JP3642955B2 - Automatic notification device and automatic notification method - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a common type automatic notification device and an automatic notification method that automatically report gas information and the like from a terminal such as a gas meter to the center.
[0002]
[Prior art]
Conventional automatic reporting devices detect gas meter readings from external gas meters and control information such as abnormal conditions, and report them to a center such as an external host computer via a telephone line. As a conventional automatic notification device of this type, for example, an automatic notification system device described in JP-A-9-64991 is known.
[0003]
FIG. 8 shows a schematic block diagram of this conventional automatic notification system apparatus. This automatic communication system apparatus automatically transmits information such as the meter 108 and the sensor 109 to the centralized monitoring center 102 via the telephone line network 103 when the terminal side is activated, and the telephone line when activated from the centralized monitoring center 102 side. A mutual activation type automatic notification device 101 capable of transmitting data via the network 103 and the subscriber telephone line 110 is provided.
[0004]
This automatic notification system device makes a call from the central monitoring center 102 to a plurality of automatic notification devices 101 connected to a single telephone line, and controls the bell ringing sound to sound a prescribed number of times to hang up the phone.
[0005]
Further, the automatic notification system apparatus disconnects the telephone 107 from the subscriber telephone line 110, the bell detection circuit 111 for detecting the bell calling signal for calling the automatic notification apparatus 101, the line current detection circuit 113 for detecting the off-hook of the telephone 107. The relay switch 124 has a function for counting the number of detections of the bell call signal and a setting function for setting the detection number count value of the bell call signal.
[0006]
If the number of detections of the bell call signal matches the set value, control is performed so that data is transmitted to the centralized monitoring center 102 by activation on the terminal side after a predetermined time, and communication is performed with the centralized monitoring center 102. .
[0007]
This operation will be described in detail with reference to FIG. First, the automatic notification device detects polarity reversal (extremely opposite) due to a change in telephone line voltage (step S101), and then detects a 16 Hz call signal (step S103).
[0008]
Then, by detecting the 16 Hz calling signal, the automatic notification device adds 1 to the number of sounds (the number of times the telephone bell has actually ringed) (step S105), and further starts the 2.5 second timer count. (Step S107).
[0009]
It is determined whether 2.5 seconds have elapsed from the start of counting (step S109). If the time has elapsed for 2.5 seconds, the number of rings (number of detected bell ringing signals) is set to the set number of incoming calls (set) Value) is determined (step S111). If the number of ringing matches the set number of incoming calls, communication is started off-hook (step S113).
[0010]
As a result, even if no ringing communication is used, it is possible to perform a normal bell call from the center and a target automatic notification device to perform data communication.
[0011]
By the way, recently, when a customer contracted for a service receives an incoming call, information such as a telephone number of the outgoing line is sent to the terminal by a modem signal through the contracted line before communication, that is, information notification before communication. Services have come to be used. As this pre-communication information notification service, for example, there is a service for notifying a telephone number of a transmission line, that is, a number display service.
[0012]
In the number display contract line (contract line for pre-communication information notification service) that performs this number display service, the calling telephone number and the outgoing telephone number extension information are automatically sent from the subscriber exchange to the receiving side and the information receiving function. And sent to an information receiving telephone having a general telephone function.
[0013]
The calling telephone number and the calling telephone number extension information are shown in FIG. As shown in FIG. 10A, the outgoing telephone number is made up of the outgoing telephone number of “0000010”, the information content length of “0000001 to 0010100”, the information content of 20 characters or less, and the JIS7 unit code information for Roman characters. Further, as shown in FIG. 10B, the outgoing telephone number extended information includes the outgoing telephone number extended information of “0100001”, the information content length of “0000011”, the number type 1 number and the number plan identifier 2 number of information contents. Etc.
[0014]
In a number display contract line, a number display signal (information receiving terminal activation signal) including information such as a calling telephone number is sent from a subscriber exchange to a 16 Hz calling signal (hereinafter called a ringing signal for ringing a telephone bell). It was sent to the automatic notification device before it was called a sound signal to distinguish it from the display signal.
