SU648796A1 - Device for checking flame availability - Google Patents

Description

one

The invention relates to the field of automatic control in a power system and can be used to monitor the state of the presence of flame in boilers.

Fire control devices are known based on the measurement of flame pulsation 1. Such devices have a low reliability of flame control of a boiler furnace burner due to the influence of flame pulsations of the walls of the furnace and other burners.

Closest to the invention is a device for monitoring the presence of a flame, containing a photo sensor with an amplifier, connected to a pulse shaper, an adder connected to a pulse generator, and a signal unit 2.

The operation of this device is based on measuring the frequency of the pulsation of the flame of a controlled burner. The pulsation of the flame is perceived by the photosensor, amplified and transformed into pulses. A change in the pulse repetition rate causes amplitude modulation of the voltage, which, after lightening and some conversion, arrives at the signal unit.

issuing a signal of the presence of a burner plate.

However, this device has a low reliability of the device due to the complexity of the signal conversion.

The aim of the invention is to improve the reliability of the device.

This is achieved by connecting the first electronic switch between the pulse driver and the adder, the other input of which is connected to one of the outputs of the same adder, between the BTopbJM output of which and the signal unit the second electronic switch is connected, and the pulse generator is additionally connected to the signal unit and the second electronic the key.

The drawing shows a block diagram of a device for controlling the presence of a flame.

The device contains a photo sensor 1, which is viewed at the root of the torch of the controlled burner, sensitive to a narrow frequency band of the light spectrum. The photosensor signal is fed to an amplifier 2 connected to a pulse shaper 3. The pulse shaper is a differentiating PC chain and a regenerative

comparison circuit with adjustable trigger threshold. The pulse shaper is connected to the first input of the first electronic key 4, the second input of which is connected to one of the outputs of the adder 5. The output of the first electronic key is connected to the input of the adder. The adder is five triggers connected to each other sequentially at the counting input and having a common reset. The second output of the adder is connected to the input of the second electronic key 6, to which the pulse generator 7 is also connected, containing a reactive trigger and three times defining the Chain. The pulse generator is also connected to the adder and to one of the inputs of the signal unit 8. The signal unit is a trigger connected to an electromagnetic relay. The second input of the signal unit is connected to the output of the second electronic key.

The device works as follows.

The narrow frequency band of the pulsations of the flame is converted by the photosensor 1 into an electrical signal, which is amplified by the amplifier 2 and fed to the pulse shaper 3. In the pulse shaper, pulsations with small rising fronts are screened out, and pulsations with large rising fronts are converted into pulses.

At the beginning of each pulse accumulation cycle, the adder 5 is in the prepared state, and the control voltage of the adder holds the first electronic key 4, which passes pulses to the input of the adder. If the adder 5 is filled up, until the end of the cycle, the control voltage locks the first electronic key, and the output voltage prepares the second electronic key 6 for passing the generator pulse 7 through it. The generator pulse, acting directly on the signal unit, puts it into a flameless state , but another pulse of the generator, passage through the second electronic key to the second input of the signal unit, translates it into the flame state. The third pulse of the generator 7 resets the adder 5 and starts the jet trigger of the generator 7. Due to the short duration of the transitions of the trigger of the signal unit from one state to another, which occurs when the adder 5 is periodically filled, the inertia of the electromagnetic relay of the signal unit ensures constant output value. .

If the accumulator is not filled by the end of the accumulation cycle, and this may occur when the controlled burner extinguishes the flame, when the pulsation arrives at the photosensor from the hot furnace or other burners, the output voltage of the adder does not prepare the second electronic key 6 for the generator 7 pulse to pass through it. the signal block passes only one pulse of the generator, translating it into the state

no flame.

Thus, the flame presence control device provides increased reliability by simplifying the conversion of the flame ripple signal and the selectivity of flame control while monitoring the pulsation frequency characteristic of this controlled burner.

Claims (2)

1. USSR author's certificate number 373490, cl. F 23 N 5/24, 1970. 2. US patent W 2994859, cl. 1961.