RU1839218C - Ignition - Google Patents

Abstract

Use: for igniting burners of boiler units and other fuel-burning devices. The goal is to increase operational reliability and reduce fuel consumption. SUMMARY OF THE INVENTION: in the housing 1, there are multi-nozzle nozzles 11 with peripherally placed nozzles 17, a detonation tube 4 with an outlet portion 5 located peripherally in the nozzle 11, an air-gas mixture supply pipe 7 and an air bypass nozzle 13 with a nozzle 14. Detonation tube 4, a tube and a pipe 13 are in communication with the detonation chamber 12. In the nozzle 11, the inlet sections of the impulse tubes 15 are connected to the contact signaling device 10 of the torch. The nozzles 11 have radial holes 16 for supplying secondary air of the adjacent the nozzles 17 are connected to the outlet sections. Air and gas supply pipes 2 and 3 are connected to the housing 1. The device contains an electric candle 8. During operation of the device, a part of the gas-air mixture formed in the housing 1 is bypassed through the tube 7 into the detonation chamber 12, where through the pipe 13 through jet 14 also delivers clean air. After applying voltage to the candle 8, the gas-air mixture near the candle, where the pusher charge is accumulated, explodes and a wave propagates through the tube 4 with the igniting part of the charge, resulting in an outlet In section 5 of tube 4, a flame pulse arises, igniting the main gas-air stream flowing out through nozzles 17. At the sections of nozzles 17 there is a rarefaction, which ensures air intake through holes 16 and forms the development of a recirculation zone with favorable combustion conditions allowing reduce fuel consumption and increase operational reliability. Zil.

Description

8

The invention relates to energy and can be used to ignite the burners of boiler units and other fuel burning devices.

A firing device is known comprising a housing with air and gas inlets, as well as a firing plug with voltage source 1. A disadvantage of the known device is its low cost-effectiveness.

Closest to the described one is an ignition device comprising a housing with air and gas inlets and a detonation tube with an outlet portion connected to the housing with its inlet portion using an air-gas mixture inlet tube, as well as an electric candle with a high voltage source and a torch contact indicator 2. The disadvantages of this device are operational reliability and increased fuel consumption.

The aim of the invention is to increase operational reliability and reduce fuel consumption.

The goal is achieved in that in the ignition device comprising a housing with air and gas supply nozzles and a detonation tube (With an outlet section communicated with the housing by its inlet section using an air-gas mixture supply pipe, and also an electric candle with a high voltage source and a contact signaling device of the torch, in the outlet section of the body there is a multi-nozzle nozzle with the outlet section of the detonation tube placed in it, the inlet section of which is made stepwise expanding to form a deton an ion chamber communicated with the housing cavity by an additional air bypass nozzle equipped with a nozzle, while additional impulse tubes located in the housing are connected to the contact annunciator, the inlet sections of which are located in the multi-nozzle section, radial holes for supplying secondary air are made in the side wall of the housing in the nozzle area, nozzles adjacent to the exit sections of the nozzles, the total passage section of the body and the air supply pipe being greater than the total nozzle passage section n the cage having a length less than the length of the nozzle, wherein the output portion of the detonation tube is located peripherally, wherein the supply tube gzzovoz- stuffy mixture located in the cavity of the housing, and the gas supply pipe is connected to the housing between the multi-nozzle and the nozzle air supply.

Figure 1 schematically shows the ignition device; FIG. 2 is a view A of FIG. 1; on the

FIG. 3 is a view B of FIG. 1.

The ignition device comprises a housing 1 with nozzles 2 and 3, respectively, for supplying air and gas and a detonation tube 4 with an outlet section 5, the pipe 4 is communicated

with the housing 1 by its inlet section 6 using the tube 7 for supplying a gas-air mixture. The ignition device also contains an electric candle 8 with a high voltage source 9 and a contact signal 5 torch lighter 10. In the output section of the housing 1, a multi-nozzle nozzle is installed, 11 with the output section 5 of the detonation tube 4 located therein. The input section b of the tube 4 is made in steps