[0015]
FIG. 11 shows a number display signal and a sound signal when an incoming call is received. As shown in FIG. 11, the number display signal is a signal in which 0.5 second ON (with 16 Hz) and 0.5 second OFF (without 16 Hz) are repeated, and the sound signal is 1 second. It is a signal in which ON (with 16 Hz) and OFF for 2 seconds (without 16 Hz) are repeated.
[0016]
[Problems to be solved by the invention]
However, in the number display contract line, a 16 Hz number display signal having the same frequency as the 16 Hz sound signal is transmitted to the automatic notification device 101 described above before the sound signal. Since the processing is executed according to the processing of the flowchart of FIG. 9 described above, the number display signal is mistaken as a sound signal.
[0017]
As shown in FIG. 11, when the set number of incoming calls is set to 2 times, for example, the time t ₁ In order to detect the number display signal of 16 Hz, the time t ₁ The number of incoming calls (the number of times the telephone bell rang by the automatic notification device) is counted as one. And time t ₁ T when 2.5 seconds have passed since ₂ The number of incoming calls does not match the set number of incoming calls.
[0018]
Therefore, time t _Three In order to detect the number display signal of 16 Hz, the time t _Three The number of incoming calls is counted as 2. And time t _Three T when 2.5 seconds have passed since _Four Since the number of incoming calls matches the set number of incoming calls, the incoming call arrives at this point. However, since the sound signal is after the number display signal, the bell has not actually sounded even once.
[0019]
For example, when the number of incoming calls is set to one, the automatic notification device may go off-hook while the number display signal is being received. At this time, the telephone bell was not ringing, and the telephone could hang up if it was off-hook.
[0020]
Further, there may be a deviation in the number of incoming calls. For example, if the number of incoming calls is set to 5 in the automatic notification device, and a call is received from the center and the ringback tone is detected and the incoming call is received with a frequency other than 5 times, a rejection message etc. If it is flowing, simple ringing incoming calls may not be possible.
[0021]
It is an object of the present invention to provide an automatic notification device and an automatic notification method capable of avoiding a number display signal on a number display contract line and performing a ringing incoming call with a set number of incoming calls.
[0022]
[Means for Solving the Problems]
The present invention has the following configuration in order to solve the above problems. The invention according to claim 1 is an automatic notification device that notifies terminal information to a center via a telephone line when a terminal makes a call, and receives data from the center via the telephone line and transmits the data to the terminal. A call signal of a first period including a predetermined frequency is input via the telephone line, and a pre-communication information notification signal of a second period including the predetermined frequency different from the first period is the call signal. And a ringing detection circuit for detecting the ringing signal based on the first period and the second period, and a ringing ring for counting the number of rings of the telephone set by the ringing signal detected by the ringing detection circuit. A sound counter, and a communication processing unit that performs communication with the center when the number of sounds counted by the sound counter matches a preset number of incoming calls. The paging signal is a signal having the first period as a total time of a first on-time with the predetermined frequency and a first off-time with no predetermined frequency longer than this time, and the pre-communication information notification The signal has a second period that is a total time of a second on-time having the predetermined frequency shorter than the first on-time and a second off-time shorter than the first on-time and not having the predetermined frequency. And the call detection circuit, when the pre-communication information notification signal is input before the call signal via the telephone line, the predetermined frequency of each of the pre-communication information notification signal and the paging signal. And a determination process for determining whether or not the predetermined frequency is present at a predetermined time within the first off time after the first on time has elapsed since the detection of the predetermined frequency. The determination processing executed again if it is determined that there is the predetermined frequency, and a determining unit that detects the call signal if it is determined that the predetermined frequency is not It is characterized by that.
[0023]
According to the invention of claim 1, the call detection circuit receives a call signal having a first period including a predetermined frequency via a telephone line, and performs communication having a second period including a predetermined frequency different from the first period. When the previous information notification signal is input before the ringing signal, the ringing signal is detected based on the first period and the second period, and the ringing number counter is used for ringing the telephone by the ringing signal detected by the ringing detection circuit. The communication processing unit performs communication with the center when the counted number of sounds matches the preset number of incoming calls.
[0024]
Therefore, even when the pre-communication information notification signal is input before the call signal, the pre-communication information notification signal can be avoided and ringing incoming can be performed with the set number of incoming calls.
