RU84945U1 - GAS-BURNER - Google Patents

Abstract

1. A gas burner containing a pre-chamber, rigidly connected to the housing of the package of mixers, equipped with an air supply pipe, and the package of mixers is placed coaxially with the pre-chamber and partially enters the pre-chamber through its end part provided with ignition windows located on the inside of the pre-chamber, the package of mixers is provided air supply nozzles, a gas supply pipe and is located in at least one shell, characterized in that the nozzles are placed at an acute angle to the axis of the housing of the mixture pack browsers. ! 2. The gas burner according to claim 1, characterized in that the nozzles are made tapering in the direction of air movement. ! 3. The gas burner according to claim 1, characterized in that the gas supply pipe is equipped with a control valve. ! 4. Gas burner according to any one of claims 1 to 3, characterized in that the air supply pipe is equipped with a throttle valve. ! 5. Gas burner according to any one of claims 1 to 3, characterized in that the prechamber in the end part is provided with viewing windows. ! 6. A gas burner according to any one of claims 1 to 3, characterized in that the mixer comprises two elements, which are small and large cylindrical cavities located in one shell, the first element being rigidly connected to the cylindrical part of the second small gas base item.

Description

The utility model relates to burner designs, namely to burners for heating oil and can be used in furnaces for heating transported oil or track heaters, for example, in oil fields.

Known gas burner containing an air supply housing, inside of which there is a gas supply pipe equipped with a nozzle device located on the side surface made in the form of slotted holes, and a blade air swirl installed in the annular gap between the air supply body and the gas outlet pipe, while slotted holes are made in the form narrow radially or close to radial narrow extended slots evenly spaced along the perimeter of the side surface of the collector, and difference in the inclination angles to the axis of the burner sidewall larger area of the slits and the swirl vane outlet sections is less than 10 ° (see. Patent RU 2088849, IPC F23D 17/00, 1997).

The disadvantage of this design is the limited nature of the application, due to the fact that in this design with a change in the operating parameters of the air and gas, their attenuation practically occurs, which does not ensure the stability of the furnace, i.e. during operation, they are unreliable.

Known gas burner containing prechamber, a package of burners, which is equipped with an air supply pipe (see ed. St. USSR 1768871, IPC F23D 14/00, 1992).

The disadvantage is the low reliability of operation when changing the operational parameters of gas and air.

The closest in technical essence is the gas burner selected by the applicant for the prototype of the oil heating furnace, comprising a pre-chamber rigidly connected to the housing of the mixture of forming agents equipped with an air supply pipe, the package of mixing agents being placed coaxially with the chamber and partially entering the chamber through its end part provided with windows the igniter, located on the inside of the prechamber, the package of mixers is provided with tangentially located air supply nozzles, and each of of the mesoblast generators is equipped with a gas supply pipe and consists of two elements, which are small and large cylindrical cavities, made in one housing, the first element being rigidly connected to the cylindrical part of the second element along the gas flow along the small base (see patent RU No. 2193142, IPC F23D 14 / 02, 2001).

Known gas burner operates with stable parameters of the air and gas. However, in this design, with a change in the operational parameters of the air and gas supply, they attenuate, which does not ensure stability, during operation the design is unreliable. This is explained by the insufficient degree of turbulence of the air flow coming from the nozzles into the prechamber.

The technical problem, the solution of which the utility model is aimed at, is to ensure stable operation regardless of the operational parameters of the gas and air supply.

The solution to this problem is achieved by the fact that in the device containing the pre-chamber, rigidly connected to the housing of the package of mixers, equipped with air supply nozzles, the package of mixers is placed coaxially with the pre-chamber and partially enters the pre-chamber through its end part, equipped with igniter windows located on the inside pre-chambers, the mixture of forming agents is equipped with air supply nozzles, a gas supply pipe and is located in at least one shell, which is a cylindrical a cavity, according to a utility model, the nozzles are placed at an acute angle to the axis of the housing of the package of mixers.

