling information for supporting the elimination of the cause. The output unit 301a4 further includes the handling information generated by the handling information generation unit 301a5. The countermeasure information is output in order to display based on the above.
[0019]
According to the automatic notification device of the present invention described in claim 3 above, when it is determined by the installation availability determination means 301a2 that the location is not possible, the countermeasure information for supporting the elimination of the cause is the countermeasure information generation means. Generated by 301a5. Then, in order to display based on the generated output information, the countermeasure information is output by the output unit 391a4. Therefore, by generating countermeasure information when it is determined that it is not a place that can be installed, and displaying based on this countermeasure information, workers, managers, etc. can easily place an automatic reporting device at a place where it can be installed. Can be installed. Therefore, it is possible to more reliably prevent the automatic notification device from being installed at a place where abnormal noise or the like frequently occurs, so that it is possible to suppress the battery from being consumed due to the adverse effects of the surrounding environment as much as possible. be able to.
[0020]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, an embodiment of an automatic notification device according to the present invention will be described with reference to the drawings of FIGS.
[0021]
FIG. 2 is a configuration diagram of an automatic notification system using the automatic notification device of the present invention, and FIG. 3 is a circuit configuration diagram of the automatic notification device of the present invention. In the automatic notification system shown in FIG. 2, the automatic notification device 20 is connected to a telephone 21 and a plurality of microcomputer-equipped gas meters (hereinafter simply referred to as gas meters) 23a to 23 through a signal line 22 as a first communication line. 23n, and is further connected to a management center (corresponding to a management side device) 4 via an exchange 24 and a telephone line 25 as a second communication line.
[0022]
In FIG. 3, the automatic notification device 20 has terminals L [1] and L [2] connected to a telephone line 25, terminals T [1] and T [2] connected to a subscriber telephone 21, and terminals TA [1] to TA [n] are connected to the other end of the signal line 22 whose one end is connected to the gas meters 23a to 23n.
[0023]
The automatic notification device 20 includes a microcomputer (MPU) 301. The MPU 301 includes a central processing unit (CPU) 301a that operates based on a predetermined control program, a ROM 301b that is a read-only memory that stores a control program, and a RAM 301c that is a readable / writable memory that stores various data. A PROM 301d, which is an electrically rewritable memory that stores various setting data and can retain stored contents without a backup power supply, and a clock that generates year / month / date / time (real time) data and supplies it to the CPU 301a A calendar 301e is incorporated. Note that the contents of the counter of the clock / calendar 301e can be rewritten by data supplied from the CPU 301a, and the data for the year / month / day / day / day generated by the clock / calendar 301e can be corrected.
[0024]
A modem (modulation / demodulation circuit of FSK communication system) 302 is connected to the input / output parallel port of the MPU 301 via a data bus, and 4-bit parallel data representing numeric characters 0 to 9 and A to F that can be processed by the MPU 301; Conversion between signals transmitted through the telephone line 25 is performed. As a signal to be transmitted, for example, an FSK signal representing a mark and a space by a combination of signals of two frequencies is used. Further, a plurality of gas meters 23a, 23b,..., 23n are connected to a plurality of input / output serial ports of the MPU 301 via terminals TA [1] to TA [n].
[0025]
The output of the battery voltage drop detection circuit 303 is directly connected to the input port of the MPU 301, and the outputs of the 16 Hz detection circuit 304 and the TEL detection circuit 305 are respectively connected via the photocouplers PC [1] and PC [2]. It is connected.
[0026]
The battery voltage drop detection circuit 303 detects that the voltage of the battery 306 made of a lithium battery or the like as a drive power supply has dropped below a certain value and outputs a detection signal. The MPU 301 receives this detection signal via the input port. Read. The DC-DC converter 306a boosts the voltage of the battery 306 and supplies it to each unit as the operation power supply for the MPU 301 itself and other parts. However, a control signal from the output port of the MPU 301 is not required for the part that does not always need to be supplied. Is supplied via a switching transistor Q [1] which is turned on / off by the switch. The operation of the DC-DC converter 306 a is also controlled to be turned on / off by a control signal from the output port of the MPU 301.