[0026]
Also When the predetermined frequency detecting unit detects the predetermined frequency of the pre-communication information notification signal, the determining unit detects the predetermined frequency at a predetermined time within the first off time after the first on time has elapsed since the detection of the predetermined frequency. A determination process is performed to determine whether or not the predetermined frequency is present. When it is determined that the predetermined frequency is present, the determination process is performed again. When it is determined that there is no predetermined frequency, the sounding number counter counts the number of sounding sounds in order to determine that the calling signal has been detected.
[0027]
That is, the pre-communication information notification signal before the call signal can be avoided and the number of ringing can be counted accurately, so that the ringing incoming call can be performed with the set number of incoming calls.
[0028]
Claim 2 The determination unit according to the present invention may be configured such that, when only the call signal is input via the telephone line, the predetermined time after the first on-time has elapsed since the predetermined frequency of the call signal is detected. A determination process for determining the presence or absence of the predetermined frequency is performed, and it is determined that the call signal is detected when it is determined that the predetermined frequency is not present.
[0029]
Claim 2 According to the invention, when only the call signal is input via the telephone line, the determination unit has the predetermined frequency at a predetermined time after the first on-time has elapsed since the detection of the predetermined frequency of the call signal. A determination process for determining presence / absence is performed, and when it is determined that there is no predetermined frequency, it is determined that a call signal has been detected.
[0030]
That is, even in a general telephone line, the number of ringing can be accurately counted, so that ringing incoming calls can be performed with the set number of incoming calls.
[0031]
Claim 3 The total time of the second on-time and the second off-time of the invention is substantially the same as the first on-time, and the fixed time is substantially the same as the first on-time. Features.
[0032]
Claim 3 According to the invention, the call signal is obtained by setting the total time of the second on-time and the second off-time to be substantially the same as the first on-time and the fixed time to be substantially the same as the first on-time. Can be easily distinguished from the pre-communication information notification signal, and the pre-communication information notification signal can be avoided.
[0033]
Claim 4 The invention is an automatic reporting method for reporting terminal information to a center via a telephone line by calling a terminal, and receiving data from the center via the telephone line and transmitting the data to the terminal, A first cycle call signal including a predetermined frequency is input via the telephone line, and a second cycle pre-communication information notification signal including the predetermined frequency different from the first cycle is provided before the call signal. When input, a call detection step for detecting the ringing signal based on the first period and the second period, and a ringing number step for counting the number of ringing of the telephone by the detected ringing signal, are counted A communication processing step of performing communication with the center when the number of ringing sounds matches a preset number of incoming calls.
[0034]
Also The paging signal is a signal having the first period as a total time of a first on-time with the predetermined frequency and a first off-time with no predetermined frequency longer than this time, and the pre-communication information notification The signal has a second period that is a total time of a second on-time having the predetermined frequency shorter than the first on-time and a second off-time shorter than the first on-time and not having the predetermined frequency. And when the pre-communication information notification signal is input before the paging signal via the telephone line, the call detection step includes the predetermined frequency of each of the pre-communication information notification signal and the paging signal. A predetermined frequency detecting step for detecting the predetermined frequency, and a determination for determining the presence or absence of the predetermined frequency at a predetermined time within the first off time after the first on time has elapsed since the detection of the predetermined frequency. Performing the determination process again when it is determined that the predetermined frequency is present, and determining that the call signal is detected when it is determined that the predetermined frequency is not present. To do.
[0035]
Claim 5 In the determination step of the present invention, when only the call signal is input via the telephone line, the determination step is performed at the predetermined time after the first on-time has elapsed since the predetermined frequency of the call signal is detected. A determination process for determining the presence or absence of the predetermined frequency is performed, and it is determined that the call signal is detected when it is determined that the predetermined frequency is not present.
[0036]
Claim 6 The total time of the second on-time and the second off-time of the invention is substantially the same as the first on-time, and the fixed time is substantially the same as the first on-time. Features.
[0037]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of an automatic notification device and an automatic notification method of the present invention will be described below with reference to the drawings. FIG. 1 shows a schematic block diagram of an embodiment of the automatic notification device of the present invention. FIG. 2 shows a configuration block diagram of an automatic notification system including the automatic notification device of the embodiment.
