SU1067301A1 - Igniter - Google Patents

Abstract

1. FLAMMER, containing an air supply pipe with an outlet nozzle Nozzle connected to an acoustic chamber, and a resonant tube installed opposite the nozzle nozzle with a dead end positioned in the ignition zone, characterized in that, in order to increase reliability, the acoustic chamber is enclosed in a casing with a bore fitted with a check valve. 2. The igniter according to Claim 1, characterized in that the air supply pipe is mounted with the possibility of axial movement. 3. An igniter according to claim 1, characterized in that the resonant tube is mounted with the possibility of axial movement.

Description

The invention relates to energy and can be used for. ignition of fuel in various devices for its combustion, for example, in combustion chambers of downhole generators. A device for igniting a fuel is known, which contains an accumulation element connected to a power source and melted in the fuel flow 1. A disadvantage of the known device is low reliability, especially under conditions of use in a downhole generator. The closest in technical essence to the present invention is an igniter containing an air supply pipe with an outlet nozzle outlet, connected to an acoustic chamber, and a resonance tube installed opposite the nozzle nozzle with a closed end placed in the ignition zone | 2. The disadvantage of this device is the low reliability with multiple npH.vieneniya in deep wells due to the impossibility of tuning and the risk of plugging the cavity of the igniter. The purpose of the invention is to increase reliability. This goal is achieved by the fact that in an igniter containing an air supply pipe with an outlet nozzle connected to an acoustic chamber, a resonator pipe with a broken end located in the ignition zone is installed opposite the nozzle nozzle located in the ignition zone, with an aperture provided with a check valve. In addition, the air supply pipe and the resonance pipe can be installed with axial movement. The drawing shows the igniter, axial section. The igniter contains an air supply pipe 1 with an outlet nozzle 1 12 2 connected to the acoustic chamber 3, and a resonance pipe 4 with cavities 5-8. The plugged end 9 of the pipe 4 is placed in the fuel pipe 10 and provided with fins I. The acoustic chamber 3 is enclosed in a casing 12 with an opening 13 equipped with a check valve 14. The air feed pipe 1 and the resonance pipe 4 are installed with relative displacement by means of the actuator 15. During operation the igniter in the combustion chamber of the well generator is lowered along with the latter to the bottom of the well. At the same time, the check valve 14 remains in the closed position, protecting the cavity 5 and the resonant pipe 4 from the external environment. After installation, compressed air is supplied through pipe 1, which through nozzle nozzles 2 enters the acoustic chamber 3, the resonant pipe 4 is discharged 4ispe3 check valve 14. The interaction of the air stream formed by the nozzle nozzle 2 with an air column in the cavity 5-8 of the resonant pipe 4 leads to the occurrence of resonant acoustic oscillations accompanied by the propagation of shock waves in the resonant tube 4. Heating the plugged end 9 to 1000 ° C. The fuel mixture flowing through the fuel pipe 10 contacts the end 9, ignites. Then the air supply stops, the pressure in the acoustic cavity 5 drops, the aperture 13 of the check valve closes, isolating the cavity 5 from the external environment. By moving the air supply pipe 1 relative to the resonant pipe 4 by the actuator 15, in each particular case the optimum pressure in pipe 1 is selected, corresponding to the maximum temperature of heating of the end 9 of the resonant pipe 4. Using the proposed igniter can significantly increase the reliability of the combustion chambers of the downhole generators.

Claims (3)

1. IGNITION device containing an air supply pipe with an output nozzle nozzle connected to the acoustic chamber, and a resonant pipe mounted in front of the nozzle nozzle with a blanked end located in the ignition zone, characterized in that, in order to increase reliability, the acoustic chamber is enclosed in a casing with a hole provided with a check valve. 2. Igniter according to π. 1, characterized in that the air supply pipe is installed with the possibility of axial movement. 3. Igniter according to π. 1, characterized in that the resonance tube is mounted with the possibility of axial movement.