JPH0720694U - Emergency call device - Google Patents

Abstract

(57) [Summary] [Purpose] Reduction of communication costs. Preventing unnecessary power outage control. [Structure] The power failure detection circuit 1-4 detects a power failure of the commercial power supply. When a power failure is detected, the output of the retrigger circuit 1-44 becomes "H" level. This "H" level output is given to the switching circuit 1-7 and the control unit 1-8 as a power failure detection signal. The switching circuit 1-7 changes its output voltage from V _AC to V
Switch to _DC . The CPU 1-81 supplies the counter 1-84 with a clock pulse every 20 ms from the clock circuit 1-85 while the power failure detection signal is generated. If the count value of the counter 1-84 exceeds 50 counts,
That is, if the duration of the power failure detection signal is 1 second or more, it is determined that the power failure has occurred for a long time. If it is within 1 second, it is determined that there is an instantaneous power failure, the mode is not switched to the degenerate mode, and the central monitoring device 14 is not notified of the power failure.

Description

[Detailed description of the device]

[0001]

[Industrial applications]

 The present invention relates to an emergency call device that receives information from a monitoring target point by using power from a commercial power source and sends an abnormal report to a monitoring center through a line (telephone line / dedicated line) as necessary. is there.

[0002]

[Prior art]

 Conventionally, this type of emergency notification device has been installed as part of an online security system in a home, a building, an office 10, etc. as shown in FIG. 3, and various sensors 11 for disaster prevention, crime prevention, etc., disaster prevention, crime prevention, etc. It is connected to various equipments 12 and constantly monitors the states of these sensors 11 and equipments 12, and when an abnormal state is detected, it is automatically dialed through a line (telephone line / dedicated line) 13 to interface the gateway GW. As a result, the central monitoring device (monitoring center) 14 is notified.

The emergency notification device 15 includes a control unit using a microprocessor or the like, and uses electric power from a commercial power supply as electric power to be used. In this case, the emergency power supply device 15 is equipped with a backup battery power source because the commercial power source may fail. That is, the emergency notification device 15 detects a power failure of the supplied commercial power source, and switches the used power from the commercial power source to the battery power source when the power failure is detected. Here, the control unit of the emergency notification device 15 switches the operation mode from the normal mode to the degenerate mode in order to reduce the power load, and notifies the central monitoring device 14 of the power failure through the line 13.

FIG. 4 shows an operation flow of the control unit at the time of power failure. When the control unit confirms the power failure of the commercial power supply as the output that changes to the “H” level from the retrigger circuit in the power failure detection circuit (not shown) (step 401), the operation mode is switched from the normal mode to the degenerate mode ( Step 402). By setting the operation mode to the degenerate mode, the various equipment 12 is turned off. In other words, when a power failure is detected, power failure information is reported to the center using the telephone line, and power recovery information is reported to the center when power is restored. It will be off. Then, the control unit notifies the central monitoring device 14 of the power failure through the line 13 (step 403). The central monitoring device 14 receives the notification from the control unit and executes the power recovery and restoration program. On the other hand, the control unit monitors the output of the retrigger circuit (step 404), determines that the power has been restored if it changes to the "L" level, and notifies the central monitoring device 14 of the power restoration (step 405). Then, the control unit receives the power recovery program from the central monitoring device 14 sent in response to the request (step 406), and executes this power recovery program (step 407). As a result, the operation mode is switched from the degenerate mode to the normal mode, the various equipment devices 12 that have been turned off until then are returned to the on state, and the normal operation is returned (step 408). The power used is switched from the battery power supply to the commercial power supply when the output of the retrigger circuit changes to the “L” level.

[0005]

[Problems to be solved by the device]

 However, according to such a conventional emergency notification device 15, when the output of the retrigger circuit changes to the “H” level, it is immediately judged to be a power failure, that is, an instantaneous power failure (for example, a power failure of less than 1 second). However, since it is judged that there is a power outage and the central monitoring unit 14 is notified via the line 13 each time, there is a problem that communication costs are incurred. In addition, it takes about 30 seconds from when the emergency call device 15 reports the power recovery to the central monitoring device 14 until the power recovery program is received. There was a problem that the various equipments 12 considered to be not turned on for about 30 seconds (for example, the illumination was not turned on for 30 seconds).

The present invention has been made to solve such a problem, and its purpose is to distinguish between an instantaneous power failure and a long-time power failure, and in the case of an instantaneous power failure, a notification is sent to a monitoring center. To provide an emergency notification device that can reduce communication costs by not performing the operation mode and by not switching the operation mode to the degeneration mode, and that does not unnecessarily perform power outage control. It is in.