[0038]
In FIG. 2, an automatic notification device 4 is connected to a center 1 that performs centralized monitoring via an exchange 2a, a telephone line 3a, an exchange 2b such as a subscriber exchange, and a telephone line 3b such as a subscriber telephone line. The automatic notification device 4 is connected with a telephone 5 and a plurality of gas meters 7a to 7n.
[0039]
The exchange 2b sends a number display signal and a ringing sound signal to the automatic notification device 4 through the telephone line 3b. The telephone line 3b is a number display contract line.
[0040]
The center 1 receives gas information from the call of the gas meters 7a to 7n from the automatic notification device 4, creates setting data for setting the automatic notification device 4 and the gas meters 7a to 7n, and calls the setting data to the telephone. The automatic notification device 4 and the gas meters 7a to 7n are set via the line.
[0041]
1 includes a 16 Hz detection circuit 11, a polarity inversion detection circuit 13, a line current detection circuit 15, a rectifier circuit 17, a DC closing circuit 18, a modem circuit 19, a changeover switch 21, and an off-hook detection circuit. 23, a control unit 27, and an interface 29. A gas meter 7 a and the like are connected to the interface 29, and the telephone 5 is connected to the changeover switch 21.
[0042]
The 16 Hz detection circuit 11 detects a call signal for calling the telephone 5, detects a 16 Hz call signal indicating that an incoming call is being input via the telephone line 3b, and controls the detected call signal. To the unit 27. The 16 Hz detection circuit 11 includes a 16 Hz detection unit 31, a 16 Hz detection power supply 33, a 1.5 second timer 35, a 1 second timer 37, and a 16 Hz presence / absence determination unit 39.
[0043]
The 16 Hz detection unit 31 detects a 16 Hz signal included in each of the number display signal and the sound signal after the extreme opposition. The 16 Hz detection power source 33 is a power source that operates the 16 Hz detection unit 31.
[0044]
The 1.5 second timer 35 starts counting when the 16 Hz detection unit 31 detects a 16 Hz signal, and gives an ON instruction to the 16 Hz detection power source 33 after 1.5 seconds and outputs a start signal to the 1 second timer 37. To do.
[0045]
The 1-second timer 37 outputs a start signal from the 1.5-second timer 35 to the 16 Hz presence / absence determination unit 39, starts counting from the time when the start signal is input, and outputs an end signal after the passage of 1 second to the 16Hz presence / absence determination unit 39. Output to.
[0046]
The 16 Hz presence / absence determination unit 39 performs a determination process for determining the presence / absence of a 16 Hz signal for 1 second after a lapse of 1.5 seconds from the detection of the 16 Hz signal of the number display signal by the start signal and the end signal from the 1 second timer 37. When it is determined that there is a 16 Hz signal, the determination process is executed again, and when it is determined that there is no 16 Hz signal, it is processed that a sound signal is detected.
[0047]
The polarity inversion detection circuit 13 detects the polarity inversion of the telephone line at the time of normal incoming call and outputs a polarity inversion detection signal to the control unit 27. The line current detection circuit 15 detects the current flowing through the telephone line 3 b and outputs it to the control unit 27 when the telephone 5 closes the telephone line in response to the 16 Hz call signal.
[0048]
The rectifier circuit 17 rectifies the voltage in the telephone line 3 b and supplies a constant voltage to the DC closed circuit 18 and the modem 19. In response to a control signal from the control unit 27, the DC closing circuit 18 closes the telephone line 3b with a transformer (not shown) to place the telephone line 3b in a talking state or open the telephone line 3b.
[0049]
The modem 19 is connected to the control unit 27, and performs conversion between 4-bit parallel data representing numbers 0 to F and a signal transmitted via the rectifier circuit 17 and the telephone line 3b.
[0050]
The change-over switch 21 is connected to an off-hook detection circuit 23 on the automatic notification device side when data is transmitted to and from the center 1 via a telephone line, and the telephone 5 is used when a call is made via the telephone line. Connected to the side.
[0051]
The changeover switch 21 is controlled by a control signal output from the control unit 27 when the automatic notification device has to notify the center 1 due to the occurrence of a calling event such as the gas meter 7a or when data is received from the center 1. Can be switched.
