SU538855A2 - Inductor for high-frequency welding of metal products - Google Patents

Description

The invention relates to the field of high-frequency welding of metal products and to be applied in the manufacture of pipes, beams, building profiles, etc.

Inductors for high-frequency welding are known, comprising a winding, a magnetic core, and a screen of electrically conductive material, which also plays the role of an inductive conductor.

Due to the considerable width of such inductors having a winding, it is difficult to place them inside pipes and other closed profiles.

Known inductor for high-frequency welding of metal products on the main ed. St. No. 479592, comprising a magnetic core and a body of electrically conductive material, connected to a current source and performing the functions of a winding, in a housing of which a transverse groove is made between the poles of the magnetic core, in which current-carrying conductors are placed, connected to the inductor case on both sides of the groove.

Non-winding inductors have a smaller thickness, which facilitates their location inside the closed products, and increased efficiency.

In such inductors, the role of winding inducing current in the product being welded is performed by the front and rear tips of the inductor case. The significant current flowing through the tips of the case forces the case to be made water-cooled, which complicates its design. In addition, the magnetic flux of the current-carrying conductors, covering the rear tip of the inductor, is not used to heat the product and is actually a magnetic flux flux, which reduces the efficiency of the inductor.

In order to increase the efficiency of the installation by reducing the dissipation flux in the proposed inductor, at least one of the conductors supplying current to the inductor case is located at the edge of the case facing the product to be welded.

FIG. 1 and 2 schematically shows the proposed inductor, variants.

The inductor contains a copper case-screen 1, the magnetic core 2, the front tip 3 of the case, the front induces water-cooled coil 4, the rear tip 5 of the body, the rear induces water-cooled coil 6.

The inductor shown in FIG. 1, has two successive induction coils 4 and b with opposing directions of currents flowing along them that create a magnetic flux passing inside the coils along the magnetic circuit 2 and in the gap by the edges of the product.

When a second similar inductor is installed on the other side of the product and the corresponding connection of their leads creates a common magnetic flux passing through the gap between the edges of the product in the area of the front and rear tips.

In such an inductor, the rear induction coil 6 must be electrically isolated from the body, and the front coil 4 may have electrical contact with the body at its front end and side surfaces.

Depicted in FIG. 2, an inductor is characterized in that its inducing turns 4 and 6 are connected in parallel. In this case, both turns can have electrical contact with the housing 1, with the exception of the left current lead, before it passes through the cut to the right side wall of the housing.

The advantage of the proposed inductor is the possibility of manufacturing interchangeable inductive coils, made in conjunction with the elements of the inductor protection against splashes of molten metal.

Claims (1)

Invention Formula Inductor for high-frequency welding of metal products by author. St. No. 479592, which means that, in order to increase the efficiency of the installation by reducing the scattering flux, at least one of the conductors supplying current to the inductor case is located at the edge of the case facing the product to be welded. Rig. Riga.g