[0027]
The input of the 16 Hz detection circuit 304 is switched by a control signal from the MPU 301 and is connected to the terminals L [1] and L [2] to which the telephone line 25 is connected via the switch SW [1] and SW [2] interlocking with each other. And a terminal T [2] to which the subscriber telephone 21 is connected.
[0028]
The 16 Hz detection circuit 304 detects a 16 Hz call signal (for example, a no-ring incoming call signal or a telephone incoming call signal) indicating that an incoming call is being input from the outside through the telephone line 25, and detects the detected signal. Is output to the MPU 301 via the photocoupler PC [1]. One input of the TEL detection circuit 305 is connected to the terminal L [1] via the changeover switch SW [1], and the other input is the other terminal T [to which the subscriber telephone 21 is connected. 1]. Then, the TEL detection circuit 305 detects that the subscriber telephone 21 is in use, and outputs the detection signal to the MPU 301 via the photocoupler PC [2].
[0029]
The changeover switches SW [1] and SW [2] are used when the automatic notification device 20 has to notify the management center 4 due to the occurrence of a calling event (for example, abnormal gas leakage) of the gas meters 23a to 23n, or management. When data is received from the center 4, the control signal output from the MPU 301 is switched to the side opposite to the state shown in the figure.
[0030]
The other input port of the MPU 301 includes a test switch 307a that is operated when starting a test for inspecting the communication function of the automatic notification system 20 itself, and a reset operation of the MPU 301 to start from an initial state. A reset switch 307b operated by the data center, and a data setting switch operated to receive setting data sent from the management center 4 and store it in a predetermined area of the RAM 301c or store it in the gas meters 23a to 23n. 307c are connected to each other.
[0031]
The base of the switching transistor Q [2] is connected to the output port of the MPU 301 via the photocoupler PC [3]. When the switching transistor Q [2] is turned on via the photocoupler PC [3] under the control of the MPU 301, the telephone line 25 is coupled to the coupling transformer via the full-wave rectifier 309 and the transistor Q [2]. Connected to the primary winding L1 of T. The primary winding L1 of the coupling transformer T functions as a pseudo load for the telephone line 25, and the modem 302 is connected to the secondary winding L2.
[0032]
Further, an LED control circuit 311 for controlling lighting / extinction of the LED 310 is connected to the output port of the MPU 301. The LED control circuit 311 performs lighting control of the LED 310 based on information output from the MPU 301. For example, if it is determined that the installation is possible, the LED 310 is lit for 5 seconds, and if it is determined that the installation is impossible, the LED 310 is controlled to blink for 5 seconds.
[0033]
The changeover switch 311 connects the subscriber telephone 21, the 16 Hz detection circuit 304 and the TEL detection circuit 305 or the full-wave rectifier 309 to the telephone line 25 in the state shown in the figure, and in the state opposite to the state shown in the figure, the telephone line 25, only the subscriber telephone 21 is connected. Therefore, when the changeover switch 311 is in the state shown in the figure and the changeover switches SW [1] and SW [2] are switched from the state shown in the figure to the opposite side, the subscriber telephone 21, the 16 Hz detection circuit 304, and the TEL detection circuit 305. Is disconnected from the telephone line 25, and instead, only the full-wave rectifier 309 is connected, and data can be exchanged with the management center 4 via the modem 302.