[0052]
The off-hook detection circuit 23 detects the off-hook of the telephone 5 when the automatic notification device 4 is communicating and the telephone 5 is switched to the off-hook detection circuit side, and outputs a detection signal to the control unit 27.
[0053]
The control unit 27 controls the entire automatic notification device and is connected to an external gas meter 7 a and the like via the interface 29. The control unit 27 includes a sounding number counter 41, a ringing communication processing unit 45, a set incoming call number memory 43, and a storage unit 47.
[0054]
The sounding number counter 41 increments the sounding number by 1 in response to the input of the 16 Hz absence determination signal from the 16 Hz presence / absence determination unit 39. The set incoming call count memory 43 stores a preset incoming call count. The ringing communication processing unit 45 determines whether or not the ringing frequency of the ringing frequency counter 41 matches the set incoming call count stored in the set incoming call count memory 43, and when the ringing frequency matches the set incoming call count First, ringing communication between the centers 1 is started by off-hooking.
[0055]
Next, operations of the automatic notification device and the automatic notification system of the embodiment configured as described above, that is, an automatic notification method will be described with reference to the drawings. FIG. 3 shows a basic sequence of simple ringing communication of the automatic notification system including the automatic notification device of the embodiment. First, a basic sequence of simple ringing communication will be described with reference to FIG.
[0056]
When the center 1 goes off-hook, the exchange 2b returns the DT to the center 1. Further, when the center 1 sends a selection signal to the exchange 2b, the exchange 2b sends a calling signal to the controller 4, the gas meter 7a, and the like.
[0057]
Next, when the controller 4 goes off-hook and responds to the exchange 2b, the exchange 2b sends a signal whose polarity is inverted to the center 1. Further, the controller 4 sends a mark signal as a response signal to the center 1 through the exchange 2b after being off-hooked. Then, transmission / reception of data between the center 1 and the controller 4 or between the center 1 and the gas meter 7a or the like is started.
[0058]
Further, when the center 1 sends an end message to the controller 4 via the exchange 2b, the controller 4 sends an end message in response to the center 1 to the center 1. After that, when the controller side or the center side disconnects itself due to a communication error or the like, the line is restored.
[0059]
FIG. 4 shows a time sequence of the automatic notification device according to the embodiment. Next, the time sequence of the automatic notification device will be described with reference to FIG. First, polarity inversion is detected by the polarity inversion detection circuit 13 based on the voltage from the telephone line, and then the calling signal is detected by the 16 Hz detection circuit 11.
[0060]
Further, after monitoring whether or not the telephone 5 (T terminal) is used for a time T1, the T terminal is disconnected and off-hooked. Further, after a time T2 until the response to the center 1 elapses after the off-hook, a response signal to the center 1 is sent at the time T3.
[0061]
Then, data transmission / reception (communication sequence) between the center 1 and the controller 4 is performed, and the on-hook operation is performed. After the on-hook, the telephone 5 is connected to the telephone line 3b after the time T4 has elapsed.
[0062]
FIG. 5 shows a flowchart for explaining the operation of the automatic notification device according to the embodiment. Next, the operation of the automatic notification device will be described in detail with reference to FIG. Here, it is assumed that the number display signal is sent before the sound signal.
[0063]
First, in the automatic notification device, the polarity reversal detection circuit 13 detects polarity reversal (extremely opposite) by the change in the voltage of the telephone line 3b (step S11), and the 16Hz detection unit 31 in the 16Hz detection circuit 11 A 16 Hz signal of the display signal is detected (step S13).
[0064]
Then, the count of the 1.5 second timer 35 is started (step S15), and it is determined whether the time has elapsed for 1.5 seconds (step S17). The count of the 1-second timer 37 is started (step S19).
[0065]
Then, the 16 Hz presence / absence determining unit 39 determines whether or not the 16 Hz signal is detected for 1 second after the lapse of 1.5 seconds from the detection of the 16 Hz signal of the number display signal (step S21). If a 16 Hz signal is detected, the process returns to step S15 and the determination process is executed again.
[0066]
On the other hand, if the 16 Hz signal is not detected (NO in step S21) and 1 second has elapsed (YES in step S23), the detection signal is output to the sounding number counter 41 as the sounding signal is detected. The ringing number counter 41 adds 1 to the ringing number (step S25), and outputs the counted number of ringing to the ringing communication processing unit 45.
