JPS58181472A - Tig welding method of narrow groove - Google Patents

Abstract

PURPOSE:To make an arc oscillatable in the transverse direction of a groove and to perform stable penetration in the TIG welding stage of a narrow groove joint of extra thick plates, by forming an electrode and a filler metal respectively into a band shape, and applying an alternating magnetic field in the weld line direction to the arc. CONSTITUTION:A nonconsumable W electrode 4 screwed 3 to a copper electrode nozzle 2 is formed into a band shape and a filler metal 10 to be supplied to an arc 11 part by passing through the inside of a filler nozzle 8 of a gas shielded nozzle 6 is also formed into a band shape in TIG welding in the narrow groove between groove wall surfaces 19 and 19. A magnetic core 12 of which the forward end passes through a gas shielded nozzle 7 and extends to the part near the arc 11 is connected to the magnetic pole of an electromagnet coil 13. The arc 11 is oscillated in the transverse direction by the alternating magnetic field generated from the core 12 and the narrow groove of extra thick plates is welded in the joint part having high quality by using the bank-like filler metal.

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a TIG welding method for narrow gap joints of extremely thick plates.

Although the TIG welding method has a stable arc and extremely good welded joint performance compared to MIG welding,
There are almost no examples of development related to narrow gap welding. This is because the TIGf # welding is inefficient because the filler wire is supplied from the outside, and the melting efficiency of the wire is low and it is difficult to swing the arc in the width direction within a narrow gap. This was because multi-pass welding had to be used, and there was a high risk of instability due to penetration of the groove wall surface.

The present invention solves the shortcomings of the conventional technology in TIG welding, and its characteristics are that the electrode and filler metal are each made into a band shape, and the arc is opened by applying an alternating magnetic field in the tangential direction of the arc KII. This invention provides a narrow gap TIG welding method that enables effective swinging in the width direction of the tip. Embodiments of the present invention will be described in detail below with reference to the drawings.

18iil is a structural explanatory diagram of a welding head for carrying out the method according to the present invention, and FIG. 2 is a cross section 12 taken along line A-A in FIG.
The clear diagram shows the electrode, filler metal, magnetic core, and
It shows the positional relationship and approximate cross-sectional shape of the shield nozzle, etc. Further, FIG. 3 is a perspective view of the area around the arc to clearly illustrate the mechanism of the welding head.

A copper electrode nozzle 2 is fixed to the nozzle holder 1, and a non-consumable band electrode 4 is fixed to the lower end of the copper electrode nozzle 2. Tungsten electrode is used.Copper electrode nozzle 2
A cooling water tube 5 for circulating cooling water is housed in the housing, and the cooling water cools the electrode nozzle 2 and the electrode 4 to a desired temperature. Gas shield nozzles 6.7 are arranged on both sides of the electrode nozzle 2, and these are fitted into the nozzle holder 1 and are configured to be supplied with shielding gas (for example, Ar) to shield arcs and molten metal. It becomes. A flat filler nozzle 8 is attached to the gas shield nozzle 6, and this filler nozzle 8 passes the band-shaped filler metal 10 fed by the feed motor 9 into an arc 11 generated from the band electrode 4. Guide to nearby areas. On the other hand, a magnetic core 12 passes through the gas shield nozzle 7, and one end is connected to the magnetic pole of an electromagnetic coil 16. The electromagnetic coil 16 has a direct current power source 14 connected to the direction switch 1 using a transistor circuit.
5 to generate an alternating magnetic field. The maximum frequency of the direction switch 14 is 1KH3
It is possible to some extent. The tip of the magnetic core 12 extends to the vicinity of the arc 11, and is placed at an angular position such that an alternating magnetic field is applied to the arc 11 in the direction of the welding line. On the right side is the #welt bead 17, and on the left side is the groove bottom 18 which has not yet been bath welded.

Next, a situation in which the arc oscillates in the width direction due to the alternating magnetic field generated from the magnetic core 12? I: Shown in Section I:. When a magnetic field H is applied to the arc current ■ from a direction perpendicular to it, a Lorentz force F acts in one direction, and as the direction of the magnetic field H reverses, the direction of the Lorentz force F also reverses, so the magnetic core 1
The arc 11 to which an alternating magnetic field is applied from the groove 2 swings in the width direction of the groove.

Above are the examples of N! ! As is clear, the present invention uses a band-shaped electrode in TIG welding in a narrow gap, so the arc can be effectively oscillated by an alternating magnetic field, and one layer, one pass, fb oscillation. In addition, by making the filler metal into a band shape, it is possible to increase the melting efficiency of one filler metal in the oscillating arc, resulting in a highly efficient #1+ contact.
Naeru. As described above, according to the TIGI welding method of the present invention, narrow gap welding of thick plates can be performed with high quality and high efficiency, resulting in many industrial effects.

[Brief explanation of the drawing]

FIG. 1 is a structural explanatory diagram of a welding head for implementing the method according to the present invention, FIG. 2 is an explanatory cross-sectional view taken along the line AA in FIG. 1, and FIG. 6 is a perspective view of the welding head in FIG. 1. FIG. 4 is an explanatory diagram of Lorentz force in the method according to the present invention. 1... Nozzle holder, 2... Copper electrode nozzle, 6...
Set screw, 4...Band electrode, 5...Cooling water tube, 6゜7...Gas shield nozzle, 8...Filler nozzle, 9...Feeding motor, 10...Band filler metal , 11... arc, 12... magnetic core, 16...
- Electromagnetic coil, 14... DC power supply, 15... Direction switch, 16... Bath melting boule, 17... Welding bead,
18... Groove bottom, 19... Groove wall, Agent: Patent Attorney Sanro Kimura Figure 1 Figure 2 Figure 3

Claims (1)

[Claims] A narrow gap T characterized in that the electrode and filler metal are each formed into a band shape, and the arc is oscillated in the groove width direction by applying an alternating magnetic field in the direction of the weld line to the arc.
IG welding method.