RU1812024C - Method of removal of toxic admixtures at semiautomatic gas-shielded welding - Google Patents

Abstract

Usage: for removing harmful substances during semi-automatic welding in shielding gas. Summary of the invention: removing harmful substances in semi-automatic welding in shielding gas consists in supplying protective gas to the welding site and removing harmful substances from the sheath formed by suction through a torch of the welding machine. The shielding gas flow is twisted and fed to the weld point with an angle of inclination. The forming cone rotates to the base a - arctg -r, where I is the length of the protruding wire; R is the radius of the base of the cone of rotation of the shielding gas.

Description

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The invention relates to mechanical engineering and the construction industry, in particular to a method for removing harmful substances during semi-automatic welding in shielding gas, for example in local suction nozzles built into the burner.

The purpose of the invention is to increase the efficiency of removing harmful substances by eliminating their breakthrough into the work area.

The proposed method for removing harmful substances during semi-automatic shielding gas welding is implemented as follows.

An arc welding torch with a gas ring guard and a dust and gas extraction suction, comprising a carbon dioxide nozzle with a welding aerosol suction and a welding wire connected to it and connected to an electrode holder. made conical with the possibility of adjusting the angle of inclination and provided with a swirl, consisting of

blades located tangentially on the inner surface of the carbon dioxide nozzle.

During the welding process, carbon dioxide is supplied to the feed nozzle, where it is twisted and directed to the welding site.

By setting the distance from the carbon dioxide nozzle to the welding point equal to the length of the welding wire (in this case 6.0 mm) and the radius of the carbon dioxide nozzle equal to 38 mm, the angle of inclination of the carbon dioxide nozzle is calculated using the formula

and arctg.

In this case, the necessary angle of inclination for the convergence of the carbon dioxide cone at the weld point was 33 °.

The removal of harmful substances takes place from the cone of rotation of carbon dioxide through the nozzle for the extraction of welding aerosols. At the same time, their formation is promoted by

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cone of rotation secondary lifting vortices.

The use of this method made it possible to provide more effective protection of the weld from weathering, reduce the aerodynamic resistance of the suction of the welding aerosol due to the action of secondary lifting vortices, while eliminating the breakthrough of hazardous emissions into the working area.

The proposed method for removing harmful substances during semi-automatic shielding gas welding can be implemented on any arc welding torch.

Using the method is most effective for welding large parts when it is difficult to fix workplaces.

The proposed method for removing harmful substances provides, in comparison with known methods, the following advantages: eliminating the breakthrough of harmful substances into the working

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zone under the influence of a protective gas stream; reduction of energy consumption during operation by reducing the aerodynamic resistance of local suction due to the formation of secondary vortices inside the protective gas shell.

Claims (1)

SUMMARY OF THE INVENTION A method for removing harmful substances during semi-automatic welding in shielding gas, including supplying gas to the welding site, characterized in that, in order to increase the efficiency of the process by eliminating the breakthrough of harmful substances into the working area, the protective gas stream is fed into the welding zone with an angle its generatrix to the base R a arctg y where I is the protrusion length of the welding wire: R is the radius of the base of the cone of rotation of the shielding gas.