[0067]
The ringing communication processing unit 45 reads the set incoming call count stored in the set incoming call count memory 43, and determines whether or not the ringing frequency from the ringing frequency counter 41 has reached the set incoming call count (step S27). When the number of ringing times reaches the set number of incoming calls, the ringing communication processing unit 45 goes off-hook and starts communication (step S29).
[0068]
Thus, when a 16 Hz signal is detected, the presence or absence of a 16 Hz signal for 1 second is confirmed after 1.5 seconds. If a 16 Hz signal is detected, the presence or absence of a 16 Hz signal for 1 second after 1.5 seconds is again detected. Determine. This determination process is repeated until it is confirmed that there is no 16 Hz signal by determining whether there is a 16 Hz signal for one second. Then, when it is determined that there is no 16 Hz signal, the number of sounds is set to one, and the number of sounds is compared with the set number of incoming calls.
[0069]
As a result, the number display signal before the sound signal can be avoided and the number of sounds can be accurately detected, so that communication can be performed with a preset number of incoming calls.
[0070]
(When there is a number display signal)
Next, the operation when there is a number display signal will be described in detail with reference to the timing chart of FIG. FIG. 6 shows a timing chart for explaining the avoidance process of the number display signal.
[0071]
First, the 16 Hz detection power source 33 is turned on, and the 16 Hz detection unit 31 operates at time t. ₁ When the 16 Hz signal of the number display signal is detected, the 1.5 second timer 35 starts counting from that time. Also, time t ₂ The 16 Hz detection power supply 33 is turned off.
[0072]
And the time t after 1.5 lapses from the time of detecting the 16 Hz signal _Three The 16 Hz detection power supply 33 is turned on at time t _Three To time t _Five The presence or absence of a 16 Hz signal is determined for 1 second until. In this case, the time t _Four A 16 Hz signal is detected. Therefore, time t _Four After 1.5 seconds have elapsed, the determination process for the presence / absence of a 16 Hz signal for 1 second is executed again.
[0073]
Then, the number display signal is avoided and the sound signal is input next. That is, time t ₁₁ When 16 Hz of the sound signal is detected, the time t after 1.5 lapses from the time of 16 Hz signal detection. ₁₃ To time t ₁₄ The presence or absence of a 16 Hz signal is determined for 1 second until. In this case, the time t ₁₄ 16Hz signal is not detected. For this reason, the time t when no 16 Hz signal is confirmed ₁₄ Thus, the number of sounds may be set to one and the number of sounds may be compared with the set number of incoming calls.
[0074]
In this way, even with a number display contract line, simple ringing incoming calls can be made with the set number of incoming calls.
[0075]
(When there is no number display signal)
Next, FIG. 7 shows a timing chart for explaining detection of the sound signal. The operation when there is no number display signal will be described in detail with reference to the timing chart of FIG.
[0076]
First, the 16 Hz detection power source 33 is turned on, and the 16 Hz detection unit 31 operates at time t. ₁ When the 16 Hz signal of the number display signal is detected, the 1.5 second timer 35 starts counting from that time. Also, time t ₂ The 16 Hz detection power supply 33 is turned off.
[0077]
And the time t after 1.5 lapses from the time of detecting the 16 Hz signal _Three The 16 Hz detection power supply 33 is turned on at time t _Three To time t _Five The presence or absence of a 16 Hz signal is determined for 1 second until. In this case, the time t _Four 16Hz signal is not detected. For this reason, the time t when no 16 Hz signal is confirmed _Four Thus, the number of sounds may be set to one and the number of sounds may be compared with the set number of incoming calls.
[0078]
Next, time t _Five When the 16 Hz signal of the number display signal is detected, the 1.5 second timer 35 starts counting from that time. Time t 1.5 after elapse of 16 Hz signal detection ₇ The 16 Hz detection power supply 33 is turned on at time t ₇ To time t ₈ The presence or absence of a 16 Hz signal is determined for 1 second until. In this case, the time t ₈ 16Hz signal is not detected. For this reason, the time t when no 16 Hz signal is confirmed ₈ Then, let the number of sounds be 2 times.
