SU926440A1 - Frame monitoring apparatus - Google Patents

Description

(5) DEVICE TO CONTROL FLAME

one

The invention relates to a device. The protection of thermal installations from uncontrolled extinction of the flame in the furnace and can be used in various boiler installations and other energy facilities.

A device for automatically controlling the burner flame, comprising a circuit with a photoelectric flame sensor, a four-stage amplifier, a threshold trigger, a control circuit, photoresistors, an actuator controlling the valve in the fuel supply circuit 1, is known.

The disadvantages of this device are the complexity of the equipment and low reliability.

The closest in technical essence to the present invention is a device for monitoring a flame, comprising a power supply circuit, a radiation detector connected through a diode to the thyristor control circuit.

connected to a capacitor and resistors, and the executive body 2.

A disadvantage of the known flame control device is low reliability when burning various fuels.

The purpose of the invention is to improve the reliability of the device when burning various fuels in a burner,

 This goal is achieved by

10 that the flame monitoring device further comprises a switch and a second capacitor connected to the diode link with the radiation detector and shunted together

15 with a diode through the switch.

The drawing shows a diagram of the proposed device control the flame.

The device contains a power circuit,

including a bridge rectifier 1, limiting 2 and adjusting 3 resistors, which together with capacitor A form a smoothing filter.

The radiation detector 5 (photodiode) is connected to the control of the thyristor circuit 6 through a capacitor 7 and diode 8, which form a circuit which is bridged by the switch 9 a capacitor 14 in order to stabilize the operation of the relay,

The device works as follows.

When the switch 9 is open, the flame control device is sensitive to the variable component of the photoelectric current of the photodiode 5. The current pulses passing through the capacitor 7 and the diode 8 gradually charge the capacitor 10 of the thyristor response delay circuit. When the voltage on the capacitor 10 reaches a certain value (approximately 0.3–0.5 V), the thyristor will turn on and a current pulse will pass through the current of the electromagnetic relay-actuator. When the voltage rectified by bridge 1 (but not smoothed) decreases to zero (this happens 100 times per second at an alternating voltage frequency of 50 Hz), the thyristor turns off, then when the supply voltage of the anode circuit of the thyristor 2 rises to 2-3 and if, in this case, the voltage across the capacitor 10 is of sufficient magnitude, the thyristor is switched on again. Therefore, through the winding of the electromagnetic relay 13 current pulses flow with a frequency of 100 Hz.

In the event of a torch extinguish, the capacitor 10 is discharged through a resistor 1

and after the next voltage drop in the anode circuit of thyristor 6 to zero, its switching on will not occur and the electromagnetic relay de-energizes.

When the switch 9 is closed, the flame control device is sensitive to the constant component of the photoelectric current of the diode 5. Using the switch 9 and the adjusting resistor 3, the optimum operating mode is selected when changing fuel.

The economic effect from the use of the proposed device is to eliminate the danger of explosion of the thermal installation and to increase the culture and safety of the operating personnel.

Claims (1)

1. Zapalno-protective device stv.o ZZTs-8. Technical description and operating instructions. Factory Ilmarine, 1978, p. 292. US Patent No., cl. 31-68, published. 1970. v