[0034]
The functions performed by the MPU 301 in accordance with a predetermined program include a gas meter reading function, a battery voltage drop detection function, a clock and calendar function, a transmission control function, etc., a setting data setting function, an abnormality inspection function, an erroneous connection inspection function, a current Capacity drop detection and its information generation and retention function, automatic notification detection and its information generation and retention function, power failure status accumulated time detection and its information generation and retention function, no ringing incoming call count detection and its Information generating and holding function, detecting the number of calls and generating and holding the information, detecting the number of incoming and outgoing calls and generating and holding the information, and the remaining amount of the battery 306 according to the present invention. There is a function to determine whether or not the installation is impossible.
[0035]
Each gas meter 23a to 23n adds a device number set in its own gas meter together with meter reading information, abnormality detection information and the like to a message when it makes a call, and sends it to the automatic notification device 20. Instrument numbers “01”, “02”..., “0n” are set in the gas meters 23a to 23n, respectively.
[0036]
[First Embodiment]
Next, an example of a processing outline according to the present invention executed by the CPU 301a in the first embodiment will be described based on the flowchart shown in FIG. FIG. 4 is a flowchart showing an outline of processing in the first embodiment executed by the CPU of FIG.
[0037]
When the CPU 301a is activated by the supply of power from the battery 306, a normal process is executed in step S11, and when the process ends, the process proceeds to step S12.
[0038]
In the normal process, for example, the presence or absence of input signals from the terminals TA [1] to TA [n] is determined. When an input of a signal corresponding to the activation request signal is detected, communication with the gas meters 23a to 23n that output the activation request signal is started, and data received from the gas meters 23a to 23n is transmitted via the telephone line 25. It is transmitted to the management center 4 and the process ends and returns. If it is determined that there are no input signals from the terminals TA [1] to TA [n], the process is terminated and the process returns.
[0039]
In step S2, for example, when both the test switch 307a and the reset switch 307b are kept pressed for a predetermined time (for example, 5 seconds), it is considered that a determination start request has occurred, and this determination start request is detected. It is determined whether or not it has been done. In this embodiment, when a determination start is requested, the operator or the like presses a plurality of switches almost simultaneously, but the operation method such as pressing only one switch depends on the product specifications of the automatic notification device 20. It is determined accordingly.
[0040]
If it is determined that a determination start request has not been detected (N in step S2), the process returns to step S1 to repeat a series of processes. On the other hand, if it is determined that the determination start request is detected (Y in step S2), the mode is shifted to the setting availability mode, and the process proceeds to step S3. In step S3, a monitoring timer that times out when a designated monitoring time (for example, about 5 minutes) elapses is started, and then the process proceeds to step S4.
[0041]
In step S4, it is determined whether or not noise is detected by determining the presence or absence of input signals from the terminals TA [1] to TA [n]. In the present embodiment, after both the test switch 307a and the reset switch 307b are pressed and the automatic notification device 20 is shifted to the setting availability mode, regular signals are received from all external devices such as the gas meters 23a to 23n. Is assumed to be instructed by an operator or the like so that it is not input to the automatic notification device 20. Therefore, when a signal is input from the terminals TA [1] to TA [n] during the setting availability mode, it can be determined that the signal is noise.
[0042]
If it is determined that no noise is detected (N in step S4), it is determined in step S5 whether or not the monitoring timer has timed out. If it is determined that the time-out has not occurred (N in step S5), the process returns to step S4, and a series of processes for monitoring noise is repeated. On the other hand, if it is determined that a timeout has occurred (Y in step S5), the process proceeds to step S6.
[0043]
In step S6, for notifying an operator, a manager, or the like of a determination result that the installation is not possible due to an adverse effect on the remaining amount of the battery 306 depending on the environment around the place where the automatic notification device 20 is installed. Determination result information is generated in the RAM 301c, and then the process proceeds to step S8.
[0044]
If it is determined in step S4 that noise has been detected (Y in step S4), in step S7, the installation of the battery 306 is adversely affected by the surrounding environment where the automatic notification device 20 is installed. Determination result information for notifying the operator, the manager, etc. of the determination result that the location is impossible is generated in the RAM 301c, and then the process proceeds to step S8.
