RU2191668C2 - Gas-shielded arc welding torch - Google Patents

Abstract

FIELD: mechanical engineering; welding facilities. SUBSTANCE: invention can be used for welding metal structures. Grid or gauze with clearance coefficient of 0.480- 0.554 and diameter of holes in grid or gauze D=(0.73-0.78)L where L is center-to-center distance of holes is installed in main part of torch nozzle being essentially a ring cylindrical channel. EFFECT: reduced consumption of shielding gas, improved gas shielding in zone of welding by forming laminar flow of gases. 4 dwg

Description

 Known torch for arc welding in shielding gases, containing a nozzle, a mouthpiece and a gas divider in the form of an annular disk with through holes for the passage of gas (see A.G. Potapyevsky. Welding in shielding gases by a consumable electrode. - M .: Mechanical Engineering, 1974, p. 198, Fig. 74b).

 The described burner does not ensure the quality of the welds due to the weakened gas flow.

 Known torch for arc welding in shielding gases, containing a channel for guiding a consumable electrode with a current supply, a mouthpiece and a nozzle connected to a channel for supplying a protective gas (see ed. Certificate of the USSR 1007875, class. 23 K 9/16, 1981).

 The described burner is taken as a prototype in the preparation of this application.

 The disadvantage of the prototype is the unsatisfactory gas protection of the weld zone due to the occurrence of a turbulent gas flow and, as a result, the poor quality of the weld.

 The objective of the invention is to reduce the consumption of protective gas and improve gas protection of the weld zone by forming a laminar gas flow.

 The solution to this problem is achieved by the fact that in the torch for arc welding in shielding gases, containing a channel for guiding the consumable electrode with a current supply, a mouthpiece and a nozzle connected to the channel for supplying a protective gas, a grill is installed in the main part of the nozzle, which is a cylindrical annular channel, or a mesh having a clearance coefficient of 0.480-0.554, and the diameter of the holes is D = (0.73-0.78) L, where L is the distance between the centers of the holes.

The inventive device is characterized by the presence of the following significant distinguishing features:
a) a grill or mesh is installed in the main part of the nozzle;
b) the main part of the nozzle is a cylindrical annular channel;
c) the lumen coefficient of the lattice or mesh is 0.480-0.554;
d) the diameter of the holes in the lattice or grid D = (0.73-0.78) L, where L is the distance between the centers of the holes.

 The studies on patent and scientific and technical literature have revealed a number of technical solutions for a similar purpose, however, there are no signs of “a ... g” in them, therefore, the proposed burner meets the patentability conditions of the utility model.

 The essence of the claimed is illustrated by drawings, where in Fig.1 shows a General view of the burner; figure 2 is a schematic diagram of the installation of a metal grill; figure 3 is a schematic diagram of the installation of the mesh insert; figure 4 is a schematic diagram of the installation of a ceramic-metal insert.

 The burner contains a current supply channel 1 for guiding a consumable electrode (not shown), a mouthpiece 2 and a nozzle 3 connected to a channel 4 for supplying protective gas through a rotary elbow 5, an outlet ring channel 6, an input 7, a grid 8, a central part 9 and an output 10 from the nozzle 3. The grating or mesh 8 has a clearance coefficient of 0.480-0.554, and the diameter of the holes D = (0.73-0.78) L, where L is the distance between the centers of the holes in the grating or mesh 8.

 The burner operates as follows.

 To protect the welding zone during welding or surfacing, a protective gas is supplied through channel 4, which passes through elbow 5, exit 6, input 7 into the main part 9 of nozzle 3, where the grating or mesh 8 is installed, and to exit 10. Due to the coefficient the clearance is 0.480-0.554, and the diameter of the holes D = (0.73-0.78) L, where L is the distance between the centers of the holes in the lattice or grid 8, creates the most uniform velocity field. Therefore, the weld pool is reliably protected from atmospheric oxygen.

Claims (1)

 A torch for arc welding in shielding gases, containing a current supply channel for guiding the consumable electrode, a mouthpiece and a nozzle connected to a channel for supplying a shielding gas, characterized in that a grating or mesh having a coefficient is installed in the main part of the nozzle, which is a cylindrical annular channel the clearance is 0.480-0.554, and the diameter of the holes in the grid or lattice is D = (0.73-0.78) L, where L is the distance between the centers of the holes.

Images