KR101771049B1 - Automatic Standby Power Blocking and Working System with Fire Sensor and Method of Fire Alarm Supplying - Google Patents

Abstract

A standby power automatic shutoff and return system equipped with a fire detector of the present invention is equipped with a touch sensor or a tilt sensor and turns on and off a home appliance. When a user touches or lifts a remote controller, A power cutoff device connected to the power outlet is turned on or a power cutoff device is turned on according to a signal received from the AP to receive a touch sensor signal or a tilt sensor signal of the wireless remote control unit, ) And compares the reference standby power set in the standby power DB with the real power flowing in the power meter portion before the installation by checking the power flowing into the appliances, and if the set reference standby power is maintained for a predetermined time or longer, (Off) or a smart terminal recognition signal is not received from the AP A standby power interception system for shutting off the power interrupter when the standby power interception system is connected to the standby power interception system; A buzzer for generating an alarm when a fire occurs, a signal converter connected to the warm-temperature sensing line for converting a fire detection signal and transmitting the converted sensing signal to the MCU, An AP for transmitting a recognition signal to the standby power cutoff device to turn on the standby power cutoff device, receiving a fire detection signal from the MCU and transmitting the received fire detection signal to the smart terminal, And a smart terminal communicating wirelessly (wifi) with the AP and generating an alarm upon receipt of a fire signal It is that it features.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a standby power blocking and returning system having a fire detection line,

Conventional standby power cutoff devices are used to electrically connect household electrical appliances to electrical outlets, and to turn off electrical outlets to cut off standby power flowing between electrical outlets and appliances. In the present invention, when a standby power interrupter is installed between a household appliance and a receptacle, the standby power flowing between the outlet and the home appliance is automatically shut off and returned when the power of the appliance is turned off by the remote controller. And to provide an alarm at the time of a fire. The present invention relates to providing a fire alarm to a buzzer or a smart terminal when a fire occurs in a home or office while blocking the standby power as described above.