[0045]
In step S8, the determination result information in the RAM 301c is output to the LED control circuit 311. After the setting enable / disable mode is canceled, the process returns to step S1, and a series of processes is repeated. Then, the LED control circuit 311 performs lighting control of the LED 310 according to the output determination result information.
[0046]
Therefore, as is clear from the above description, step S2 is a determination start request detecting means for detecting a determination start request from the outside of the apparatus main body, and steps S4 to S5 are installation problems that are adversely affected by the remaining amount of the battery 306. Installation availability determination means for determining whether or not it is possible based on at least the line state of the communication line (first communication line) 22, determination result information for step S6 or S7 to notify the determination result Since the determination result information generating means to generate and the output means for outputting the determination result information in order for step S8 to perform notification based on the determination result information, respectively, the CPU 301a is used in the first embodiment. Functions as a determination start request detection unit, an installation availability determination unit, a determination result information generation unit, and an output unit.
[0047]
Next, an example of the operation (action) in the first embodiment having the above-described configuration will be described below.
[0048]
For example, when the automatic notification device 20 is installed and the supply of power from the battery 306 is started, the automatic notification device 20 receives a start request signal from the gas meters 23a to 23n and a determination start request for requesting installation determination. Occurrence is monitored. When a determination start request generated by a switch operation by an operator or the like is detected, each terminal TA [1] to TA [1] to during the setting availability mode from the time of detection until the monitoring time elapses. The input of a noise signal from TA [n] is monitored.
[0049]
If no noise signal input is detected during the setting enable / disable mode, the LED 310 is lit for about 5 seconds as a determination result, and then normal processing is resumed. Therefore, the operator or the like confirms that the LED 310 is turned on, and confirms that it is not an impossible place for installation that is adversely affected by the remaining amount of the battery 306 due to the environment around the place where the automatic notification device 20 is installed. Can do.
[0050]
Further, when an input of a noise signal is detected during the installation availability mode, the LED 310 blinks for about 5 seconds as a determination result, and then normal processing is resumed. Therefore, the operator or the like confirms that the LED 310 is blinking, thereby confirming that the location where the automatic notification device 20 is installed is a place where the installation of the battery 306 is adversely affected by the surrounding environment. Can do. Then, after performing measures such as shortening the length of the signal line 22 connected to the gas meters 23a to 23n, separating the signal line 22 from the power line, external equipment, etc., changing the signal line 22 to a shield line, etc. By determining whether or not the battery can be installed, a factor that adversely affects the remaining amount of the battery 306 can be eliminated.
[0051]
As described above, when the automatic notification device 20 detects the determination start request, is the location where the device main body is installed an unusable location where the remaining environment of the battery 306 is adversely affected by the surrounding environment? In order to output the determination result information for notifying the determination result and notifying the determination result, the operator, the administrator, etc. request the start of determination at the time of installation of the automatic notification device 20, so that it can be installed at a place where the installation is possible. It can be easily confirmed whether or not there has been. Therefore, since it is possible to prevent the automatic notification device from being installed at a location where abnormal noise or the like frequently occurs, it is possible to suppress as much as possible that the battery 306 is consumed due to the adverse effects of the surrounding environment. .
[0052]
[Second Embodiment]
In the first embodiment described above, the case where the determination start is requested by the operator's switch operation with respect to the automatic notification device 20 has been described. In the second embodiment, the management center 4 requests the determination start. The case will be described with reference to the flowchart shown in FIG. FIG. 5 is a flowchart showing an outline of processing in the second embodiment executed by the CPU of FIG.
[0053]
When the CPU 301a is activated by the supply of power from the battery 306, a normal process is executed in step S11, and when the process ends, the process proceeds to step S12. Note that the normal processing is the same as in the first embodiment, and a description thereof will be omitted.
