RU2750387C1 - Device for gas protection of weld during laser welding - Google Patents

Abstract

FIELD: welding works.

SUBSTANCE: invention relates to a device of gas protection of welds during laser welding, it can be used in the welding of titanium, alloys based on titanium and nickel, high-alloy stainless steels in all industries in which these materials are used. The device comprises welding laser head (1) with coaxially positioned nozzle (2) for supplying protective gas to the welding zone and laser gas lens (3) attached to it. Gas lens (3) includes outer bushings (4) and (5) and inner cone (6) formed by guide plates (7 and 8). Inner cone (6) follows the geometry of nozzle (2). Woven mesh (9) is located between outer bushings (4 and 5) and guide plates (7 and 8). Gas lens (3) is provided with holes for the inlet (10) and holes for the outlet (11) of the protective gas to the surface to be welded. Gas lens (3) is put with inner cone (6) on welding nozzle (2) with holes (12) for the supply of helium. Gas lens (3) is fixed to head (1) by a screw-nut connection by means of two plates (14) and is provided with a self-adhesive heat-resistant tape with a low coefficient of friction. The geometric dimensions of gas lens (3) do not exceed the dimensions of welding head (1).

EFFECT: improvement in the quality of weld protection during laser welding with a carbon dioxide laser of longitudinal and closed, in particular, curved welds, including overlapping welds of thin-sheet products.

2 cl, 3 dwg

Description

The invention relates to carbon dioxide laser welding, in particular to devices for protecting welded seams when welding titanium, titanium and nickel-based alloys, high-alloy stainless steels and can be used in all industries in which these materials are used.

A prerequisite for obtaining a high-quality welded joint is its reliable protection from atmospheric gases. The saturation of the weld metal with oxygen, nitrogen and hydrogen occurs at temperatures above 350 ° C. This sharply reduces the ductility and long-term strength of welded structures. Therefore, welding is carried out in an environment of shielding gases (argon or helium) of high purity or in a vacuum. And also use special protective equipment that protects the welding area.

It is known a device for protecting a weld (Utility model patent No. 160743, MKI V23K 9/16, publication date 03/27/2016), containing a hollow body, made with the possibility of fixing it on the welding head, made with a slotted groove located along the weld and equipped a removable side cover, and is equipped with holes for accommodating the nozzle of the welding head and the tip for feeding the welding wire, oriented along the slotted groove, and in the cavity of the body there is a receiver with a branch pipe for supplying a shielding gas, equipped with a splitter with holes, and the optimal body length is chosen from conditions for its compliance with the welding zone limited by an isotherm of more than 350 ° C.

The known device provides reliable protection when welding longitudinal welds. However, it cannot be used for laser welding and protection of the welding zone of circumferential seams. In addition, it has a large design, which requires the use of a large amount of shielding gas.

A device for protecting a curved spatial seam is known (Patent for invention No. 2233210, MKI V23K 9/16, publication date 07/27/2004), which relates to welding products from high-alloy, stainless steels and alloys based on titanium and other active metals and is used in devices to protect the welded seam with an inert gas. The device contains movably interconnected links with a gas supply system to the welding site. The links are mounted on a flexible axis and are in contact over the "ball-cone" surfaces. The gas supply system is made in the form of a central channel formed by axial holes made in the links and connected to the inlet fitting by means of a channel made in the first link in the form of an opening and with distribution channels made in the links in the form of throttling holes. As a result, the links are tightly pressed against the joint during welding, regardless of the shape of the weld. This invention provides protection for welded seams having spatial curvature. However, it cannot provide protection for curved welds located on a flat surface. In addition, it has a complex shielding gas supply system made in the form of a central channel formed by holes in the links and connected to the inlet connection, which leads to large losses of shielding gas.

The closest is a Device for gas protection of the weld pool, weld seam and near the seam zone (Patent for invention No. 2615103, MKI V23K, publication date 02.07.2018.), Containing a nozzle for supplying a shielding gas to the welding zone and an attachment attached to it, in A welding torch nozzle is used as a nozzle for shielding gas supply. The laser welding head is fixed under the focusing lens of the laser welding machine, comprising at least: an annular nozzle for injecting a shielding gas located on the same optical axis with the laser welding head; and a protective chamber for protecting the focusing lens by means of a transverse air flow, wherein the chamber has an air inlet and an air outlet coordinated with the air inlet in a plane that is substantially perpendicular to said optical axis, said air outlet being oriented in a direction opposite to the direction of advancement of the laser welding head.

The disadvantage of the known prototype is a one-piece body, which complicates maintenance work. And also the disadvantage is the absence of helium and argon flows, which does not provide a high-quality formation of the weld, and also does not prevent the formation of optical breakdown when welding large thicknesses.

The objective of the claimed invention is to develop a device for welding with carbon dioxide laser radiation and protecting the welded seam and near the seam zone from oxidation by the environment.

The technical result is to improve the quality of protection of the welded seam, increase the productivity of laser welding of longitudinal and closed, in particular, curved welds, when welding thin-sheet products with an overlap.

The specified technical result is achieved by the fact that in a device for gas protection of a weld during laser welding, comprising a laser welding head with a nozzle for supplying a shielding gas to the welding zone and an attachment attached to it, based on the condition of obtaining a profiled gap between the attachment and the protected surface, according to the invention , for protection regardless of the direction of movement of the laser beam, as an attachment, the welding laser head is equipped with a collapsible gas laser lens, including outer sleeves and an inner cone formed by guide plates, repeating the geometry of the nozzle of the welding laser head, between which a woven mesh is located, providing a laminar shielding gas flow, and holes for shielding gas outlet to the surface to be welded, the gas laser lens with an inner cone is put on the nozzle of the welding laser head equipped with holes for supplying helium, and is fixed to it with a screw-nut connection by means of two plas Tin, geometrical dimensions, gas laser lens do not exceed the dimensions of the welding head.

