KR200198310Y1 - Detector supervisory monitor for gas alam - Google Patents

Abstract

The present invention relates to a gas alarm using a sensor, and more particularly, to a monitoring device for a detection sensor for a gas leakage alarm configured to monitor the inability to detect the aging of the gas detection sensor due to aging of the gas detection sensor.

The present invention can continuously monitor and detect that the detection sensor of the gas leakage alarm changes or fails to detect the characteristic, and compares the detected value by comparing the initial setting value with the detected value that can be normally operated. To provide a monitoring device for a gas leakage alarm detection sensor that can easily detect a disconnection lamp, if the operating power is applied after the completion of the initial alarm, the voltage passing through the sensor is detected and stored in the memory as an output value of the sensor. Storing sensor alarm set value, and reading sensor detection value in alarm use phase and comparing with the initial sensor output value stored in the memory to determine and alarm as sensor failure when operating range rate is over or under. Characterized in that it is made.

Description

Detector supervisory monitor for gas alam

The present invention relates to a gas alarm using a sensor, and more particularly, to a monitoring device for a detection sensor for a gas leakage alarm configured to monitor the inability to detect the aging of the gas detection sensor due to aging of the gas detection sensor.

As is well known, gas has been widely used because it is recognized as an environmentally friendly and inexpensive fuel.

However, the gas has a great damage due to leakage, so much care is required.

In consideration of various characteristics of such a gas, a gas leakage alarm cutoff device that detects a gas leak and cuts off and supplies a gas is variously used.

As the gas detection sensor used in the alarm device for detecting the gas leakage, a sensor and a gas detection circuit as shown in FIG. 1 are mainly used.

The detection sensor portion of the gas leakage alarm constitutes a comparator COM1 for comparing and outputting with a specific reference voltage level in order to ensure the accuracy of gas detection, and connects the reference voltage set with a variable resistor to the comparator, and detects the gas detection sensor element. (C) This is achieved by connecting the divided voltage of (D) to the comparison input.

When the detected divided voltage Vsen of the sensors C and D becomes larger than the set reference voltage Vref, the comparator generates an output and the output is applied to an alarm circuit provided at the rear end as a gas leakage detection signal.

In the conventional sensor as described above, the sensor C functions as a temperature compensating element and the sensor D functions as a detecting element. As described above, when the current is applied, the sensor is heated to about 300 ° C. .

In this case, when the gas is in contact with the sensing element, combustion occurs by the high temperature of the sensor. At this time, the resistance value of the sensor D increases, and the detected voltage value increases, and the comparator output is generated as an alarm output.

The operation of such a sensor causes the resistance value on the sensing element to fluctuate over time, and if such fluctuation occurs excessively compared to the initial value, the sensor does not substantially detect gas or malfunction sensitively to miscellaneous gas. A problem arises.

This problem is inevitably caused by a change in the spasm of the sensor when a combustion sensor is used. In this case, the sensor must be replaced or an alarm must be replaced.

However, according to the conventional techniques, it is impossible to manage the user such as a home because it checks every day by using a measuring device to see how long the life of the sensor has been reached. Can be.

In fact, many mass-communications have been tested to leak gas to a number of installed alarms to warn the increase of gas accidents.

The present invention has been made to solve the problems of the prior art as described above has the following object.

The object of the present invention is to provide a monitoring device for a gas leakage alarm detection sensor that is capable of continuously monitoring and alarming that a detection sensor of a gas leakage alarm changes or fails to detect a characteristic.

The object of the present invention is to provide a monitoring device for a gas leak alarm detection sensor that is configured to compare the initial setting value and the detected value that the normal operation of the sensor can be easily detected.

The present invention made to achieve the object as described above is the step of storing the sensor alarm setting value for detecting the voltage via the sensor and storing it in the memory as the output value of the sensor when the operating power is applied after the initialization of the completed alarm And by reading the sensor detection value in the alarm use step and comparing it with the initial sensor output value stored in the memory so as to determine and alarm the sensor failure when it exceeds or falls below the operable range rate.

1 is a circuit diagram showing a detection unit of a conventional gas alarm.

2 is a control flowchart illustrating a monitoring procedure of a detection sensor for a gas leakage alarm according to the present invention.

3 is a block diagram as an embodiment of the present invention.

** Description of symbols for the main parts of the drawing **

C, D: gas detection sensor 110: microcomputer 112: memory

Hereinafter, the technical idea of the present invention will be described in detail with reference to the accompanying drawings.