[0054]
In step S12, it is determined whether a determination start request is received from the management center 4. If it is determined that a determination start request has not been received (N in step S12), the process returns to step S11 and waits for a determination start request from the management center 4 while repeating a series of processes. On the other hand, when it is determined that the determination start request has been received (Y in step S12), the mode is shifted to the setting availability mode, and the process proceeds to step S13.
[0055]
In step S13, when a designated monitoring time (for example, about 5 minutes) elapses, a monitoring timer that times out is started, and the process proceeds to step S4. In step S14, the presence / absence of input signals from the terminals TA [1] to TA [n] is determined to determine whether noise has been detected. In addition, as a detection method of noise, it can be set as various detection methods, such as detecting based on the predetermined noise detection time corresponding to the design value of the capacity | capacitance of the battery 306, the frequency | count of detection, etc.
[0056]
If it is determined that no noise is detected (N in step S14), it is determined in step S15 whether or not the monitoring timer has timed out. If it is determined that the time-out has not occurred (N in step S15), the process returns to step S14, and a series of processes for monitoring noise is repeated. On the other hand, if it is determined that a timeout has occurred (Y in step S15), the process proceeds to step S16.
[0057]
In step S <b> 16, a determination for notifying an operator, an administrator, or the like of a determination result that the installation is possible to be adversely affected by the remaining amount of the battery 306 due to the environment around the place where the automatic notification device 20 is installed. Result information (possible) is generated in the RAM 301c, and then the process proceeds to step S19.
[0058]
If it is determined in step S14 that noise has been detected (Y in step S14), in step S17, the installation of the battery 306 is adversely affected by the surrounding environment where the automatic notification device 20 is installed. Determination result information (impossible) for notifying the operator, the manager, etc. of the determination result that the location is impossible is generated in the RAM 301c, and then the process proceeds to step S18.
[0059]
In step S18, coping information for supporting the elimination of the cause that the automatic notification device 20 cannot be grounded is generated in the RAM 301c, and then the process proceeds to step S19. As an example of the countermeasure information, the causes such as “long wiring length” and “whether the power line is not wired nearby” are estimated based on the detected noise signal. Information indicating a coping method such as “Please shorten the length” or “Please move the wiring away from the power line” is generated.
[0060]
In step S19, a response message for transmitting the determination result information (possible) or (impossible) in the RAM 301c to the management center 4 is generated. repeat. Then, the output response message is transmitted to the management center 4 via the telephone line 25. If the determination result information indicates that the response information is not available, that is, if the countermeasure information is generated, the response information is generated by adding the countermeasure information to the determination result information.
[0061]
Therefore, as is apparent from the above description, determination start request detecting means for detecting a determination start request from the management center 4 in step S12, and steps S14 to S15 being unfavorable to the remaining amount of the battery 306 cannot be installed. Installation determination unit for determining whether or not the location is at least based on the line state of the communication line (first communication line) 22, generating determination result information for the step S 16 or S 17 to notify the determination result Determination result information generating means for outputting, output means for outputting the determination result information to the modem 302 in order for step S8 to make a notification based on the determination result information, and handling information for assisting in eliminating the cause of the installation impossible In the first embodiment, the CPU 301a is described in the claims. Determination start request detection means, placed determination means, the determination result information generating means, output means, and functions as address information generating means.
[0062]
Next, an example of the operation (action) in the second embodiment having the above-described configuration will be described below.
[0063]
For example, when the automatic notification device 20 is installed and the supply of power from the battery 306 is started, the automatic notification device 20 receives a start request signal from the gas meters 23a to 23n and a determination start request for requesting installation determination. Occurrence is monitored. Then, when a determination start request is received from the management center 4, from the time of detection until the monitoring time elapses, that is, from each of the terminals TA [1] to TA [n] in the setting availability mode. The noise signal input is monitored.
