RU53411U1 - IGNITION DEVICE - Google Patents

Abstract

The ignition device relates to a power system, in particular, to devices for igniting burners of power, hot water boilers and other combustion devices.

The ignition device works stably in a wide range of gas pressures, all the main gas-dynamic processes occur in the fire nozzle. The firing device operates in pilot burner mode. The simplicity of the design ensures the reliability and safety of the ignition device.

The ignition device operates as follows. After supplying gas to the gas duct (5) through the nozzle (7), the gas flows through the nozzle of the ejector (4), mixes with the air entering through the pipe (8), into the inner space of the housing (1) and the air inlet of the ejector (4). An air-gas mixture is formed in the mixing chamber of the ejector (4). The mixture enters the fire nozzle (2), in which a zone with recirculating low-speed flows forms. When a high-voltage voltage is applied to the current lead (9) in the gap between the ignition-control electrode (10) and the fire nozzle (2), a spark arises and the mixture is ignited. In the fire nozzle, a primary combustion zone is formed. At the same time, a gas jet flows out of the gas transfer tube, ignites from the flame of the primary zone, a secondary combustion zone is formed, while swirling jets of flame in the primary combustion zone wash the ignition-control electrode.

The function of monitoring the presence of flame in the ignition device is based on the one-sided conductivity of the flame in the gap: the ignition control electrode is a fire nozzle.

Description

The invention relates to a power system, in particular, to devices for igniting burners of energy, hot water boilers and other combustion devices.

A firing device is known comprising a gas duct connected to a mixing chamber, at the inlet of which there are air and gas supply manifolds and a tube, one end of which is connected to a gas supply manifold, and the second is located in the inlet section of the mixing chamber. (RF patent No. 2107226, INC 6 F 23 G 9/00, 1998).

The closest in technical essence is an ignition device containing a gas duct connected to a mixing chamber, at the entrance of which a gas and air supply manifold is placed, and a tube with a nozzle, one end of which is connected to a gas supply manifold, and the other is located in the inlet section of the mixing chamber. (RF patent No. 2169885, IPC 7 F 23 G 9/00).

The disadvantage of this invention is the design complexity, the presence of flame along the entire length of the structure, which leads to a decrease in the reliability and safety of the ignition device.

The objective of the invention is to increase the reliability and safety of the ignition device.

The task is achieved due to the fact that the ignition device containing a cylindrical body with a gas duct, an ejector, a gas transfer tube and an ignition element is additionally equipped with a fire nozzle connected to the body through a spacer, in the openings of which an ejector and an ignition element, made in the form of an ignition control electrode.

Figure 1 presents the schematic diagram of the ignition device. The ignition device comprises a housing (1), fire nozzles (2), interconnected via a spacer (3), an ejector (4) installed

in a spacer (3), a gas duct (5) with a gas fitting (7), connected to an ejector (4), a gas transfer tube (6), an air pipe (8), a current lead (9) with an ignition-control electrode (10).

The ignition device operates as follows. After supplying gas to the gas duct (5) through the nozzle (7), the gas flows through the ejector nozzle (4), mixes with the air entering through the pipe (8), into the interior of the housing (1) and the ejector air inlet (4). An air-gas mixture is formed in the mixing chamber of the ejector (4). The mixture enters the fire nozzle (2), in which a zone is formed with recirculating low-speed flows. When a high-voltage voltage is applied to the current lead (9) in the gap between the ignition-control electrode (10) and the fire nozzle (2), a spark arises and the mixture is ignited. In the fire nozzle, a primary combustion zone is formed. At the same time, a gas jet flows out of the gas transfer tube, ignites from the flame of the primary zone, a secondary combustion zone is formed, while swirling jets of flame in the primary combustion zone wash the ignition-control electrode.

The function of monitoring the presence of flame in the ignition device is based on the one-sided conductivity of the flame in the gap: the ignition control electrode is a fire nozzle. If an alternating electric current is supplied to the control and ignition electrode in the flame monitoring mode, then if there is a flame, the electric current is detected and allocated to the ignition and control electrode in the form of a constant component, which will be for the electronic circuit of the ignition and protection device, which includes the ignition device, a signal of flame in the ignition device.

The ignition device operates stably in a wide range of gas pressures, all the main gas-dynamic processes occur in the fire nozzle. The firing device operates in pilot burner mode. The simplicity of the design ensures the reliability and safety of the ignition device.

Claims (1)

An ignition device comprising a cylindrical body with a gas duct, an ejector, a gas transfer tube and an ignition element, characterized in that it is further provided with a fire nozzle connected to the body through a spacer, in the openings of which an ejector and an ignition element are made, made in the form of an ignition-control electrode.