The prior art relating to the present invention is disclosed in Korean Patent No. 10-1320785 (published on Mar. 10, 2013). FIG. 1 is a block diagram of an electric fire prediction system that can interrupt the conventional standby power. 1, the conventional electric fire prediction system capable of blocking standby power includes a main device 100 and at least one auxiliary device 200. The main device 100 includes a main communication unit 110, A main control unit 140, a display unit 150, and a warning sending unit 160. The storage unit 120, the data determination unit 130, the main control unit 140, the display unit 150, In addition, the main communication unit 110 performs wired or wireless communication with at least one auxiliary device 200. The main communication unit 110 may be connected to at least one auxiliary device 200 via a wired communication network such as RS232 or may be connected to a wireless communication network such as wifi or Bluetooth, . In addition, the main communication unit 110 can receive the status data of the auxiliary device 200 from the auxiliary device 200. [ The data storage unit 120 receives measurement data and status data through the main communication unit 110 and stores the measurement data and the status data. The data storage unit 120 may store and store the transmitted measurement data and status data received from each of the at least one auxiliary device 200. The data discrimination unit 120 analyzes the measurement data and judges the possibility of fire from the analyzed measurement data. That is, the possibility of fire occurrence, and outputs a warning signal. At least one reference value may be preset and stored in the data discrimination unit 120 in order to determine the possibility of a fire from measurement data. The data discrimination unit 120 compares measurement data with at least one reference value, Can be determined. The main control unit 140 manages the communication connection with the auxiliary device 200 of the communication unit 110 and outputs the measurement data stored in the data storage unit 120 through the display unit 150, 120, a warning screen is displayed on the display unit 150 and the alarm sending unit 160 is controlled to send an alarm. The main control unit 140 may also analyze the status data and the measurement data received from the auxiliary device 200 to determine whether the possibility of fire identified by the data determination unit 120 is correct or incorrect, If the information is the information, the auxiliary device 200 transmits an alarm stop signal through the main communication unit 110 to stop generating the alarm, and reports the abnormal state of the auxiliary device 200 to the user terminal of the manager. The warning transmitting unit 160 outputs a warning as a sound signal under the control of the main control unit 140 or transmits a warning signal through a wired or wireless communication to a user terminal (not shown) of the system manager. In addition, the main apparatus 100 receives, stores, and analyzes measurement data transmitted from at least one auxiliary device 200, determines whether the measurement data is abnormal, and outputs a warning screen and an alarm. In addition, when the auxiliary device 200 generates an unnecessary alarm from the measurement data, it stops the occurrence of the alarm of the auxiliary device 200 and causes the user terminal of the manager to change the abnormal state . Accordingly, the manager can immediately notify the auxiliary device 200 of the abnormality, and can repair the auxiliary device 200. The electric fire prediction system can solve the problem that it is difficult to repair quickly, and at the same time solve the problem of reducing the reliability of the user due to frequent operation in the non-fire situation. The auxiliary device 200 includes a sensor unit 210, a memory unit 220, an auxiliary control unit 230, a warning output unit 240, an interface unit 250, an auxiliary communication unit 260, a relay unit 270, The surge protection unit 280 and the blocking unit 290. The sensor unit 210 outputs a plurality of sensed values including a voltage current sensor, an arc and spark sensor, and a wire temperature sensor. Also, the sensor unit 210 includes a load sensing sensor to sense the size of the load. The memory unit 220 receives and stores a plurality of sensing values from the sensor unit 210. In particular, the memory unit 220 stores the initial load power as a reference standby power when power is supplied to each of a plurality of ports (not shown). The reference standby power can be separately stored for each of a plurality of ports. The auxiliary control unit 230 is provided for controlling the auxiliary device 200 and analyzes the sensing value output from the sensor unit 210 and stored in the memory unit 220 to detect an electrostatic overcurrent, And generates a warning signal according to the determination result, and controls the relay unit 270 to individually block power supply to each port. The auxiliary controller 230 calculates the load power from the current and voltage sensed by the sensor unit 210 and compares the calculated load power with the reference standby power so as to shut off the power applied to each of the plurality of ports (not shown) The corresponding relay of the unit 270 can be turned off to interrupt the power supply. If the load resistance value is equal to or greater than the predetermined reference load resistance value at the port where the relay is turned off and the power supply is interrupted, the relay can be turned on again to supply electric power to the port where the power supply is interrupted. In addition, the alarm output unit 240 generates an alarm for audible and visual recognition under the control of the auxiliary control unit 230. The generated warning is generated until the release command is issued by the administrator or the user, or until a warning stop signal is applied in the main device 100. [ In order to improve the reliability of the fire detection system, the auxiliary control unit 230 on the electric line is used for the arc and spark monitoring, the end load side The alarm output unit 240 is controlled to output a warning at the time of overcurrent monitoring, abnormal temperature monitoring beyond the allowable range, and tripping of the terminal load breaker. In addition, the interface unit 250 includes input means for receiving a user command. In some cases, the display unit 150 may further include image output means for outputting an image. In addition, the interface unit 250 may be implemented as a touch panel or a touch screen in which the input means and the image output means are integrated. The auxiliary communication unit 260 may transmit the sensing values stored in the memory unit to the main device 100 as measurement data under the control of the auxiliary control unit 230 and transmit the warning message to the user terminal of the user. In addition, the auxiliary communication unit 260 can also be controlled by a user's terminal using functions such as Wi-Fi and Bluetooth. Also, if it is determined that there is a possibility of a fire even if the user is at any place, a warning can be issued to the user terminal of the user. And provides state data to the main device 100 via a wired communication function such as RS232 so that an administrator can accurately analyze and repair an abnormal operation of the electric fire prediction system. The relay unit 230 includes a plurality of relays corresponding to each of the plurality of ports, and applies or cuts off power to each of the plurality of ports under the control of the auxiliary control unit 230. [ The surge protection unit 280 includes a surge protective device (SPD), which is a surge protection device. The surge protection unit 280 generates surges such as a surge protector generated by a power line, a communication line, a signal line, Surge to the plurality of ports of the auxiliary device 200 and the auxiliary device 200. Also, the breaker includes a plurality of switch-type breakers that can manually supply or shut off power to the respective ports, and further includes a circuit breaker (MCCB: Molded Case Circuit Breaker) may be further included. The user terminal may be implemented by various information communication devices such as a computer, a mobile phone, a PDA, and a notebook smartphone.

The electric fire prediction system that can interrupt the standby power as described above has a complicated structure, which causes an excessive installation cost. In addition, the conventional electric fire prediction system capable of blocking the standby power as described above has a complicated system configuration and is difficult to maintain and can not automatically shut off or recover standby power. Accordingly, an object of the present invention is to provide a fire detection and standby power automatic shutoff system having a simple configuration. Another object of the present invention is to provide a fire alarm automatically in the event of a fire.