[0079]
Therefore, simple ringing incoming calls can be made with the set number of incoming calls even on a general line or the like.
[0080]
In this way, number display lines, lines such as general lines, number display compatible telephones (phones that form a DC loop for the number display signal), number display non-compatible (number display signals are not supported at all) Regardless of the type of telephone such as a telephone), simple ringing incoming calls can be made with the set number of incoming calls.
[0081]
It should be noted that the present invention is not limited to the automatic notification device and automatic notification system of the above-described embodiment, and can of course be implemented with various modifications without departing from the technical idea of the present invention. .
[0082]
【The invention's effect】
Claim 1 and claim 4 According to the invention, the call detection circuit receives the first cycle call signal including the predetermined frequency via the telephone line and notifies the pre-communication information of the second cycle including the predetermined frequency different from the first cycle. When the signal is input before the ringing signal, the ringing signal is detected based on the first period and the second period, and the ringing number counter counts the number of ringing of the telephone by the ringing signal detected by the ringing detection circuit. Then, the communication processing unit performs communication with the center when the counted number of sounding sounds matches a preset number of incoming calls.
[0083]
Therefore, even when the pre-communication information notification signal is input before the call signal, the pre-communication information notification signal can be avoided and ringing incoming can be performed with the set number of incoming calls.
[0084]
In addition, when the predetermined frequency detection unit detects the predetermined frequency of the pre-communication information notification signal, the determination unit performs the predetermined predetermined time within the first off time after the first on time has elapsed since the detection of the predetermined frequency. A determination process for determining the presence or absence of a frequency is performed. If it is determined that a predetermined frequency is present, the determination process is executed again. When it is determined that there is no predetermined frequency, the sounding number counter counts the number of sounding sounds in order to determine that the calling signal has been detected.
[0085]
That is, the pre-communication information notification signal before the call signal can be avoided and the number of ringing can be counted accurately, so that the ringing incoming call can be performed with the set number of incoming calls.
[0086]
Claim 2 And claims 5 According to the invention, when only the call signal is input via the telephone line, the determination unit has the predetermined frequency at a predetermined time after the first on-time has elapsed since the detection of the predetermined frequency of the call signal. A determination process for determining presence / absence is performed, and when it is determined that there is no predetermined frequency, it is determined that a call signal has been detected.
[0087]
That is, even in a general telephone line, the number of ringing can be accurately counted, so that ringing incoming calls can be performed with the set number of incoming calls.
[0088]
Claim 3 And claims 6 According to the invention, the call signal is obtained by setting the total time of the second on-time and the second off-time to be substantially the same as the first on-time and the fixed time to be substantially the same as the first on-time. Can be easily distinguished from the pre-communication information notification signal, and the pre-communication information notification signal can be avoided.
[Brief description of the drawings]
FIG. 1 is a schematic block diagram of an embodiment of an automatic notification device according to the present invention.
FIG. 2 is a configuration block diagram of an automatic notification system including the automatic notification device according to the embodiment.
FIG. 3 is a diagram illustrating a basic sequence of simple ringing communication of an automatic notification system including an automatic notification device according to an embodiment.
FIG. 4 is a diagram illustrating a time sequence of the automatic notification device according to the embodiment.
FIG. 5 is a flowchart illustrating the operation of the automatic notification device according to the embodiment.
FIG. 6 is a timing chart for explaining number display signal avoidance processing;
FIG. 7 is a timing chart for explaining detection of a sound signal.
FIG. 8 is a configuration block diagram of an automatic notification system device including a conventional automatic notification device.
FIG. 9 is a flowchart for explaining the operation of a conventional automatic notification system apparatus.
FIG. 10 is a diagram showing a calling phone number and calling phone number extension information.
FIG. 11 is a diagram showing a number display signal and a sound signal at the time of an incoming call.