[0064]
When the setting availability mode ends, determination result information indicating the determination result is transmitted to the management center 4, and then the normal process is resumed. And in the management center 4, the notification based on the received determination result information is performed by a display apparatus etc., and the administrator etc. can confirm a determination result by this notification.
[0065]
In addition, when it is determined that the location where the automatic notification device 20 is installed is a place where the installation of the battery 306 is adversely affected by the surrounding environment, the management center 4 determines the cause based on the countermeasure information. Since a coping method and the like for supporting the resolution is notified, the manager or the like can promptly arrange the coping. Therefore, by periodically transmitting a determination start request from the management center 4 to each automatic notification device 20, it is possible to detect that the environment has changed from installable to installable after installation. It is possible to prevent the automatic notification device 20 from being installed or being continuously installed at a place where the remaining amount is adversely affected and cannot be installed.
[0066]
As described above, when the automatic notification device 20 detects the determination start request, is the location where the device main body is installed an unusable location where the remaining environment of the battery 306 is adversely affected by the surrounding environment? In order to output the determination result information for notifying the determination result and notifying the determination result, the operator, the administrator, etc. request the start of determination at the time of installation of the automatic notification device 20, so that it can be installed at a place where the installation is possible. It can be easily confirmed whether or not there has been. Therefore, it is possible to prevent the automatic notification device 20 from being installed at a location where abnormal noise or the like frequently occurs, so that it is possible to suppress as much as possible that the battery 306 is consumed due to the adverse effects of the surrounding environment. it can.
[0067]
Moreover, since it determines whether installation is possible according to the determination start request | requirement received from the management center (management side apparatus) 4 and the determination result is notified in the management center 4, for example of an automatic notification apparatus By making the determination periodically after installation, it is possible to detect changes in the surrounding environment. Therefore, even if the surrounding environment changes to an environment that adversely affects the remaining amount of the battery 306 after installation, the change can be detected, so that workers, managers, etc. can quickly cope with this detection. By doing so, for example, it is possible to avoid such a problem that the battery 306 designed to have a battery life of 10 years does not have its life years.
[0068]
Furthermore, when it is determined that it is not a place where installation is possible, handling information is generated, and a display based on this handling information is performed, so that an operator, an administrator, etc. can place the automatic notification device 20 at a place where installation is possible. It can be installed easily. Accordingly, it is possible to more reliably prevent the automatic notification device 20 from being installed at a location where abnormal noise or the like frequently occurs, so that the battery 306 is consumed due to the adverse effects of the surrounding environment. It can be suppressed as much as possible.
[0069]
In addition, although this Embodiment mentioned above demonstrated the case where it determined whether installation was possible based on whether the noise signal was input from the communication line 22 during the monitoring period, this invention does this. The present invention is not limited, and various methods can be used such as detecting a noise signal based on a determination threshold determined in accordance with power consumed by noise or the like considered when designing the capacity of the battery 306.
[0070]
Further, in the present embodiment, which is Uetsu, the case where noise is detected by monitoring only the first communication line connected to the terminals TA [1] to TA [n] has been described. However, the second communication lines of the terminals L [1] and L [2] and the terminals T [1] and T [2] may be further monitored. By monitoring both the first and second communication lines in this way, it is possible to prevent the automatic notification device 20 from being installed in an environment where noise occurs in the telephone line or the like.
[0071]
As described above, the embodiment of the present invention has been described. However, the present invention is not limited to this, and various modifications and applications are possible. For example, in the above-described embodiment, the case where the present invention is applied to the automatic notification device 20 connected to the gas meter has been described. However, the present invention is applied to the automatic notification device 20 to which other meters such as water and electricity are connected. It can also be applied.