The standby power automatic shutoff and return system with the above-described object of the present invention includes a touch sensor or a tilt sensor, which turns on and off a home appliance. When a user touches or lifts a remote controller, And receiving a touch sensor signal or a tilt sensor signal of the wireless remote control unit to turn on the power cutoff device connected to the power outlet or to receive power from the AP by a signal received from the AP, The interrupting device is turned on and the power flowing in the household appliance is inspected to compare the reference standby power set in the standby power DB and the real power flowing in the power meter portion before the installation, The power cutoff device is turned off or the smart terminal When the recognition signal is not received, the power cutoff device is turned off (disconnected) and connected to a power outlet so as to be connected to the warmed-up sensing line for detecting a fire in the home or office and the warmed- And a signal converter for converting the fire detection signal and transmitting the converted detection signal to the MCU. The system further includes a standby power interruption system for registering and storing the smart number based on the unique number of the smart terminal And transmits the recognition signal to the standby power cutoff device to turn on the standby power cutoff device, receives the fire detection signal from the MCU of the power cutoff system, and transmits the recognition signal to the smart terminal , A wireless communication (wifi) communication with the AP, and an alarm To which being configured as a terminal.

The standby power automatic shutoff and return system including the fire detector of the present invention configured as described above can easily supply the power by restoring the standby power that is simply blocked using a remote controller or a smart terminal by wireless. Further, the present invention has an effect of automatically providing a fire alarm to a buzzer or a smart terminal when a fire occurs. Further, according to the present invention, since standby power is constant for each product, various standby power for each appliance can be DB and stored, and when the standby power of the product installed before installation is set in the standby power DB, standby power of each appliance can be effectively It can be blocked. In addition, the standby power automatic shutoff and return system including the fire detector of the present invention is advantageous in that a smart terminal having a large number of users can be conveniently used.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a block diagram of a conventional electric fire prediction system capable of blocking standby power.
FIG. 2 is a general configuration diagram of a standby power automatic shutoff and return system equipped with a fire detector of the present invention,
3 is a detailed configuration diagram of a wireless remote control unit according to the present invention
4 is a detailed configuration diagram of a standby power cutoff system applied to the present invention,
FIG. 5 is a flowchart illustrating a method of providing an alarm when a fire is detected using the automatic standby and power-off system of the present invention.

The standby power automatic shutoff and return system including the fire detector of the present invention having the above-described objects and a fire alarm providing method using the same will be described with reference to FIG. 2 to FIG.

FIG. 2 is a diagram showing the entire configuration of a standby power automatic shutoff and return system equipped with a fire detector of the present invention. 2, the standby power automatic shutoff and return system equipped with the fire detector of the present invention is equipped with a touch sensor or a tilt sensor, and turns on and off a home appliance. When a user touches or lifts a remote controller, The wireless remote control unit 100-1 receives a touch sensor signal or a tilt sensor signal of the wireless remote control unit and outputs a signal received from the AP, The power cutoff device is turned on and the power flowing in the household appliance is checked to compare the reference standby power set in the standby power DB before the installation with the real power flowing to the power meter reading part, The power cutoff device may be turned off or the AP may be disconnected from the AP When the signal is not received, the power cutoff device is turned off (disconnected) and is separately connected to the power outlet so as to detect a fire in the home or office. The warmed-up sensing line 500 is connected to the warmed- And a signal converting unit 520 connected to the warm-temperature sensing line for converting a fire detection signal and transmitting the converted sensing signal to the MCU of the standby power cut-off system. 200-1, and a smart phone. When the smart phone is recognized as being wirelessly communicated with the smart terminal, the recognition signal is transmitted to the standby power cutoff device to turn on the standby power cutoff device An AP 300-1 for receiving a fire detection signal from the MCU of the standby power cutoff system through a receiver and transmitting the signal to the smart terminal, And a smart terminal 400-1 for communicating with each other through wifi communication and generating an alarm upon receipt of a fire signal.

FIG. 3 is a block diagram of a wireless remote control unit according to the present invention. 3, the wireless remote control unit 100-1 according to the present invention can be mounted in a module form on a conventional remote controller for wirelessly controlling the power supply of household appliances. The wireless remote controller 100-1 senses the state of the user holding the remote controller A tilt sensor 120-1 for sensing whether the touch sensor 110-1 or the user lifts up the remote controller and a touch sensor 110-1 for detecting a movement of the touch sensor 110-1 or the tilt sensor 120-1, A low power control unit 150-1 for controlling the RF transmission unit 130-1 to transmit the motion detection signal to the smart standby power cutoff device, and a low power control unit 150-1 for receiving the motion detection signal An RF transmitter 130-1 for transmitting the RF signal to the RF receiver 210-1 attached to the power cutoff system 200-1 and a power source 140-1 for supplying power.

