SU1728586A1 - Gas cutter with internal gas mixing - Google Patents

Abstract

The invention relates to the power industry, can be used in metallurgy when cutting heavy metal thicknesses, and is intended to increase production efficiency and manufacturability. To this end, the mouthpiece is made open in the direction of the exit of the combustion components in the cutter with external gas mixing, and at the entrance it is equipped with a closed annular chamber placed around the axial output channel for cutting oxygen with an annular gap and located in the section between the longitudinal nozzles for heating oxygen and the corresponding nozzle . With such an arrangement, the channels of the jet of oxygen are surrounded by streams of heated oxygen, which in turn are surrounded by a continuous stream of combustible gas. 2 Il. cl

Description

The invention relates to the flame treatment of metals and can be used when cutting metals of greater thickness.

A gas-oxygen cutting torch for external mixing of gases is known, comprising a housing with gas supply pipes and a mouthpiece in which a central channel for cutting oxygen is arranged and arranged in two rows concentrically with respect to its channels for heating oxygen and combustible gas connected to the corresponding pipes.

A gas cutting torch with external gas mixing is known, in which the outlets for the preheating oxygen and the combustible gas are also made in two rows around

central channel for cutting oxygen.

The disadvantage of these cutters is the large width of the cut due to the fact that each jet of heating oxygen besides its main purpose (the formation of a combustible mixture and the protection jet of cutting oxygen acts as a cutting jet. In addition, the two-channel arrangement of the output channels gives a low quality of the combustible mixture .

The closest in technical essence to the claimed technical solution is the gas-oxygen cutting torch for external mixing of gases, comprising a housing with gas supply pipes and a mouthpiece in which a central tube is made.

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a cutting channel for cutting oxygen; and rectangular channels for heating oxygen and a combustible gas, arranged one circumferentially around the beginning for cutting oxygen.

Such a design of the cutter makes it possible to reduce the width of the cut by reducing the cutting effect of the heated oxygen jets. However, the quality of gas mixing is still low, as the jets of combustible gas and heated oxygen at the outlet of the cutter are in contact with each other only along lateral planes. In addition, the cutter is not technological in production. as it requires sophisticated metalworking machines and highly skilled workers.

The purpose of the invention is to improve the performance of the cutting process for. by improving the quality of gas mixing and reducing the cost of manufacture of the torch by increasing the manufacturability of its production.

The goal is achieved by the fact that in an oxy-fuel cutter with an external gas mixture, there is a housing with gas inlets and a mouthpiece, along the axis of which there is an outlet channel for cutting oxygen and longitudinal nozzles made in the mouthpiece along the periphery of the said channel for preheating oxygen and a combustible gas nozzle connected to the corresponding nozzles, the mouthpiece, the inner surface of which is a nozzle for combustible gas supply, is made open towards the exit of the combustion components, and The inlet is provided with a closed annular chamber located around the axial output channel for cutting oxygen with an annular gap and located in the area between the longitudinal nozzles for the heating oxygen and the corresponding nozzle.

With this arrangement, the output channels for working gases are cylindrical, a jet of cutting oxygen surrounds the n-th number of cylindrical streams, preheating oxygen, which in turn are surrounded by a continuous stream of combustible gas.

This results in the fact that the cutting of oxygen and the heated oxygen streams are in a gas flow moving in one direction and having a density less than the surrounding atmosphere. Due to this, the ballast gases are not sucked from the environment in the area between the cutter and the product, the range of the cutting jet increases, and the high-temperature portion of the heating flame increases, where the pressing and forming action of this flame on the cutting jet takes place. This leads to a reduction in time.

cutting, which helps to improve the performance of the process.

In addition, the cutter according to the invention can be assembled from solid non-ferrous metal tubes, almost did not resort to processing

on turning and milling machines, and this helps to reduce the cost of its production.

FIG. 1 shows the head of the cutter; in FIG. 2 shows section A-A in FIG. one.

An oxy-gas oxygen cutter includes a mouthpiece 1, an annular chamber 2 for heating oxygen with an inlet pipe 3 and metering outlet nozzles 4. A cutting nozzle 5 is attached to the inlet pipe 6.

Heating oxygen enters through the tube 3 into the annular chamber 2, and then through the channels 7 and 8 of the metering output nozzles A, located around the cutting nozzle 5, into the cutting zone. Combustible gas through the outer tube 9 enters the annular chamber 10 between the mouthpiece 1 and the annular chamber 2, and then through the output channel 11 for combustible gas formed by the inner surface of the outer mouthpiece 1 and the outer surface of the metering output nozzles 4 enters the cutting zone.

Thus, the proposed cutter with the external mixing of gases of the proposed design is more technologically advanced than the known one and provides a higher quality of the heating flame, which allows to increase the cutting performance by 10-15%,

Claims (1)

Invention Formula A gas cutter with external gas mixing, comprising a housing with a gas supplying nozzle and a mouthpiece, along the axis of which a cutting supply channel is located oxygen, and made in the mouthpiece on the periphery of the said channel, longitudinal nozzles for supplying heating oxygen, connected to the corresponding nozzle, characterized in that increasing productivity and manufacturability, the mouthpiece is made open towards the exit of the combustion components, and at the entrance is equipped with a closed annular chamber located around an axial channel for supplying cutting oxygen with an annular gap and included in the area between the longitudinal nozzles for supplying heating oxygen and the corresponding nozzle, FIG. 2