It is advisable to perform nozzles tapering in the direction of air movement; to supply a gas supply pipe with a control valve; supply the air supply pipe with a throttle; pre-chamber with inspection windows; the mixture former contains two elements, which are small and large cylindrical conical cavities located in the shell, the first element being rigidly connected to the cylindrical part of the second element in the direction of gas movement by a small base.

Figure 1 shows a longitudinal (axial) section of a gas burner.

Figure 2 is a section along aa of figure 1.

The gas burner contains a pre-chamber 1, which consists of a cylindrical and conical parts, rigidly connected to the housing 2 of the package of mixers, and the housing 2 of the package of mixers is placed coaxially and partially enters the chamber 1, forming protrusions 3. The end part of the chamber 1 contains viewing windows 4. Outside In addition, the gas burner has projections 5 of a mixture of mixing agents on the inside of the pre-chamber 1, on which the igniter windows 6 are located. The housing 2 of the mixture of forming agents is equipped with an air supply pipe 7, inside which a throttle valve is installed 8. Each mixing device is equipped with gas supply pipes 9 with a valve 10, and the mixture of forming agents is equipped with nozzles 11 and consists of two elements, which are small and large cylindrical cavities 12, 13, moreover, the first element in the direction of movement of the gas with a small base is rigidly connected to the cylindrical part of the second element. The nozzle 11 of the gas burner is placed at an acute angle to the axis of the housing 2 of the package of mixes. The package of mixers is located in at least one shell 14.

Gas burner operates as follows. Gas is supplied through control valves and gas supply pipes to the mixture formers, consisting of small and large cylindrical cavities. Mixers are installed symmetrically about the axis of the package mixers. Air through the air supply pipe enters the small and large cylindrical cavities, as well as into the prechamber through nozzles located at an angle to the axis of the housing of the package of mixers. It is advisable to perform nozzles tapering in the direction of air movement. Air supply is regulated by a butterfly valve. The gas arriving simultaneously with air in a small cylindrical-conical cavity swirls and mixes with air, as a result of which a vacuum is created in the cylindrical-hollow cavities, which contributes to an increase in the gas flow. The gas-air mixture prepared in the mixture of blowing agents enters the prechamber, where the combustion of the gas-air mixture takes place in a swirling flow of air entering through nozzles located at an angle to the axis of the mixture of blowing agents. Ignition is carried out through the igniter windows, and the combustion process is monitored through inspection windows. When equipping the burner with mixers, the required volume of the furnace, gas to be burned is taken into account, and the larger the volume, the more mixers are installed in the package of mixers and the gas burners themselves, and vice versa, respectively, due to compliance with the operating parameters of the furnace and the quality of the oil preparation.

The proposed device provides stability, practically does not depend on the operational parameters of the gas and air supply and is reliable in operation.

Claims (6)

1. A gas burner containing a pre-chamber, rigidly connected to the housing of the package of mixers, equipped with an air supply pipe, and the package of mixers is placed coaxially with the pre-chamber and partially enters the pre-chamber through its end part provided with ignition windows located on the inside of the pre-chamber, the package of mixers is provided air supply nozzles, a gas supply pipe and is located in at least one shell, characterized in that the nozzles are placed at an acute angle to the axis of the housing of the mixture pack browsers. 2. The gas burner according to claim 1, characterized in that the nozzles are made tapering in the direction of air movement. 3. The gas burner according to claim 1, characterized in that the gas supply pipe is equipped with a control valve. 4. Gas burner according to any one of claims 1 to 3, characterized in that the air supply pipe is equipped with a throttle valve. 5. Gas burner according to any one of claims 1 to 3, characterized in that the prechamber in the end part is provided with viewing windows. 6. A gas burner according to any one of claims 1 to 3, characterized in that the mixture former comprises two elements, which are small and large cylindrical cavities located in one shell, the first element being rigidly connected to the cylindrical part of the second along the gas by the small base item.