The control sequence according to the present invention is shown in FIG.

The present invention comprises the steps of initializing the microcomputer in the microcomputer-controlled alarm, applying a sensor operating power, detecting a sensor output value to detect the voltage output from the sensor when the power is applied to the sensor, and the detected sensor output value The process of inputting the alarm set value of the sensor, which comprises a memory storage step of storing the memory in the memory.

The input of the alarm set value of the sensor is performed from the manufacturer and the initially stored alarm set value is retained even when the power is supplied later. This can be reset in the service mode of the manufacturer if necessary.

When the alarm power of the sensor is stored in the place where the alarm set value is stored and the alarm power is input by the user, the microcomputer is initialized, the microcomputer reads the detected value of the sensor, and the sensor detected value is stored in the memory. A comparison step of comparing the value with a set value within the operable range rate, and determining that the operation is normal when the result of the comparison is within the range rate; The sensor monitoring process consists of a fault warning step.

In case of using a combustion sensor like the present invention, it is regulated by the gas alarm concentration according to the law, and when this alarm is converted into voltage, the optimum sensor detection value is about 30mV, and when the value exceeds 40mV When the sensor's response becomes insensitive and cannot function as an alarm, on the contrary, when the temperature falls below 20 mV, the sensor reacts sensitively to miscellaneous gases other than the gas to be detected, thereby increasing the risk of unnecessary malfunction alarms, thereby degrading the reliability of the alarm. do.

Therefore, the present invention is made so that the microcomputer adds a certain range rate (± 15%) and compares the calculated alarm based on the optimal alarm set value so that it can continuously monitor whether the optimal alarm set value is maintained or not.

Of course, the alarm set value and the rate are merely exemplary values, which may vary depending on the characteristics of the sensor or the configuration of the voltage dividing circuit, but are not limited thereto.

Next, a device configuration as an embodiment of implementing the above control sequence will be described in detail.

3 illustrates a case in which an alarm device for detecting leakage of gas is configured.

The signal processing unit 103 includes a signal processing unit 103 for controlling a gas leakage calculation and input / output, a switch input unit 101 for inputting an external control signal, and an alarm signal input unit 102 for detecting an alarm signal through a sensor. A buzzer output unit 104 connected to an input to generate an alarm upon gas leakage, an LED display unit 105 indicating a control state, and an output unit 106 for outputting a gas leakage alarm signal as an external signal. In the gas leakage alarm device comprising a, the memory 112 for connecting to the microcomputer 110 that is the center of the control and operation so as to scan the divided voltage of the gas sensor, and stores the scanned detection value It is configured to record the initial sensor detected value as the alarm set value in the memory, and the sensor output value detected during use is compared with the set value stored in the memory to exceed a certain range. If you made below it will allow a sensor failure alarm.

According to the above embodiment, when the detection voltage of the sensor for gas detection is within a predetermined range compared to the specified alarm setting value, it is displayed as normal operation, and conversely, when it is detected that it is outside this range, the buzzer driver 104 is detected. And or through the LED display unit 105 to warn the user that the sensor is obsolete or disconnected use.

According to the present invention as described in detail above, the sensor of the alarm for alarming the leakage of gas is deteriorated due to the change of seizure after a certain period of use, the problem is that the normal function as a sensor is difficult to detect the user in advance It prevents an accident by maintaining a gas leak alarm that can operate normally at all times.

In addition, according to the present invention is a very excellent design that has the effect of detecting the disconnection of the sensor by comparing the initial setting value and the detected value that can be normal operation of the sensor.

Claims (1)

The signal processing unit 103 includes a signal processing unit 103 for controlling a gas leakage calculation and input / output, a switch input unit 101 for inputting an external control signal, and an alarm signal input unit 102 for detecting an alarm signal through a sensor. A buzzer output unit 104 connected to an input to generate an alarm upon gas leakage, an LED display unit 105 for displaying a control state, and an alarm signal output unit 106 for outputting a gas leakage signal to the outside. In the gas leakage alarm device, Connect to the microcomputer 110 of the signal processing unit which is the center of the control and operation so as to scan the divided voltage of the gas sensor, A memory 112 for storing the scanned detection value is configured to record an initial sensor detection value as an alarm setting value in the memory, and a sensor output value detected during use is compared with a setting value stored in the memory to exceed a predetermined range. The detection sensor monitoring device for a gas leakage alarm, characterized in that configured to output an alarm when the sensor failure or less than.