In a particular case, the gas laser lens is equipped with a self-adhesive heat-resistant tape with a low coefficient of friction for unhindered movement of the laser head and is located in a 15 mm gap between the gas laser lens and the surface to be welded.

Installation of a gas laser lens as an attachment to the laser welding head, including outer sleeves and an inner cone formed by guide plates, repeating the geometry of the welding laser head nozzle, between which there is a woven mesh providing a laminar flow of shielding gas, and holes for shielding gas outlet to the surface to be welded , allows you to significantly improve the protection of the weld and improve the quality of laser welding.

Implementation of the geometric dimensions of the gas laser lens, not exceeding the dimensions of the laser welding head, allows you to maintain the manufacturability of laser welding in a confined space.

Fixing the gas laser lens to the welding head by means of a screw-nut connection by means of two plates welded to the gas laser lens greatly simplifies the installation and fastening of the gas laser lens.

The presence of external bushings and an internal cone formed by the guide plates, which repeats the geometry of the nozzle of the welding laser head, makes it possible to make the gas laser lens collapsible, which simplifies its operation and maintenance, as well as a collapsible version of the gas laser lens will prevent design flaws and accelerate it manufacturing.

The location of the self-adhesive heat-resistant tape with a low friction coefficient for the unhindered movement of the laser head in the gap of 15 mm between the gas laser lens and the surface to be welded allows maintaining the required 15 mm gap from the welding nozzle to the surface to be welded, since a high-temperature plasma is formed in this gap during laser welding, and Also, a heat-resistant tape allows you to limit the space to be welded from the atmosphere, which makes it possible to reduce the consumption of the shielding gas supplied to the gas lens of the laser.

The presence of a woven mesh eliminates turbulence in the supplied protective gas, thereby contributing to the formation of a laminar gas flow, which improves the quality of protection of the welded seam and the heat-affected zone.

Figure 1 shows a general view of the device.

Figure 2 shows a gas laser lens.

Figure 3 shows an assembled gas laser lens.

No technical solutions matching the set of essential features of the claimed invention have been identified; The claimed essential distinctive features of the invention do not explicitly follow from the prior art, which makes it possible to conclude that the invention meets the conditions of patentability "novelty" and "inventive step".

The condition of patentability "industrial applicability" is confirmed by an example of a specific implementation of the claimed device.

The device for gas protection of the weld during laser welding contains a welding laser head 1 with a coaxially located welding nozzle 2 for supplying a shielding gas to the welding zone and a gas laser lens 3 attached to it. The gas laser lens 3 includes outer sleeves 4 and 5 and an inner cone 6, formed by the guide plates 7 and 8. The inner cone 6 follows the geometry of the nozzle of the laser welding head. Between the outer bushings 4 and 5 and the guide plates 7 and 8 there is a woven mesh 9 made in accordance with GOST 3826-82 "Mesh 2-04-020 12X18H9T". The gas laser lens is provided with inlet openings 10 and openings 11 for shielding gas outlet to the surface to be welded. The gas laser lens 3 with the inner cone 6 is put on the welding nozzle 2 of the welding laser head 1, which is equipped with holes 12 for supplying helium. The gas laser lens is fixed to the welding laser head 1 by a screw-nut connection 13 by means of two plates 14 and is provided with a self-adhesive heat-resistant tape (not shown in the drawing) with a low coefficient of friction. The geometrical dimensions of the laser gas lens 3 do not exceed the dimensions of the welding head 1.

The device for gas protection of longitudinal and closed, in particular, curvilinear welds, when welding with a carbon dioxide laser, works as follows.

Helium is supplied through the holes 12 of the coaxially located welding nozzle 2 of the welding laser head 1. Argon is fed through the holes 10 of the gas lens of the laser 3, which flows through the holes 12 to protect the weld. The helium flow exceeds the argon flow and displaces argon from the weld zone. Helium supplied to the welding zone ensures high-quality formation of the weld and prevents the formation of optical breakdown when welding large thicknesses. A laminar flow of argon protects the crystallized weld at critical temperatures. Self-adhesive, heat-resistant tape with a low coefficient of friction ensures that the weld zone is limited from the atmosphere, which makes it possible to reduce the consumption of supplied shielding gases.

Claims (2)

1. A device for gas protection of a weld during laser welding, comprising a laser welding head with a nozzle for supplying a shielding gas to the welding zone and an attachment attached to it, characterized in that said attachment is made in the form of a collapsible gas laser lens, including outer sleeves an inner cone formed by the guide plates, repeating the geometry of the nozzle of the welding laser head, a woven mesh and holes for the inlet and outlet of the shielding gas to the surface to be welded, located between the said guide plates and the inner cone, while the nozzle of the welding laser head is made with holes for supplying helium, and the collapsible gas laser lens is put on the nozzle of the welding laser head with an inner cone and is fixed to it by a screw-nut connection by means of two plates, and the geometric dimensions of the gas laser lens do not exceed the dimensions of the welding laser head. 2. The device according to claim. 1, characterized in that the gas laser lens is provided with a self-adhesive heat-resistant tape with a low coefficient of friction.

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