SU1477992A1 - Device for automatic controlling burner ignition - Google Patents

Abstract

The invention can be used in gas-oil burners roasting and sintering machines. The purpose of the invention is to increase the reliability of the device. A high-voltage unit 5 is connected to the ignition device 2, and a power amplifier 6 is connected to its drive 7. On line 4 of the gas supply to the burner 1 has a shut-off valve (K) 3. The flame control sensor 8 is connected to element (E) HE 9 and the first input E 10, whose output through the power amplifier 11 is connected to a 12K 3 drive. The output of the 13 position sensor K 3 is connected to the first input E 14, the second input of which is connected to exit E is NOT 9, and the third to shaper 15 of the "Start" command. The first input of the OR 16 is connected to the trigger output (T) 21 of the ignition device and the input of the amplifier 6, the second input is connected to the first input of the E 10, the inputs of the E 10 and the sensor 8, and the output of the E OR 16 - with the second input of E 23 Shaper 17 of the stop command is sequentially connected to E HE 22, E I 20, the output of which is connected to the first input T21. Output E 22 is also connected to the first input A 23, whose output communicates with the first input T24 of the ignition device, the second input of which is connected to the second input T21 and E 14, and the output to the second input E 10. 6 is connected to block 5 and an input of a time relay 18, the output of which through E 19 is connected to the first input of E 20. The device controls the flame of the main flame and the presence of a spark, and the actuator 7 provides a short-term input of the electrode 26 to the high-temperature ignition zone. 1 il.

Description

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This invention relates to a power system, in particular to an automatic one. control of the ignition of gas-oil burners of roasting and sintering machines

The purpose of the invention is to increase the reliability of the device.

The drawing shows a block diagram of the device.

The device for automatic ignition control of the burner 1 contains a pilot device 2, a shut-off valve 3 installed on the gas supply line 4 to the burner 1, a high-voltage unit 5 connected to the pilot device 2, the first power amplifier 6 connected to the actuator 7 of the pilot device 2, sensor 8 flame control connected to the first element HE 9 and the first input of the first element I 10, the output of which through the second power amplifier 11 is connected to the actuator 12 of the shut-off valve with the sensor 13 of the shut-off valve, the output of which Wow connected to the first input of the second element And 14, the second input of which is connected to the output of the first element NOT 9, and the third - to the driver 15 Start, element OR 16, the driver 17 Stop command, sequentially connected time relay 18, the second element NOT 19, the third element And 20 and the trigger 21 of the ignition device, and the third element IT22 connected in series, the fourth element And 23 and the trigger 24 of the shut-off valve, the output of which is connected to the second inlet of the first element 10 and the second

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the input to the output of the second element And 14 and the second input of the trigger 21 of the ignition device, the output of which is connected to the first input of the element OR 16, the second input of which is connected to the output of the flame control sensor 8, and the output to the second input of the fourth element And 23, Shaper 17 the Stop command is connected to the input of the third element HE 22, the output of which is. Pogo is connected to the second input of the third element And 20. The output of the trigger 21 of the ignition device is connected to the first power amplifier 6, the output of which is connected to the high-voltage unit 5 and the input of the time relay 18.

Air to the burner 1 is supplied via an air supply line 25, and the ignition device 2 has a high-voltage electrode 26 at the outlet.

The first inputs of the triggers of the ignition device 21 and the shut-off valve 24 are inverse inputs, and their second inputs are direct.

The automatic ignition control of the burner operates as follows.

In the initial state (after energizing the power supply), the shut-off valve 3 is closed, which excludes the supply of fuel from the gas supply line. To the burner 1 (air is supplied to the burner via the air supply line 25), the igniter drive 7 is off and the igniter 2 is in the initial state, the Closed position of the pin-valve 3 corresponds to the signal of the logical unit at the output of the sensor 13, the position of the shut-off valve 3. In the initial state at the output of the flame control sensor 8, at the output of the ignition device trigger 21 and at the trigger output Gera 24 of the shut-off valve. Logical zero signals are generated.

By the operator’s command, the start command is sent to the third input of the second element And 14 from the driver of the Start command. The signal of the logical unit comes in as well. And 14, a logical unit signal is generated, which leads to the appearance of a logical unit signal at the output of the ignition device trigger 21, which, through the first power amplifier 8, turns on the ignition device drive 7 and the high-voltage unit 5. As a result when the actuator 7 of the ignition device is switched on, the tip of the ignition device 2 with the high voltage electrode 26 is pushed the distance L into the ignition zone of the burner 1, and as a result of switching on the high voltage block 5, high voltage voltage pulses are generated at its output the electrode 26 of the ignition device, which ensures the appearance of a steady spark at the output of the ignition device 2 between the high-voltage electrode 26 and the body of the ignition device 2. Simultaneously with the trigger 21, the igniter On the device, a logical 40 unit signal appears at the output of the shut-off valve 24. This prepares the first AND 10 element for operation.

