SU1763803A1 - Gas burner - Google Patents

Abstract

Usage: in household gas appliances for burning gas fuel. SUMMARY OF THE INVENTION: The inner 1 and outer 4 pipes are provided with ribs 2 and 5. The ribs 2 of the inner pipe 1 are perforated and divide the annular channel into two cavities 6, which are interconnected through the outlet 3 of the inner pipe 1 symmetrically along its entire length . The axes of the holes 3 are perpendicular to the planes of the ribs 2 and 5, and the ribs 5 of the outer pipe 4 enclose the ribs 2 of the inner pipe 1, forming slots 7 at the perforation sites for the air-gas mixture to exit. 2 Il.

Description

The invention relates to a power system of low power and can be used in domestic gas appliances.

Known gas burner (see ed. St. No. 918675 class. M.Kl? RF 23 D 14/62, 1980), comprising a housing with a gas-air pipe and a cover forming fire holes with the housing. Turbulent protrusions are made on the inner surface of the housing and cover.

The disadvantage of this burner is the low completeness of gas combustion, since intensive mixing of the gas-air mixture is not provided in the internal cavity of the burner.

This drawback is to some extent eliminated in the burner (see Australian patent No. 18390 MKI F 23 K 5/00, publ. 1987), which is the closest πό technical essence and the achieved result to the claimed design.

The gas burner contains a burner pipe with fire holes located along its length, an inlet gas pipe located inside the burner. The gas-air mixture enters the gas inlet pipe, runs along its entire length and, after hitting the end wall of the outer burner pipe, enters the annular channel between the pipes. Intensive mixing of the gas-air mixture occurs when it hits the end of the burner pipe, i.e. at the entrance to the mixture in the annular channel. In the channel itself (along its entire length), the intensity of mixing of the gas-air mixture is significantly reduced.

The disadvantage of the burner is the incomplete combustion of gas due to insufficient mixing of the gas mixture in the annular channel of the burner.

The aim of the present invention is to improve the quality of gas combustion by intensifying mixture formation '.'

This goal is achieved by the fact that in the known burner, consisting of an outer and inner coaxial pipe forming an annular channel and having openings for the exit of the gas-air mixture, the inner and outer pipes are provided with ribs, the inner pipe being made with perforated ribs separating the annular channel into two communicating cavities, and symmetrical openings for the exit of the gas-air mixture, the axes of which are perpendicular to the plane of the ribs, and the outer with ribs covering the ribs of the inner and forming them in places erforatsii slit to exit gas mixture.

The differences of the claimed burner from the known in the following. The inner and outer tubes of the burner are provided with ribs. The ribs of the inner tube are perforated and divide the annular channel into two communicating cavities. Symmetrical openings are made on the inner pipe for the outlet of the azo-air mixture, the axes of which are perpendicular to the plane of the ribs. The ribs of the outer pipe cover the ribs of the inner one and form slits with them in places of perforation for the exit of the gas-air mixture.

As a result of the implementation of these differences, intensive mixing of the gas-air mixture in the cavities of the annular channel along its entire length is ensured. The gas-air mixture, moving along the inner pipe, is divided into two streams emerging in opposite cavities of the annular channel, where they, hitting the walls of the outer pipe, are broken into two opposite directions of flow, moving towards the fire holes. Multiple stratification of the gas-air mixture 25 into separate multidirectional flows makes it possible to obtain a homogeneous mixture, which ultimately ensures high-quality gas combustion in the burner.

. When analyzing the designs of other burners used in domestic gas stoves, water heaters, no technical solutions were found that have signs similar to those of the claimed solution, which allows us to conclude that the criterion meets significant differences.

In FIG. 1 shows a general view of the burner; in FIG. 2 is a section AA in FIG. 1.

. The gas burner consists of an inner pipe 1 with perforated ribs 2 and symmetric holes 3, the axes of which are perpendicular to the plane of the ribs, and the outer pipe 4. Holes 3 are located along the entire length of the pipe 1, The inner and outer pipes 1, 4 form an annular channel 45 separated by perforated ribs 2 to the corresponding cavities 6. The ribs 5 of the outer pipe 4 surround the perforated ribs 2 of the inner pipe 1 and form slots 7 50 with them at the perforation points for the exit of the gas-air mixture.

The gas-air mixture enters the inner tube 1 of the burner, from where, separating into two streams, through symmetrical holes 3 it enters the cavity 6 of the annular channel. The flows of the gas-air mixture, leaving the holes 3 and hitting the wall of the outer pipe 4, are divided into two more flows in each cavity. The flow of the gas-air mixture merges at the perforated ribs 2. where the gas-air mixture through the slots 7 enters the combustion zone.

Compared with the prototype, the proposed burner design allows for intensive mixing of the gas-air mixture due to the separation of flows, changes in the direction of motion and their subsequent merger, and thereby improves the quality of gas combustion.

Claims (1)

Claim A gas burner containing external and internal coaxial pipes with muffled outlet ends and exhaust openings in the side wall, forming an annular channel between themselves, characterized in that. in order to improve the quality of gas combustion by intensifying mixture formation, the inner and outer pipes are provided with ribs, and the ribs of the inner pipe are perforated and divide the annular channel into two cavities communicating with each other through the indicated outlet openings of the inner pipe symmetrically located along its entire length, while the axis of the holes is perpendicular to the plane of the ribs, and the ribs of the outer pipe cover the ribs of the inner pipe with the formation of gaps in the perforations for the exit of the gas-air mixture.