RU10242U1 - ELECTRIC IGNITION IGNITION - Google Patents

Abstract

1. An ignitor with electric ignition, comprising a housing in the form of a tube, inside which an electrode is coaxially placed, located in the central hole of the pylon installed in the transverse plane of the tube, the pylon being made of electrical insulation material, a flame sensor and an air and fuel supply unit, characterized in that the pylon is made in the form of a streamlined rod. 2. The ignitor according to claim 1, characterized in that the rod is made of a cylindrical section of fluoroplastic. 3. The ignitor according to claim 1, characterized in that the flame sensor is located in the end part of the housing opposite the outlet.

Description

Electric igniter

The invention relates to burner devices, in particular to igniters with electric ignition, mainly for injection burners with preliminary mixing of fuel and air.

Known igniter with electric ignition, containing a housing in the form of a tube, inside which an electrode is coaxially placed, located in the central hole of the pylon installed in the transverse plane of the tube, while the pylon is made of electrical insulation material, a flame sensor and an air and fuel supply unit (see book V.M. Chepel and I.A. Shur Combustion of gases in the furnaces of boilers and furnaces and maintenance of the gas facilities of an enterprise, L, Nedra, 1980, p. 350, Fig. 7. 29.)

A disadvantage of the known pilot light is that in addition to the cross-shaped pylon made of electrical insulation material, there is also a ceramic tube that insulates the central electrode from the body, the length of which can reach 2-3 m. Since most of the ceramic tube is located in boilers, it is exposed to high temperature, which leads to cracking and, ultimately, to the destruction of the insulating tube, which reduces the reliability of the igniter.

In addition, the implementation of the cross-shaped pylon and the presence of a ceramic tube clutters the passage section of the housing, which increases the hydraulic resistance to the flow of the air-fuel mixture. The clutter of the cross section does not allow the installation of a flame sensor in the housing, for example, in the air-fuel mixture supply unit, which reduces the reliability of the flame monitoring when the flame sensor is placed inside the boiler volume and complicates the design. M.C. 6 F23Q5 / 00

increase the reliability of the igniter with electric ignition while simplifying its design.

This is achieved by the fact that in the igniter with electric ignition, containing a body in the form of a tube, inside of which is coaxially placed an electrode located in the central hole of the pylon installed in the transverse plane of the tube, while the pylon is made of electrical insulation material, a flame sensor, an air supply unit and fuel, according to a utility model, the pylon is made in the form of a streamlined rod, for example, a cylindrical fluoropolymer.

In addition, the flame sensor is located in the end of the housing opposite the outlet.

In Fig.1 shows a longitudinal section of the igniter with electric ignition, and in Fig.2 and 3-section of the pylon along AA.

The igniter contains a housing 1 in the form of a tube, inside of which a central electrode 2 is coaxially placed in the central hole 3 of the pylon 4 (there may be several pylons 4 equally spaced in the same plane along the length of the tube 1) installed in the transverse plane of the tube 1. The pylon 4 is streamlined forms (see FIGS. 2 and 3) in the form of a fluoroplastic rod that is not afraid of thermal and mechanical shocks compared to ceramics, which increases the reliability of the igniter. In addition, the fluoroplastic is not wetted by water, which makes it possible to use the ignitor in conditions of high humidity, precipitation and condensation on the ignitor parts and does not lead to breakdown on the housing, increasing its reliability. The cylindrical cross-section of pylon 4 (see FIG. 3) simplifies its manufacturing technology with a slight increase in hydraulic resistance compared to the streamlined shape of the rod (see FIG. 2). The housing 1 is equipped with a NODE 5 for supplying air in the form of openings 6 and a dummy 7 for supplying gas. At the end of the housing 1, a flame sensor 8 is installed. At the output of the igniter, a flame stabilizer 9 is installed, which is electrically isolated from the housing 1 and is the second electrode.

The ignitor works as follows. Gas is supplied from the gas supply system to the nozzle 7 under pressure, which ejects air into the cavity of the tube 1 through the openings 6.

Stirring inside the tube 1, the gas-air mixture moves to its outlet. Simultaneously with the gas supply to the igniter, voltage is applied to the electrode 2, as a result of which a spark arises between the electrode and the flame stabilizer wall 9, which is grounded through the igniter body 1. At the outlet of the tube 1, a torch is formed, the presence of which is controlled by a flame sensor 8 installed in the end of the housing 1. The execution of the pylon 4 in the form of a streamlined rod made of fluoroplastic and choosing the appropriate diameter of the tube 1 allows to exclude the ceramic insulating tube from the igniter while maintaining high electrical insulation properties igniter, thereby increasing the reliability of its operation. In addition, this form of the pylon allows you to place the flame sensor outside the exposure to high temperatures, which also increases the reliability of the igniter. The streamlined shape of the pylon reduces the hydraulic resistance during transportation of the air-gas mixture from the inlet to the outlet of the tube.

Claims (3)

1. An ignitor with electric ignition, comprising a housing in the form of a tube, inside which an electrode is coaxially placed, located in the central hole of the pylon installed in the transverse plane of the tube, the pylon being made of electrical insulation material, a flame sensor and an air and fuel supply unit, characterized in that the pylon is made in the form of a streamlined rod.  2. The ignitor according to claim 1, characterized in that the rod is made of a cylindrical section of fluoroplastic. 3. The ignitor according to claim 1, characterized in that the flame sensor is located in the end part of the housing opposite the outlet.