The presence of sparks in the ignition zone is go-; The relays are detected by the sensor 8 by the flame controller and at its output a signal of a logical unit is formed, which through the first element 10 arrives at the second power amplifier 11, which ensures the activation of the actuator 12 of the shut-off valve. The fuel through the fuel supply line 4 is supplied to the reel 1J, and since in the ignition zone of the burner 1 at this moment the ignition device 2 provides a steady spark, the fuel ignites, which is also detected by the flame control sensor 8.

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The time of the spark at the output of the ignition device 2 is determined by the setting of the time relay 18. After a time of 15 seconds, a signal of a logical unit appears at the output of time relay 18, and the output of the second element HE 19 is a logic zero signal, which, through the third element 20, resets the trigger 2 of the pilot device. The start time is in-. time & t occurs on the signal from the output of the first amplifier 6 -. power. After resetting the trigger 21 of the ignition device, a logical zero signal is generated at its output, the drive 7 of the ignition device and the high-voltage unit 5 is turned off. The tip of the ignition device 2 together with the high-voltage electrode 26 goes out of the ignition zone of the burner 1 and returns to its original position, respectively, the spark stops at the output of the ignition device 2, but the signal of the logical unit at the output of the flame control sensor 8 does not disappear, since in the absence of a spark, the flame control sensor 8 fixes There is a torch torch 1. Thus, the fuel is supplied to the ignition zone of the burner 1 only if there is a steady spark in the ignition zone of the burner 1, which ensures the safety of the ignition of the burner 1.

Ignition of the burner 1 is not performed if the shut-off valve 3 is open before starting the ignition. This is ensured by the presence of a logical zero signal at the output of the sensor 13 of the position of the shut-off valve, which blocks the passage of the signal from the start command 15 through the second element 14.

Ignition is also not performed if a signal of a logical unit is present at the output of the flame control sensor 8 before the start of ignition, which indicates a malfunction of the flame control sensor 8. The ignition blocking is ensured by the presence of a logical zero signal at the output of the first element HE 9, which blocks the passage of the signal from the start command 15 through the second element 14.

The stopping of the fuel supply to the burner 1 takes place after a stop command has been issued from the stop 17 command. At the output of the third element NOT 22, a logical zero signal is generated, which, through the fourth element And 23, resets the trigger 24 of the shut-off valve, and through the third element 20, triggers 21 of the ignition device, the gas supply to the burner 1 stops, all devices are reset the

The shutdown of the actuator 12 of the shut-off valve occurs in the event that the fuel stops burning. In this case, at the output of the flame control sensor 8, a logical zero signal is generated, which, through the first element 10, turns off the actuator 12 of the shut-off valve, and through the first element OR 16 and the fourth element 23, reset the trigger 24 of the shut-off valve.

The presence of the actuator 7 of the ignition device allows the tip of the ignition device 2 with the high voltage electrode 26 to be moved into the ignition zone for a short period of time and removed from the ignition zone after the ignition of the burner 1. Thus, the high voltage electrode 26 of the ignition device 2 is not exposed to long-term high temperature which ensures the longevity of its operation, and therefore, the reliability of ignition of the burner 1 is increased.

Thus, the device provides increased safety and reliability of the ignition of the burner by controlling both the flame of the main torch and the presence of a spark from the ignition device, as well as short-term insertion of the ignition tip into the high-temperature ignition zone of the burner.

Claims (1)

Invention Formula An automatic ignition control device for a burner that contains a pilot device, a shut-off valve installed on the gas supply line to the burner, a high-voltage unit connected to the pilot device, a first power amplifier connected to the driver of the pilot device, a flame control sensor connected to the first element and the first input of the first element And, 5 whose output through the second power amplifier is connected to a cut-off valve actuator with a position sensor of a shut-off valve, the output of which is connected to the first inlet of the second About an element, the second input of which is connected to the output of the first element NOT, and the third to the driver of the Start command, the OR element and the driver of the Stop command, different with the fact that, in order to increase reliability, it additionally contains series-connected time relays, the second the element is NOT, the third element is AND and the ignition device trigger, the third element is connected in series, the third element is AND and the trigger of the shut-off valve, the output of which is connected to the second input of the first element AND, and the second input to the output of the second electric And the second input of the trigger ignition device, the output of which is connected to the first input of the OR element, the second input of which is connected to the output of the sensor about flame control, and the output is to the second input of the fourth element AND, the stop command driver is connected to the input of the third element NOT, the output of which is connected to the second input 5 of the third element And, the trigger output of the ignition device is connected to the first power amplifier, the output of which is connected to the high-voltage unit and the time relay input. five Editor I. Derbak Compiled by V.Kol snikov Tehred L. Oliynyk Proofreader S. Cherni Order 2347/37 Circulation 489 VNIIPI State Committee for Inventions and Discoveries at the State Committee on Science and Technology of the USSR 113035, Moscow, Zh-35, Raushsk nab. 4/5 Subscription