SU1627575A1 - Apparatus for induction heating of metal wire - Google Patents

Abstract

The invention relates to cable production and can be used for heat treatment of metallic products of cable products downstream. The goal is to improve the quality of heating by adjusting the heating zone. The metal wire comes from the device through the tension device to the input tension roller 4, bypasses one of the two grooves of the contact roller 5 and 2. The chugs to one of the two grooves of the upper contact roller 6, bypasses the latter and enters the vapor protection tube 9. Pass through the tube, the wire enters the raised cooling bath 8, bypasses twice the conical surface of the lower guide roller 7, immersed into the bath and after the bath goes to the second complaint of the contact roller 5, and from there to the second groove of the upper roller 6 and to the traction device. A moment of contact with the contact roller and up to the panel, the wire is flowed around the current and heated as DINARNI. In the bath it is cooled and dried after a bath. The proposed installation allows in-line plastics insulation over metallic fluid to increase cooling intensity, improve surface quality and eliminate point defects when hot insulation is applied. 4 hp ff, 4 ill. J in (L oe go vl ate Fig. /

Description

The invention relates to induction heating, in particular to the heating of metal wire for the manufacture of a conductive core.

The purpose of the invention is to improve the quality of heating by adjusting the heating zone.

FIG. 1 shows a general scheme of an installation for induction heating; FIG. 2 is a view A of FIG. one; in fig. 3- section BB in FIG. one; in fig. 4 shows a section B-B in FIG. one.

The installation for induction heating of the wire (Fig. 1) consists of one winding transformer 1 with a toroidal magnetic conductor, a power wipe 2 and a measuring turn wound on a toroidal magnetic conductor 3. An input tensioning roller 4, a contact roller 5 with two the grooves electrically interconnected, the upper guide roller 6 with two grooves connected or isolated electrically between themselves, the lower guide roller 7 with a conical cylindrical surface, a first cooling bath 8. The cooling bath is set at 8 potsemnom device (not shown) of known design, allows it yuschem reciprocating movement in vertical plane.

Inside the magnetic core there is a vapor-stacking tube 9, made of a non-magnetic material, in the form of sections installed with a gap between them, connected by a flexible electrical insulating coupling 10. At the same time, the tube has the possibility of horizontal movement, the upper segment has a flared upper end in the form of a funnel, and the lower end the lower segment is located at a distance of 0.3-0.6 rad of the lower guide roller 7 with respect to the horizontal plane passing through the axis of the roller 7.

The installation works as follows.

The metal wire, coming from the donor device, through a device that provides a constant tension (not shown), goes to the input tension roller 4, bypasses one of the grooves of the contact roller. - 5 and then goes to one

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A bundle of two slabs of the upper roller 6 bypasses this roller and enters the vapor protective tube 9. Passing through the vapor protective tube 9 fixed with the possibility of free movement in the horizontal plane, the wire enters the cooling bath 8, bypasses the conical surface twice. roller 7 and upon leaving the bath 8 enters the second trough of the contact roller 5, and from there through the second trough of the upper roller 6 to the traction device (not shown).

The advantage of the installation of the proposed design is that due to the conical entrance to the tube 9, the upper end of which is fixed with the possibility of free movement in the horizontal plane, the wire does not rub against the edge of the tube and with oscillations resulting from the variation of its tension, the tube floats after the wire. With a variable wire bending configuration, the tube may be bent to the same extent by the elastic coupling. At the same time, arcing resulting from the contact of the wire in two places to the metal tube (usually at the inlet and at the outlet) is eliminated, since the contact points are isolated between each other.

The distance is 0.3-0.6 rad. the lower roller 7, from the end of the lower section of the vapor barrier tube 9 to the horizontal plane passing through the axis of this roller, ensures that the tube is immersed below the minimum water level in the bath when the roller is completely submerged in water and prevents it from contacting roller 7. Thus the presence of a water seal at the bottom of the tube, which ensures the penetration of air into the tube 9 from below, is guaranteed.

The proposed design of the lower roller 7 allows, on the one hand, to increase the length of the wire cooling zone, while avoiding the overlapping of the turns, and on the other hand, provides a continuous shift of the second coil along the running wire and tight contact between the coils. In this case, the steam jacket that is formed at the moment the wire enters the coolant at the lower end of the vapor barrier is pressed from the heated wire.

tube. This dramatically increases the heat transfer from the wire and the intensity of its cooling. When reducing the diameter of the wire, it is necessary to increase the length of the drying area due to the creation of electrical contact between the grooves of the upper guide roller. In this case, the current continues to flow through the wire and after passing it through the contact roller 5 until the second time passes through the upper guide roller 6.

The proposed installation allows the line for the application of plastic insulation to the metal core to increase the intensity of cooling of the core in the bath by 20%. At the same time, the surface of the copper wire that leaves the air after cooling is not oxidized. Intensive drying after cooling due to the creation of an additional section of current drying makes it possible to eliminate point insulation defects caused by residual moisture on the wire surface when hot insulation is applied.

Claims (5)

1. Installation for induction heating of metal wire, comprising a single-winding transformer, a system of guide contact rollers mounted on supporting elements, a vapor-protective tube and a cooling bath, which, in order to improve the quality of heating by adjusting the heating zone, the cooling bath is made with the possibility of reciprocating movement in the vertical plane, the lower end of the vapor tube of the protective tube is located from the horizontal axis of the lower roller at a distance of 0.3-0.6 of radius this video. 2. Installation according to claim 1, characterized in that the vapor barrier tube is made of a non-magnetic metal material in the form of sections with a gap between each other, connected by a flexible electrical insulating coupling, and has the possibility of horizontal movement. 3. The installation according to claim 1, wherein the lower guide roller is made with a conical surface, which forms an angle of 1-3 ° with the axis of the roller. 4 .. Installation according to claim 1, characterized in that the upper guide roller is made with guide grooves electrically insulated with each other. 5. Installation according to claim 1, characterized in that the transformer is made with an additional measuring turn. FIG. 2 Sb Fig.Z Bb