0 expanding with the formation of the detonation chamber 12, in communication with the cavity of the housing 1 bypass air pipe 13, equipped with a nozzle 14. To the contact signaling device 10 are connected impulse tubes 15 located in the housing 1, the inlet sections of which are located in the multi-nozzle nozzle 11.8 of the side of the housing 1 in the area of the nozzle 11 made radial holes 16 for supplying a secondary

0 air adjacent to the output sections of the nozzles 17 located on the nozzle 11 peripherally. The tube 7 for supplying a gas-air mixture is located in the cavity of the housing 1, and the pipe 3 for supplying gas is connected to

5 to the housing 1 between the nozzle 11 and the pipe 2 of the air supply. The total flow area of the housing 1 and the pipe 2 of the air supply is greater than the total flow area of the nozzles 17 nozzle 11,

0 the length of which is less than the length of the nozzle itself, in which the output section 5 of the detonation tube 4 is located peripherally.

The ignition device operates as follows,

5 into the housing 1 through the pipe 2 air enters, and through the pipe 3 - gas. The gas-air mixture is formed directly in the housing 1, moreover, clean air is concentrated in the area of the nozzle 2, and the gas-air mixture in the area of the multi-nozzle nozzle 11. Due to the fact that the total flow area of the nozzle 2 and the housing 1 is greater than the total cross section of the nozzles 17, there are practically no loss of total pressure during transportation of the gas-air mixture 5 and the entire available differential pressure is triggered by the nozzles 17, which, in addition to the main function, is to accelerate the gas-air mixture there are two auxiliary functions - they meter the flow of gas-air

mixtures and prevent flame penetration into the housing 1. Part of the gas-air mixture is taken from the housing in the area of the multi-nozzle 11 and is passed through the tube 7 to the detonation chamber 12, where clean air is also supplied through the nozzle 13 through the nozzle 14. Thus, the air-gas mixture is concentrated in the detonation chamber 12 and the detonation tube 4. After applying voltage from the source 9 to the candle 8, the gas-air mixture near the candle 8 and in the chamber 12, where the pushing charge is accumulated, explodes and a wave propagates through the tube 4, after which the igniting part of the charge burns, and in the exit section 5 of the tube 4, a flame pulse is generated, igniting the main gas-air tray flowing out through the nozzles 17. At the same time, a discontinuous-annular jet of gas-electric air flows from the nozzles.

Claims (1)

SUMMARY OF THE INVENTION A DEVICE comprising a housing with air and gas supply pipes 25 and a detonation tube with an outlet portion connected to the housing with its inlet portion using a gas-air mixture supply tube, as well as an electric candle with a high voltage source and a torch contact indicator, characterized in that that, in order to increase operational reliability and reduce fuel consumption, a multi-nozzle assembly with an output section of a detonation tube, an inlet to which are stepped to form expandable l detonation chamber communicated with the cavity housing the additional air bypass pipe provided with 35 si. Due to the acceleration of the flow of the air-gas mixture, there is a rarefaction in the sections of the nozzles 17, which ensures air suction through the holes 16. When the annular jet of the gas-air flows out, sections of the nozzles 17 form a developed recirculation zone with favorable combustion conditions, which is controlled by pulse tubes 15 of the contact signaling device 10. The use of the proposed ignition device allows to reduce the kindling time of the boiler unit, reduce fuel consumption and increase operational reliability. (56) Copyright certificate of the USSR No. 781506, cl. F 23. Q 9/00, 1977. USSR copyright certificate ISfe 1121547, cl. F 23 Q 9/00. 1983. 5 l 5 a nozzle, additional impulse tubes located in the housing are connected to the contact annunciator, the inlet sections of which are located in the multi-nozzle nozzle, radial holes for supplying secondary air are made in the side wall of the housing in the nozzle adjacent to the outlet sections of the nozzle nozzles, and the total passage section of the housing and the nozzle air supply is greater than the total bore of nozzle nozzles, the length of which is less than the length of the nozzle itself, in which the outlet section of the detonation tube is located riferiyno, wherein the gas mixture inlet tube located in the body cavity, and the gas supply pipe is connected to the housing between the multi-nozzle and the nozzle air supply.