SU642103A1 - Guiding duct for feeding wire electrode - Google Patents

Description

The invention relates to devices for supplying electrode wires to a torch of a welding semiautomatic machine of a hose type and can be used in structural welding semiautomatic machines of a taut type.

A guide channel is known for supplying electrode wire to a torch of a semiautomatic machine of hose type, made of fluoroplastic washers, reducing the contact area IJ.

The disadvantage of this channel is the difficulty of fabrication and its rapid wear during operation with steel wire.

A flexible channel is known, comprising a spiral corrugated plastic tube in the form of a spiral, the coils of which have support guides and a wide internal groove for collecting chips 2. This drip has a small area of contact with the wire, but is quickly worn out and laborious in manufacturing.

Known flexible schlang, containing a channel in the cide insert, directed along vnitovoy line 3.

The disadvantage of this flexible hose is the difficulty of manufacturing, since the insert is made of several wires.

The closest in technical essence and the achieved result is the guide channel for feeding the electrode wire, containing the outer secured layer and the inner tube, made in the form of a spiral with coils that mark the shape of a polyhedron {4.

The disadvantage of such a channel is

contact of the supplied wire with

channel on individual lines, which reduces

Drive efficiency by increasing push resistance.

The aim of the invention is to increase the efficiency of the drive by reducing the pulling force.

The goal is achieved by the fact that the polyhedra forming the turns are arranged with an angular displacement one relative to the other along the length (e of the tube, while the vertices of the polyhedron form a helical line along the length of the tube.

FIG. 1. shows a guide channel, top view; in fig. 2 - the same, side view.

The device contains an inner tube 1, made in the form of a continuous myozakhodnoy spiral of wire 2, inserted into the outer protective layer 3. Coils

the spirals are a polyhedron with vertices 4 and sides 5, along which electrode wire 6 contacts. Vertices 4 form helical lines 7 along the spiral, and the coils are arranged with an angular displacement relative to each other along the entire length of the tube.

The proposed device works as follows. The electrode wire 6 is filled into the inner tube 1, on which the outer protective layer 3 is pre-worn so that the helix lines 7 formed by the vertices 4 are in contact with its inner surface. When the electrode wire 6 moves along the inner tube 1, it contacts not all the turns of the helix, but only some that are closest to it, and this point contact, which sharply reduces the contact area. Electrode wire b slides on one of the sides of the 5th polyhedron.

The inner tube 1, made in the form of a multi-way helix of the proposed form, is easily made on a conventional lathe. On a faceted mandrel, for example, tetrahedral. When the spiral descends from the mandrel of the vertex 4 of its turns, due to the rigidity of the wire, the wire spontaneously shifts by a certain distance, forming a helix along the spiral, and how many vertices 4 of the polyhedron do so many helical lines form.

The proposed device allows a 20% reduction in the resistance to the passage of the electrode wire along the guide channel, therefore, to facilitate the welding torch by reducing the weight of the engine.

Claims (4)

1. USSR author's certificate No. 210971, cl. In 23 K 9/32, 1970. 2. US Patent No. 3.248.5 J5, cl. 1974. 3. The patent of Germany No. 2360833, kl-49 h 7/10, 1974. 4. Chvertko AI, et al. Investigation of electrode wire feeding systems along flexible guide channels. “Automatic welding, 969, No. 2, p. 45.