SU1444590A1 - Flame-checking device - Google Patents

Abstract

This invention relates to the automation of combustion processes and the control of the presence of flame in combustion chambers. The purpose of the invention is to increase reliability. A resistor 2 and a rectifying bridge 3 are connected in series with an ultraviolet radiation indicator 1. A relay amplifier 8 is connected to the output of bridge 3. Each of the two optocouplers consists of a LED 4, 5 and a photo thyristor 9, 10. The LEDs 4, 5 form the shoulders of bridge 3, and the photothyristors 9, 10 are turned on counter-parallel to the indicator 1. The LEDs alternately excite photothyristors, which shunt the indicator and thereby provide discharge suppression and memorization of the on state in each half-period up to the transition supply voltage through zero. Greater reliability is determined by lightweight. the mode of operation of the indicator, achieved without reducing its sensitivity. In addition, by combining the elements of the various functions of the simplified design of the device. 1 il. (L

Description

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The invention relates to a power system, in particular to the automation of combustion processes and the control of the presence of flame in combustion chambers, and can be used in the gas, oil refining, chemical industry and other branches of the national economy.

The purpose of the invention is to increase reliability.

The drawing shows a circuit diagram of a flame control device.

The device contains an ultraviolet radiation indicator 1, a resistor 2 connected in series with it, and a rectifying bridge 3, formed by LEDs 4 and 5 of the first and second optical switches and diodes 6 and 7, a relay amplifier 8 connected to the output of the rectifying bridge 3 , photothyristors 9 and 10 of the first and second optocouplers connected anti-parallel and connected to the ultraviolet indicator 1.

The device works as follows.

In the absence of a flame, indicator 1 is in a non-conducting state. With the appearance of the flame under the influence of the ultraviolet component of the radiation, the indicator 1 switches to the non-self-discharge mode. In the positive half-periods of the power supply, a current in the circuit arises: resistor 2 - indicator 1 - LED 4 of the first optocoupler switch - relay amplifier 8 - diode 7 of the rectifying bridge 3. In negative half-cycles of the power, a current in the circuit occurs: relay amplifier 8 - LED 5 of the second optocoupler - indicator 1 - resistor 2. In this case, relay amplifier 8 is in the on state and generates a flame signal. LEDs 4 and 5 alternately excite photothyristors 9 and 10 of optocouplers that shunt indicator 1 and thereby provide for the suppression of the discharge and memorization of the on state in each half-period until the supply voltage goes to zero. The current pulse duration of the indicator is determined by the turn-on time of the photo thyristor, the typical value of which lies

within 10-15 microseconds. Current indicator load factor K, 1 on. where T / 2 is the duration of the half-period of the supply voltage; 1 on is the turn-on time of the photothyristor.

For a mains frequency of 50 Hz, K is of the order of 10, which virtually eliminates the effect of such a significant indicator aging factor as cathode sputtering, which occurs at significant (close to unity) current loads.

The practical implementation of the device is tre-. Bits selection resistor in the indicator circuit by the formula

, 9Em n / 1spr,

where EMUH is the minimum value of the supply voltage; Icnp is the current for the photo thyristor

(reference value). The proposed device in comparison with the known one possesses greater reliability, determined by the facilitated mode of operation of the indicator, achieved without reducing its sensitivity.

In addition, the design of the device 5 is simplified by combining elements of various functions. Thus, optocoupler switches combine the functions of a rectifying bridge with high-speed elements of extinguishing the discharge indicator of ultraviolet radiation, as a result of which there is no need to use an isolating capacitor. The counter-parallel connection of photothyristors and the presence of connections with the indicator makes it possible to abandon the transformer with additional winding and dynistors.

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Claims (1)

Invention Formula A flame control device containing a power source, an ultraviolet radiation indicator, is sequentially 0 connected to it is a resistor, a rectifying bridge and a relay amplifier connected to the output of the rectifying bridge, characterized in that, in order to increase reliability, it contains two 5 optical-key switches consisting of an LED and a photothyristor, and the LEDs form shoulders bridge, and the photothyristors are turned on counter-parallel to the indicator.