KR880001683Y1 - Thermo couple fire detector - Google Patents

Abstract

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Description

Thermocouple Flame Detection Circuit

1 is an explanatory diagram of the operation of the thermocouple flame detection circuit of the present invention.

* Explanation of symbols for main parts of the drawings

2: thermocouple 3: thermocouple output amplifier circuit

4: Ignition detection circuit 5: Differential circuit

6 time limit circuit 7 anti-inflammatory detection circuit

81: relay 82: transistor

The present invention relates to a thermocouple flame detection circuit using a thermocouple for detecting the ignition and extinguishing of a flame such as a gas combustion device.

Gas combustion apparatuses, such as a gas heating apparatus and a gas boiling apparatus, are equipped with the thermocouple flame detection circuit which arrange | positions a thermocouple above the fireballs, such as a pilot crater, and detects ignition and extinguishing of a flame by the output. However, when the thermocouple is heated by the flame, the temperature rises relatively rapidly and the output (electromotive force) rises, but when the flame is fired, it is naturally cooled, so the winding speed is slow and the electromotive force decreases slowly. Conventionally, this type of thermocouple flame detection circuit has the following drawbacks because the spark ignition and extinguishing of the thermocouple are detected only at or above the set level or below the level.

A) If the set level is set low, the ignition detection responsiveness is good, but the fire extinguishing response is late.

B) If the set level is set high, anti-inflammatory response is good but ignition response is slow.

An object of the present invention is to provide a thermocouple flame detection circuit that divides the output of a thermocouple into two, detects ignition and quenching at each output, and responds ignition and quenching both responsively.

The thermocouple flame detection circuit of the present invention is attached to the combustion zone of the combustion unit, the thermocouple generating an electromotive force by heating temperature rises, the thermocouple output amplifier circuit for amplifying the output of the thermocouple, and the output of the thermocouple output amplifier circuit And a ignition detection circuit for performing comparison with the ignition reference voltage and detecting ignition; a differential circuit for inputting the output of the thermocouple output amplifier circuit; and a time circuit for delaying the output of the differential circuit for a set time. It is comprised as an anti-inflammatory detection circuit which detects anti-inflammatory which compares the output voltage of the said differential circuit with an anti-inflammatory reference voltage through a circuit.

The thermocouple flame detection circuit of the invention made as the above configuration has the following effects.

(a) In order to detect ignition and anti-inflammatory as the ignition detection circuit for distributing the output of the thermocouple and the anti-inflammatory detection circuit, ignition and anti-inflammatory can be detected together with good responsiveness.

(b) Since the time-limiting circuit is provided in the anti-inflammatory detection circuit, malfunctions can be prevented against instantaneous misfire and flames.

Next, the thermocouple flame detection circuit of the present invention will be described based on one embodiment shown in the drawings.

FIG. 1 shows an electronic circuit diagram of an embodiment in which the thermocouple flame detection circuit of the present invention is applied, and relay energization control is performed to operate a main valve of gas by spark ignition and extinguishing. The thermocouple flame detection circuit 1 is attached to an upper portion of a pilot crater of a gas combustor (not shown), and the offset adjustment volume which amplifies the electromotive force of the thermocouple 2 that generates an electromotive force by heating and temperature rise by the pilot flame. A thermocouple output amplifying circuit (3) having an (31), an output voltage of the thermocouple output amplifying circuit (3), and an ignition reference voltage set to a low logic level using a reference voltage adjusting volume (41) for ignition reference; A differential circuit 5 having an ignition detection circuit 4 for comparing and discriminating and generating a high logic output at the time of ignition detection, and an operational amplifier 51 for differentiating the output voltage of the thermocouple output amplifier circuit 3 and the The time-limiting circuit 6 for preventing malfunction, which checks that the output voltage of the differential circuit 5 is charged for a predetermined time, and confirms that the constant voltage is continuous for a predetermined time or more, and the time-limiting circuit 6 are usually divided into the above-described differential circuit 5. Output voltage And an anti-inflammatory detection circuit (7) which makes a comparison with the anti-inflammatory reference voltage set at a high logic level for anti-inflammatory reference and generates a low logic output upon anti-inflammatory detection, and outputs the ignition detection circuit (4). Is connected through the base 82B and the resistor 83 of the transistor 82 which controls the energization of the relay 81 which controls the operation of the gas supply valve which opens and closes the gas supply passage (not shown). The output of the circuit 7 is connected through the base 82B, the resistor 83, and the diode 84 of the transistor 82.

Next, the above operation will be described.

When the flame ignites the pilot crater, the thermocouple 2 heats the flame. The temperature is raised to generate an electromotive force. This electromotive force is controlled by the offset adjustment volume 31, and when the amplified output amplified by the thermocouple output amplifier circuit 3 reaches the ignition reference voltage set by the reference voltage adjustment volume 41, the ignition detection circuit 4 A high logic output is generated in the base 82B of the transistor 82. The transistor 82 is energized when an output is applied to the base 82B, and the gas supply valve is opened.

When the pilot crater is extinguished by some factor (stop of gas supply, etc.), the thermocouple 2 naturally cools, and the temperature gradually decreases, so that the electromotive force is attenuated. This attenuation electromotive force is inverted and simultaneously output as a differential circuit 5 to generate a high logic output. This high logic output is delayed in the time circuit 6, and is applied to the anti-inflammatory detection circuit 7 after a certain time has elapsed, so that the anti-inflammatory detection circuit 7 generates a low logic output. The low logic output of the anti-inflammatory detection circuit 7 draws the voltage of the base 82B of the transistor 82 through the diode 84 so that the transistor 82 is in a non-energized state and the relay 81 is not energized. The gas supply valve is closed as before.

In the above embodiment, the opening and closing operation of the gas supply valve was performed by the output of the thermocouple flame detection circuit of the present invention, but it can be applied to all circuits related to spark ignition and extinguishing. In addition, the re-ignition waiting circuit may be assembled and fitted in the circuit so as to shorten the re-ignition waiting time.

Claims (1)

In the thermocouple which is attached to the fire zone of the combustion unit and is heated and heated to generate electromotive force, the thermocouple output amplifying circuit which amplifies the output of the thermocouple and the output of the thermocouple output amplifying circuit are compared with the ignition reference voltage. And an ignition detection circuit for detecting ignition, a differential circuit for inputting the output of the thermocouple output amplifier circuit, and a time circuit for delaying the output of the differential circuit for a set time, and outputting the differential circuit through the time circuit. A thermocouple flame detection circuit comprising an anti-inflammatory detection circuit for detecting anti-inflammatory by comparing a voltage with an anti-inflammatory reference voltage.