[Explanation of symbols]
1 Center
2a, 2b switch
3a, 3b telephone line
4 automatic reporting device
5 Telephone
7a-7n gas meter
11 16Hz detection circuit
13 Polarity reversal detection circuit
15 Line current detection circuit
17 Rectifier circuit
18 DC closed circuit
19 Modem
21 changeover switch
23 Off-hook detection circuit
27 Control unit
29 interface
31 16Hz detector
33 16Hz detection power supply
35 1.5 second timer
37 1 second timer
39 16Hz presence / absence judgment unit
41 Sound counter
43 Number of incoming calls
45 Ringing communication processor
47 Storage unit

Claims (6)

An automatic notification device that reports terminal information to a center via a telephone line by calling a terminal, and receives data from the center via the telephone line and transmits the data to the terminal,
A first cycle call signal including a predetermined frequency is input via the telephone line, and a second cycle pre-communication information notification signal including the predetermined frequency different from the first cycle is provided before the call signal. A call detection circuit for detecting the call signal based on the first period and the second period when input;
A ringing number counter for counting the number of ringing of the telephone by the ringing signal detected by the call detection circuit;
A communication processing unit that communicates with the center when the number of sounds counted by the number of sound generation counters matches a preset number of incoming calls;
Equipped with a,
The paging signal is a signal having the first period as a total time of a first on-time with the predetermined frequency and a first off-time without the predetermined frequency longer than this time, and the pre-communication information notification signal Is a signal having the second period as the total time of the second on-time having the predetermined frequency shorter than the first on-time and the second off-time shorter than the first on-time and not having the predetermined frequency. Yes,
The call detection circuit detects the predetermined frequency of each of the pre-communication information notification signal and the paging signal when the pre-communication information notification signal is input before the paging signal via the telephone line. A predetermined frequency detector;
When it is determined that the predetermined frequency is present by performing determination processing for determining the presence or absence of the predetermined frequency at a predetermined time within the first off time after the first on-time has elapsed since the detection of the predetermined frequency. Re-executing the determination process, and determining that the call signal has been detected when it is determined that the predetermined frequency is not present;
Automatic reporting device according to claim Rukoto equipped with. The determination unit, when only the call signal is input through the telephone line, the predetermined frequency at the predetermined time after the first on-time has elapsed since the predetermined frequency of the call signal is detected. performs determination processing whether the automatic reporting device according to claim 1, wherein determining that detects said call signal when it is determined that the predetermined frequency is not. The total time of the second on-time and the second off-time is substantially the same as the first on-time, and the fixed time is substantially the same as the first on-time. The automatic notification device according to claim 1 or 2 . An automatic notification method for reporting terminal information to a center via a telephone line by calling a terminal, and receiving data from the center via the telephone line and transmitting the data to the terminal,
A first cycle call signal including a predetermined frequency is input via the telephone line, and a second cycle pre-communication information notification signal including the predetermined frequency different from the first cycle is provided before the call signal. A call detection step of detecting the call signal based on the first period and the second period when input;
A ringing number step for counting the number of ringing of the telephone by the detected ringing signal;
A communication processing step of performing communication with the center when the counted number of ringing matches a preset number of incoming calls;
Equipped with a,
The paging signal is a signal having the first period as a total time of a first on-time with the predetermined frequency and a first off-time without the predetermined frequency longer than this time, and the pre-communication information notification signal Is a signal having the second period as the total time of the second on-time having the predetermined frequency shorter than the first on-time and the second off-time shorter than the first on-time and not having the predetermined frequency. Yes,
The call detection step detects the predetermined frequency of each of the pre-communication information notification signal and the paging signal when the pre-communication information notification signal is input before the paging signal via the telephone line. A predetermined frequency detection step;
When it is determined that the predetermined frequency is present by performing determination processing for determining the presence or absence of the predetermined frequency at a predetermined time within the first off time after the first on-time has elapsed since the detection of the predetermined frequency. A determination step of determining that the call signal is detected when it is determined that the predetermined frequency is not present,
Automatic notification method comprising Rukoto equipped with. In the determination step, when only the call signal is input via the telephone line, the predetermined frequency is detected at the predetermined time after the first on-time has elapsed since the predetermined frequency of the call signal is detected. 5. The automatic notification method according to claim 4 , wherein a determination process for determining presence / absence of a call is performed, and it is determined that the call signal has been detected when it is determined that the predetermined frequency is not present. The total time of the second on-time and the second off-time is substantially the same as the first on-time, and the fixed time is substantially the same as the first on-time. The automatic notification method according to claim 5 or 6 .

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