4 is a detailed configuration diagram of a standby power cutoff system applied to the present invention. 4, the standby power cut-off system 200-1 according to the present invention is controlled to be turned on by the control of the main control unit (MCU) 250-1, and the power outlet 240-1 and the household appliances 205 -1, a power meter 230-1 installed at a rear end of the power cutoff device, a constant temperature sensing line 500 connected to the power outlet, A buzzer 510 connected to the temperature sensing type sensing line 500 for issuing an alarm when a fire is detected, a signal conversion unit 520 for converting a fire occurrence signal sensed by the temperature sensing type sensing line to the MCU, An RF receiving unit 210-1 for receiving a signal from the wireless remote control unit, a wireless receiving unit 212-1 for receiving a signal from the AP, an RF receiving unit 210-1 and / or a wireless receiving unit 212- 1) to turn on the standby power cutoff device (230-1), or when the recognition signal from the AP And the real time power measured by the power meter reading unit 220-1 is compared with the set reference standby power and when the real time power is less than the reference standby power, The device 230-1 is turned off and the reference standby power stored in the memory 260-1 is displayed on the display unit 270-1 to set the reference standby power so as to receive the fire detection signal of the signal conversion unit, (MCU) 250-1 for controlling the transmission of the reference standby power to the home appliances, a memory 260 for storing and storing the reference standby power values of the various home appliances in a database, -1), and a standby power DB when installed in the household appliances, so that the standby power setting unit 280-1 can set a reference standby power to match the household appliances That is configured to display (270-1) for displaying a lock is characterized.

FIG. 5 is a flowchart illustrating a method of providing an alarm when a fire is detected using the automatic standby and power-off system of the present invention. 5, a method of providing an alarm when a fire is detected using an automatic power cut-off and return system of a standby power shutdown system includes a step S11 of detecting a fire by a short- A step S12 of receiving and converting a signal converted by the temperature conversion type sensing line short signal connected to the temperature sensing type sensing line to an MCU of a standby power interrupting device (S12), transmitting the fire sensing signal received by the MCU to the AP A step S13 of sending a fire detection signal to the smart terminal in which the AP is registered, and a step S14 of generating a fire alarm in the smart terminal. The step S12 may further include causing the buzzer connected to the warm temperature sensing line to generate an alarm.

1: AC input terminal, 3: Switching section,
4: SMPS, 9: control unit,
12: wired / wireless network unit, 100: remote control,
110: touch sensor, 120: tilt sensor,
150: Low power MCU, 200: Smart standby power cut-off device, 220: Power meter part,
230: Standby power cutoff device, 240: Outlet,
250: MCU, 260: memory,
270: display unit, 280: standby power setting unit,
300: AP, 400: smart terminal,
500: Calorific sensing line

Claims (6)

delete delete delete delete delete 1. A method of providing an alarm when a fire is detected using a system for automatically intercepting and returning standby power of a home appliance,
A method of providing an alarm upon detection of a fire using the standby power automatic shutoff and return system,
Off control by the control of the main control unit (MCU, 250-1), the standby power cut-off device 230-1 installed between the power outlet 240-1 and the household appliances 205-1, (500) which is connected to the power outlet and detects a fire in a home or an office and a warming-type sensing line (500) connected to the warming-sensing line (500) A buzzer 510 for issuing an alarm upon detection, a signal converter 520 for converting a fire occurrence signal sensed by the warm-temperature sensing line to an MCU, and an RF receiver 210-1 A wireless receiving unit 212-1 for receiving a signal from the AP and a signal from the RF receiving unit 210-1 or the wireless receiving unit 212-1 to turn on the standby power cutoff unit 230-1 Or if the recognition signal from the AP is not present for a predetermined period of time or the power meter reading unit 220-1 And compares the received real time power with the reference standby power set based on the standby power DB to turn off the standby power cutoff device 230-1 when the real time power is lower than the reference standby power, (MCU) that controls the display unit 270-1 to display the reference standby power stored in the main controller 260-1 so as to set the reference standby power so as to receive the fire detection signal of the signal converting unit and transmit it to the AP, A memory 260-1 for storing a reference standby power value of various household appliances and storing and storing a reference standby power which is matched to a home appliance at the time of installation and a standby power DB And a display unit 270-1 for displaying the standby power setting unit 280-1 so as to set a reference standby power to match the household appliance A step (S11) of detecting a fire due to a short circuit occurring in a warmed-up sensing line connected to a power outlet of the power shut-off system;
(S12) of receiving and converting a signal converted by the temperature conversion type sensing line short signal (fire detection signal) connected to the temperature sensing type sensing line into an MCU of the standby power interruption system;
Transmitting a fire detection signal received by the MCU to the AP (S13);
Transmitting a fire detection signal to the smart terminal in which the AP is registered (S14);
And a step (S15) of providing a fire alarm by the smart terminal.

Images