[0007]

[Means for Solving the Problems]

 In order to achieve such an object, the present invention uses an electric power from a commercial power source as an electric power to receive information from a monitoring target point and, if necessary, makes an emergency call to the monitoring center through a line. The backup battery power supply, the power failure detection circuit that detects the power failure of the commercial power supply and outputs a power failure detection signal, and the power failure detection signal output from this power failure detection circuit to receive the power used from the commercial power supply to the battery power supply. When receiving the power failure detection signal output from the switching circuit and the power failure detection circuit, the duration of this power failure detection signal is monitored, and if this duration is longer than the specified time, the operation mode is changed from the normal mode to the degenerate mode. It is equipped with a control unit that switches to (1) and notifies the monitoring center of a power failure through a line.

[0008]

[Action]

 Therefore, according to this invention, when the power failure detection signal is output, the power used is switched from the commercial power source to the battery power source. At this time, the control unit monitors the duration of the power failure detection signal and determines that there is a power failure (long-time power failure) if the duration is longer than the specified time, but if the duration is shorter than the specified time, an instantaneous It judges that there is a power failure, does not switch the operation mode to the degenerate mode, and does not notify the monitoring center of the power failure.

[0009]

【Example】

 Hereinafter, the present invention will be described in detail based on embodiments. FIG. 2 is a block diagram of an emergency notification device showing an embodiment of the present invention. In the figure, 1-1 is a filter for removing noise components from supplied commercial power (AC100V / 200V), 1-2 is AC / DC conversion of commercial power supplied through this filter 1-1, + 5V and AC / DC converter with DC voltage of + 12V, 1-3 is a battery power supply (NiCd battery) for backup, 1-4 is a power failure detection that detects a power failure of commercial power supplied by branching through the filter 1-1. Circuit.

The power failure detection circuit 1-4 includes a transformer 1-41 that steps down the supplied commercial power source to AC8V and a rectifier circuit that turns the AC8V output from the transformer 1-41 into a full-wave rectified waveform of DC4V. 1-42, a comparator 1-43 that compares the full-wave rectified waveform output from this rectifier circuit 1-42 with a reference voltage to generate a pulse signal, and is reset by the pulse signal output from this comparator 1-43. It is provided with a retrigger circuit 1-44 whose output becomes "L" level and whose output becomes "H" level when the pulse signal disappears.

1-5 is a charging circuit for charging the nickel-cadmium battery 3 with a DC voltage of + 5V output from the AC / DC converter as an input, and 1-6 is a voltage from the nickel-cadmium battery 3 via the charging circuit 1-5 to a DC voltage. A DC / DC converter that performs DC / DC conversion to obtain a DC voltage of + 5V, and 1-7 represents a DC voltage V _{AC of} + 5V output from the AC / DC converter 1-2 and a DC voltage V _DC output from the DC / DC converter. an input switching circuit for switching the output voltage from V _AC to V _DC power failure detection circuit 1-4 or these power failure detection signal (output to "H" level signal of the retrigger circuit 1-44) accepted by, 1 -8 is a control unit that uses the output voltage from the switching circuit 1-7 as the power supply voltage, 1-9 is a communication unit that uses the output voltage from the switching circuit 1-7 as the power supply voltage, and 1-10 is the AC / DC converter 1 -2 output An interface unit that uses the DC voltage V _AC as the power supply voltage (power used), and 1-11 is a display unit that uses the + 12V DC voltage output from the AC / DC converter 1-2 as the power supply voltage. In the power failure detection circuit 1-4, the output voltage from the switching circuit 1-7 is applied to the comparator 1-43 and the retrigger circuit 1-44 as the power supply voltage.

Next, the operation of the emergency notification device 1 will be described with the functions of the control unit 1-8. In this emergency notification device 1, in the normal case where the supplied commercial power is not out of power, the switching circuit 1-7 outputs the DC voltage V output from the AC / DC converter 1-2. _AC Is being output. That is, since commercial power is supplied to the power failure detection circuit 1-4, the comparator 1-43 sends a pulse signal and the output of the retrigger circuit 1-44 is at the "L" level. As a result, the switching circuit 1-7 causes the DC voltage V output by the AC / DC converter 1-2._ACIs selected and output.

When the commercial power source loses power in this state, the commercial power source is not supplied to the power failure detection circuit 1-4, so that the comparator 1-43 does not output a pulse signal. As a result, the output of the retrigger circuit 1-44 becomes "H" level. This "H" level output is given to the switching circuit 1-7 as a power failure detection signal. The switching circuit 1-7 receives the power failure detection signal and switches its output voltage from V _AC to V _DC .