[0072]
【The invention's effect】
As described above, according to the automatic notification device of the present invention described in claim 1, when the determination start request is detected, the location where the device body is installed is adversely affected by the remaining battery level depending on the surrounding environment. In order to determine whether or not the location is impossible and to output determination result information for notifying this determination result, the operator, administrator, etc. can request the start of determination when installing the automatic notification device. Thus, it can be easily confirmed whether or not the installation is possible. Therefore, since it is possible to prevent the automatic notification device from being installed at a location where abnormal noise or the like frequently occurs, it is possible to suppress as much as possible that the battery is consumed due to the adverse effects of the surrounding environment. There is an effect.
[0073]
According to the invention described in claim 2, in addition to the effect of the invention described in claim 1, it is determined whether or not installation is possible according to the determination start request received from the management side device, and the determination result is managed. Since the notification is made by the side device, for example, a change in the surrounding environment can be detected by periodically making a determination after the automatic notification device is installed. Therefore, even after the installation, even if the surrounding environment changes to an environment that adversely affects the remaining battery level, the change can be detected. Thus, for example, a battery designed to have a battery life of 10 years has an effect that it is possible to avoid such a problem that the battery has no lifetime.
[0074]
According to the invention described in claim 3, in addition to the effect of the invention described in claim 1 or 2, the response information is generated when it is determined that the installation is not possible, and the display based on the response information is performed. By doing so, an operator, an administrator, etc. can easily install the automatic notification device at a place where it can be installed. Therefore, it is possible to more reliably prevent the automatic notification device from being installed at a place where abnormal noise or the like frequently occurs, so that it is possible to suppress the battery from being consumed due to the adverse effects of the surrounding environment as much as possible. There is an effect that can be.
[Brief description of the drawings]
FIG. 1 is a diagram showing a basic configuration of an automatic notification device according to the present invention.
FIG. 2 is a configuration diagram of an automatic notification system using the automatic notification device of the present invention.
FIG. 3 is a circuit configuration diagram of the automatic notification device of the present invention.
FIG. 4 is a flowchart showing an outline of processing in the first embodiment executed by the CPU of FIG. 2;
FIG. 5 is a flowchart showing an outline of processing in the second embodiment executed by the CPU of FIG. 2;
FIG. 6 is a configuration diagram of an automatic notification system using a conventional automatic notification device.
[Explanation of symbols]
4 Management side device (Management Center)
20 Automatic reporting device
22 First communication line (signal line)
23 meter (gas meter)
25 Second communication line (telephone line)
301a1 Request detection means (CPU)
301a2 Installation availability determination means (CPU)
301a3 determination result information generating means (CPU)
301a4 output means (CPU)
301a5 coping information generating means (CPU)

Claims (3)

When a normal signal is received from one or a plurality of meters via a first communication line using a battery as a driving power source, the meter shifts from a sleep mode to an active mode, and the normal signal is transferred to the meter via a second communication line. An automatic notification device that reports to the management side device that manages
Request detection means for detecting a determination start request from the outside of the apparatus body;
Depending on the detection of the request detection means, the installed position of the apparatus main body, whether or not the by the surrounding environment is the non Locations The adversely affected on the remaining amount of the battery, the Installation availability determination means for determining based on a determination result of determining presence / absence of a noise signal based on presence / absence of an input signal from at least one of the first communication line and the second communication line in a state where a regular signal is not input ; ,
Determination result information for notifying the determination result that it is impossible to install when the noise signal of the installation availability determination means is present or the determination result that the installation is possible when there is no noise signal. Determination result information generating means for generating;
Output means for outputting the determination result information in order to cause the notification based on the determination result information generated by the determination result information generation means;
An automatic notification device comprising: The request detection means is configured to perform the detection based on data received from the management side device via the second communication line,
The automatic notification device according to claim 1, wherein the output unit performs the output so that the notification based on the determination result information is performed by the management-side device. When it is determined that the installation availability determination unit is not the possible location, the information processing unit further includes a handling information generation unit that generates handling information for supporting the elimination of the cause,
3. The automatic notification device according to claim 1, wherein the output unit further outputs the handling information to display based on the handling information generated by the handling information generation unit. 4.

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