KR980004213A - Communication port central management method and device - Google Patents

Abstract

The present invention analyzes the cause and progress path of the fire in the communication zone accommodating a large amount of the main communication cable, the vibration and dust a lot, the facility is narrow in the basement and the length is very long, the environment difficult to monitor real-time with manpower Intensive management equipment for remote monitoring and facility control by installing auxiliary devices and various sensors installed in computers and communication zones of centralized management centers in the underground communication zones and carbon monoxide, power cable skin temperature and smoke for reliable fire monitoring The present invention relates to a centralized management method for communication equipment that monitors the occurrence of a fire through monitoring and comprehensively analyzes output values of the three items to determine a fire alarm, a false alarm, and a detector failure.

Description

Communication port central management method and device

Since this is an open matter, no full text was included.

1 is a block diagram showing a communication port centralized management apparatus according to the present invention.

2 is a communication port monitoring by the communication port centralized management apparatus according to the present invention.

Claims (5)

A method for centralized management of communication ports, the method comprising: measuring a skin temperature of a power cable in a control panel and a concentration of carbon monoxide generated when a cable is burned by a detector; Determining that the detector is a false alarm or a failure when the measured value collected in the measuring step is abnormally collected; And an alarm system setting step of comprehensively analyzing carbon monoxide gas measurement values, smoke detection and cable skin temperature values, and determining whether a fire has occurred. The method according to claim 1, wherein the false alarm or failure determination step is performed in a proximity smoke detector when a measurement value of carbon monoxide and temperature is out of a range of a predetermined allowable value or when smoke detection output data is received from one smoke detector. Whether the gas concentration value measured by the smoke detector or the proximity carbon monoxide detector is above the threshold value, or whether the temperature value of the temperature sensor temperature sensor in the tunnel accommodated by the temperature sensor transmitter is higher than the threshold value with the temperature sensor for monitoring the cable skin temperature. If the analysis is repeated three or more times in a case that does not correspond to any of the above items by analyzing the communication centralized management method characterized in that it is determined as a false alarm or failure of the detector. The method of claim 1, wherein the setting of the alarm system for determining whether the fire has occurred comprises determining whether the difference between the previous value and the present value is outside the range of the allowable value by using carbon monoxide and the temperature measured value. If the current value is less than the threshold value, the data collection is performed again. If the current value is less than the threshold value, data collection is performed again. If the current value is more than the threshold value, a fire alarm is generated. When the smoke detector output data is received from the smoke detector, whether the smoke is detected in the nearby smoke detector or the gas concentration value measured by the adjacent carbon monoxide detector is above the threshold or the temperature sensor transmitter together with the temperature sensor for monitoring the cable skin temperature. The above three types are analyzed by analyzing whether or not the temperature value of the temperature sensor in the tunnel is Either way, even if the communication characterized in that a fire alarm occurs nine intensive care in the neck. A computer located in the central management center, an auxiliary device for accommodating the output of various detectors installed at regular intervals in the underground communication zone and connected to the computer of the central management center to control the facilities in the communication zone, and located in the communication zone Temperature detectors, carbon monoxide detectors and smoke detectors that output contacts when detecting temperature values, gas concentration values, and smoke, respectively. Communication centralized management device, characterized in that consisting of. 5. The auxiliary apparatus according to claim 4, wherein the auxiliary device provides an output value of a sensor or the like to the centralized management center computer based on the values of the sensor interface unit, each sensor, etc., which serve as a connection part of each sensor, transmitter, and main processing unit. A main processing unit for receiving and processing a message for controlling the equipment in the communication port from the computer, a modem unit for communication between the main processing unit and the computer, and a control interface unit as a connection part for controlling the equipment in the communication port. Communication port central management device, characterized in that. ※ Note: The disclosure is based on the initial application.