On the other hand, the power failure detection signal from the power failure detection circuit 1-4 (“H” level signal output from the retrigger circuit 1-44) is also given to the control unit 1-8. The CPU 1-81 of the control unit 1-8 receives the power failure detection signal, that is, confirms the output of the retrigger circuit 1-44 that changes to the "H" level (step 101 shown in FIG. 1), and then detects the power failure detection signal. While the signal is being generated, a clock pulse every 20 ms from the clock circuit 1-85 is supplied to the counter 1-84. Then, if the count value of the counter 1-84 exceeds 50 counts, that is, if the duration of the power failure detection signal is 1 second or more, it is determined that there is a power failure (long power failure) (step 102), and the operation mode is set. Is switched from the normal mode to the degenerate mode (input operation mode of only the control unit 1-8 and the communication unit 1-9) (step 103). By setting the operation mode to the degenerate mode, the various equipment 12 is turned off.

Then, the CPU 1-81 reports a power failure to the central monitoring device 14 through the line 13 (step 104). The central monitoring device 14 receives the notification from the control unit 1-8 and executes the power recovery program. On the other hand, the CPU 1-81 monitors the output of the retrigger circuit 1-44 (step 105), judges that the power has been restored if it changes to the "L" level, and notifies the central monitoring device 14 of the power restoration (step 105). 106). Then, the CPU 1-81 receives the power recovery program sent from the central monitoring unit 14 in response to the request (step 107), and executes this power recovery program (step 108). As a result, the operation mode is switched from the degeneration mode to the normal mode, the various equipments 12 which have been turned off until then are returned to the on state, and the normal operation is resumed (step 109). The switching circuit 1-7, when the output of the retrigger circuit 1-44 is changed to "L" level, switches its output voltage from V _DC to V _AC.

On the other hand, in step 102, if the count value of the counter 1-84 does not exceed 50 counts, that is, if the duration of the power failure detection signal is within 1 second, the CPU 1-81 determines that It judges that it is an instantaneous power failure, does not switch the operation mode to the degenerate mode, and does not notify the central monitoring unit 14 of the power failure.

[0017]

[Effect of device]

 As is apparent from the above description, according to the present invention, when the power failure detection signal is output, the power used is switched from the commercial power source to the battery power source, while the control unit monitors the duration of the power failure detection signal. If the duration is longer than the specified time, it is judged as a power failure (long-time power failure), but if it is shorter than the specified time, it is judged as an instantaneous power failure and the operation mode is switched to the degenerate mode. In addition, since there is no notification of a power outage to the monitoring center, it is possible to distinguish between an instantaneous power outage and a long-time power outage, reduce communication costs, and perform unnecessary power outage control. Becomes

[Brief description of drawings]

FIG. 1 is a flowchart for explaining an operation of a control unit in the emergency notification device shown in FIG. 2 during a power failure.

FIG. 2 is a block diagram showing an embodiment of an emergency notification device according to the present invention.

FIG. 3 is a diagram showing an installation situation of an emergency notification device.

FIG. 4 is a flowchart for explaining the operation of the control unit in the conventional emergency notification device during a power failure.

[Explanation of symbols]

 1 Emergency Report Device 1-2 AC / DC Converter 1-3 Battery Power Supply (NiCd Battery) 1-4 Power Failure Detection Circuit 1-41 Transformer 1-42 Rectifier Circuit 1-43 Comparator 1-44 Retrigger Circuit 1-6 DC / DC Converter 1-7 Switching circuit 1-8 Control unit 1-81 CPU 1-84 Counter 1-85 Clock circuit 11 Various sensors 12 Various equipment 13 Line 14 Central monitoring device

Claims (1)

[Scope of utility model registration request] 1. The electric power from a commercial power source is used as electric power.
In an emergency call device that receives information from the monitoring target point and sends an emergency call to the monitoring center through the line as needed, a power failure that detects a power failure of the battery power supply for backup and the commercial power supply and outputs a power failure detection signal A detection circuit, a switching circuit that receives the power failure detection signal output from the power failure detection circuit and switches the power used from the commercial power source to the battery power source, and a power failure detection signal output from the power failure detection circuit The detection signal is monitored for the duration, and when the duration is longer than a predetermined time, the operation mode is switched from the normal mode to the degeneration mode, and a control unit for notifying the monitoring center of a power failure through the line is provided. Emergency notification device.