RU2471121C1 - Air-gas injector burner for ignition of gas-oxygen machine cutting torches - Google Patents

Abstract

FIELD: heating.

SUBSTANCE: air-gas injector burner for ignition of gas-oxygen machine cutting torches includes mixer with electrode, gas supply nozzle with a channel, which is installed at mixer inlet; mixer is provided with additional electrode fixed through insulator in gas supply nozzle coaxially to mixer; besides, in gas supply nozzle with respect to the channel there made are holes uniformly located together with channel in angular direction and located at equal distance from nozzle longitudinal axis, and working end of additional electrode and mixer electrode are located at the distance from mixer outlet, which is equal to inner diameter of mixer.

EFFECT: reliable operation with simultaneous simplification of the design owing to stable formation of long ignition flame in the whole range of working pressures of combustible gases in main factory circuits without using any adjusting elements in automatic operating mode of machine for thermal cutting of metals.

1 dwg

Description

The invention relates to injection burner devices, mainly to burners designed for igniting gas-oxygen machine cutters.

Known injection gas burner containing a mixing chamber with holes on the side surface, a mouthpiece and a gas nozzle, on the side surface of the mixing chamber in front of the mouthpiece made a second row of holes at a distance from the bottom of the mouthpiece to the centers of the second row of holes no more than 3D, where D is the inner diameter of the mixing cameras. Moreover, the total area of the holes in both rows is not less than the cross-sectional area of the channel of the mixing chamber. Outside the mixing chamber, a sleeve is installed with the possibility of movement along the chamber and overlapping holes [RU No. 2227872 C1, F23D 14/02, F23D 14/62, 2004 (analogue)].

The disadvantage of this burner is the lack of automatic ignition and the need to adjust the flow of combustible gas using valves and air flow using an adjusting washer, which is inconvenient in the conditions of an automatic cycle of a metal thermal cutting machine

The closest in technical essence and functional purpose is an injection burner containing a gas supply nozzle with an axial channel installed at the inlet to the mixer confuser along its axis, and an adjusting washer placed around the nozzle installed at the entrance to the mixer with an end gap in communication with the atmosphere, except In addition, a spark plug with an electrode is additionally installed in the mixer confuser; an additional inclined throttle hole is made on the side surface of the gas supply nozzle, connected the axial channel of said nozzle and directed on the electrode of the spark, and the output of the converging tube is further disposed termosignalizator [SU №1602128 A1, F23D 14/04, 1989 Georgia (prototype)].

The disadvantage of an injection burner is the need to control the flow of combustible gas using valves and the air flow using an adjusting washer, which is inconvenient in the conditions of an automatic cycle of a metal thermal cutting machine.

The objective of the invention is to provide a gas-air injection burner for igniting gas-oxygen machine cutters, having a minimum size, capable of automatically generating an ignition torch with a length of at least 150 mm. In this case, the burner must operate stably in the range of combustible gas pressures (natural, propane-butane) from 0.2 to 2 bar, without requiring adjustment of the flow of combustible gas and air, and stable ignition of the gas mixture must be ensured by the electric discharge created inside the burner body as far as possible from its nozzle in order to maximize the removal of fusible polymer insulators and gas supply holes of small diameter from the zone of thermal cutting of metal.

EFFECT: reliable operation with simultaneous simplification of the design due to the stability of the formation of a long ignition flame in the entire range of working pressures of combustible gases in main factory networks without the use of adjusting elements in the automatic operation of a metal thermal cutting machine.

The task and the specified technical result is achieved by the fact that in the gas-air injection burner for igniting gas-oxygen machine cutters containing a mixer with an electrode, a gas supply nozzle with a channel installed at the inlet of the mixer, according to the invention, the mixer is equipped with an additional electrode fixed through an insulator in the gas supply nozzle coaxial to the mixer, in addition, in the gas supply nozzle, respectively, to the channel, holes are made that are uniformly in the angular direction with the channel and p vnoudalenno from the longitudinal axis of the nozzle, and the working end of the further electrode and the electrode of the mixer are arranged on the output of the mixer at a distance L, equal to the inner diameter D of the mixer.

Unlike the prototype, the proposed gas-air injection burner for igniting gas-oxygen machine cutters has a gas-supply nozzle with outlet openings evenly distributed in the angular direction and equidistant from the longitudinal axis of the nozzle, which allows uniform mixing of combustible gas with air. In addition, the total cross-sectional area of these holes is selected in such a way as to ensure the stability of the formation of a long ignition flame in the entire range of working pressures of combustible gases in the main factory networks without the use of adjusting elements. A long flame (more than 150 mm) allows you to install the burner at a great distance from the oxy-fuel torch and the thermal cutting zone. In addition, the mixer is equipped with an additional electrode fixed through an insulator in the gas supply nozzle coaxially to the mixer, which allows stable ignition in the mixer channel.

The drawing shows a General view of a gas-air injection burner for igniting a gas-oxygen cutting torches.

The proposed gas-air injection burner for igniting gas-oxygen machine cutters contains a mixer 1 with an electrode 2, a gas supply nozzle 3 with a channel 4, installed at the entrance to the mixer. The mixer is equipped with radial holes 5 for entering the air drawn in by the flow of combustible gas and has an additional electrode 6 fixed through an insulator 7 in the gas supply nozzle coaxially to the mixer, in addition, holes 8 are made in the gas supply nozzle, respectively, along the channel uniformly in the angular direction and equidistant from the longitudinal axis of the nozzle.

The device operates as follows. The burner is installed on the support of a thermal metal cutting machine, connected to the gas main of the enterprise and to the electrical network of the thermal cutting machine. Before igniting the torch, combustible gas is supplied to the gas supply nozzle 3. Natural gas or propane-butane can be used as the gas. Further, the combustible gas uniformly passes through the channel 4 and the openings 8 having a diameter d distributed around the circumference of the gas supply nozzle 3. A uniform distributed flow of combustible gas picks up and draws air into the mixer 1 through the openings 5 having a diameter d2. Since the flow of combustible gas is distributed, it quickly mixes with air. Next, an additional voltage 6 is applied to the additional electrode 6 and the burner electrode 2 at the rate of 1 kV per 1 mm of the gap, while an electric breakdown occurs between the electrodes 2 and 6, igniting the gas mixture. Further, stable combustion occurs, and the length of the torch created by the burner varies in the range of 150-190 mm, which makes it possible to place the burner, and accordingly its parts from fusible materials, for example insulator 7, at a large distance from the metal heat treatment zone. At the same time, the regulation of the supply of combustible gas by the valves in the entire pressure range in the factory gas network of 0.2-2 bar is not required. And also does not require regulation of the flow of atmospheric air injected by the flow of combustible gas through openings d2. Thus, the proposed design works stably without the use of adjusting elements.

An air-gas injection burner for igniting gas-oxygen machine cutters can be used on thermal metal cutting machines operating in automatic and semi-automatic mode in various industrial sectors, in particular in mechanical engineering.

Claims (1)

An air-gas injection burner for igniting gas-oxygen machine cutters, comprising a mixer with an electrode, a gas supply nozzle with a channel installed at the inlet of the mixer, characterized in that it is provided with an additional electrode fixed through the insulator in the gas supply nozzle coaxially with the mixer, in addition, in the gas supply nozzle according to the channel, holes are made, located together with the channel uniformly in the angular direction and equidistant from the longitudinal axis of the nozzle, and the working end of the additional electrode mixer electrode is arranged on the output of the mixer at a distance equal to the inner diameter of the mixer.