SU1479788A1 - Pilot burner - Google Patents

Abstract

The invention relates to the field of energy and can be used for remote ignition of gas and fuel oil burners. The invention makes it possible to increase the operational reliability by reducing the heat loads in the zone of the electric ignitor. When the burner starts up, air enters the casing 1, gas — through the fuel inlet 2. Most of the gas due to partial overlapping of the pipe 2 with a bimetallic valve / BK / 7 through the opening 6 enters the casing 4 and through the perforation 5 into the pilot zone 9, where the gas is ignited The flame moves along the perforation 5 to the outlet nozzle 3. The torch heats the BC 7, it expands, blocking the opening 6 with the locking element 8. Most of the gas begins to flow into the outlet nozzle 3, increasing the length of the torch, which further heats the BC 7, which is a locking element m 8 completely covers the hole 6. 3 Il.

Description

The invention relates to energy and can be used for remote ignition of burners for gaseous and fuel oil.

The purpose of the invention is to increase operational reliability by reducing thermal loads in the area of the electric igniter.

1 shows a burner, a longitudinal section through j; figure 2 is a section aa in figure 1; in Fig.Z - node I in Fig.1.

The ignition burner contains an air supply housing 1, inside of which j a fuel pipe 2 with an output axial nozzle 3 and a perforated casing 4 with perforation 5 along the entire length are installed. Fuel pipe 2 has an opening 6 in the side wall with 2 bimetallic valve 7 having a locking element 8. On the wall of the housing 1 is located igniter 9.

The ignition burner operates as follows. 2 through the output nozzle 3, begins to warm it. The bimetallic valve 7 is straightened, blocking the opening 6 by the shutter element 8. Gas redistribution occurs, most of which begins to flow into the outlet nozzle 3, increasing the length of the torch and its radiation power, which ¹ further heats the outlet nozzle 3 and the bimetallic valve 7, which is a shutter element 8 completely covers the hole 6.

The use of an additional gas channel is only necessary during the ignition of a continuous ignition burner. The spark plug experiences thermal loads only when ignited, which significantly increases its durability.

Claims (3)

Claim Ignition burner containing air supply housing and located At start-up, air enters the housing 1, gas is supplied through the fuel pipe 2. Most of the gas due to the partial overlap of the pipe 2 by the bimetapic valve 7 through the hole 6 enters the casing 4 and through the perforation 5 into the ignition zone 9. The presence of an electric discharge on the igniter 9 leads to ignition of the mixture and the movement of the flame along the perforation 5 to the output nozzle 3. A torch of insignificant length because of the fuel nozzle with an axial outlet nozzle and a hole in the side wall due to the annular clearance, as well as an igniter located in the annulus 30 of the clearance, characterized in that, in order to increase operational reliability by reducing heat loads in the igniter zone, the fuel pipe of the 35 sleep gun is equipped with a perforated casing in communication with the cavity of the pipe through an opening in its side wall, which is also blocked by the beaten amount of gas passing U77X7 metal · valve. • I EZZZZZ1 ΈΖΖΖ2 ezzzzzzzzzzzzj