SU1091999A1 - Induction unit for heating powder blanks - Google Patents

Abstract

1. STEP-OFF SYSTEM FOR HEATING POWDER PREPARATIONS, h a i | j№. jajg ".4f includes a vertical body with an inductor, a table for placing heated billets, located in the lower part of the inductor, a pusher for moving the billets, so that it is necessary to retain -. neither the protective atmosphere in the process of heating the blanks, the table for placing the heated blanks is provided with an annular seal and is swingable, and the inductor case is made in the form of an inverted sealed glass. (/} O G) X) x x

Description

2. The installation according to p, I, t l and so that the table for placing the heated billets is installed on a hinge support.

3. The installation according to claim 1, about t l and that, in order to: eliminate the disorientation of the workpiece during the heating process due to the magnetic field of the inductor, the housing is equipped with a stop from

non-magnetic material located in the upper cavity of the housing.

4. The apparatus according to claim 1, wherein the case of the inductor is supplied with a water-cooled non-magnetic ring located on the end of the case from the side of the table to accommodate the blanks.

The invention relates to induction heating and can be used when heating powder blanks in a protective atmosphere before plastic deformation. A known induction installation of continuous operation with a vertically positioned inductor, equipped with a lifting mechanism with a table, which ensures the transportation of products through a vertical inductor, pivoting stops, which ensure the retention of the article, the base of products in the inductor, the pusher for moving products along the guide under the inductor, up to Removable table to the limit stop l. A disadvantage of the known construction is that it can be processed only a limited range of products, in particular cylindrical products with a step of a certain size. In addition, the installation design cannot provide heating of parts in a protective atmosphere. A known induction installation, comprising a multifilament inductor mounted vertically and a lifting table located under it, guides and a pusher for moving products along guides against the stop, which is mounted for movement along the pusher 2. However, the design of a known installation also cannot provide a protective atmosphere due to its leakage. The purpose of the invention is to ensure the retention of the protective atmosphere during the heating of the preform. This goal is achieved by the fact that in an induction unit for heating powder blanks, including a vertical case with an inductor, a table for accommodating heated blanks located in the lower part of the inductor, a pusher for moving blanks, a table for accommodating heated blanks is provided with an annular seal and is made with a swing , and the case of the inductor is made in the form of an inverted sealed glass. In addition, a table for accommodating heated blanks is mounted on a hinge support. In addition, the inductor case is provided with a stop made of a non-magnetic material located in the upper cavity of the case. Moreover, the inductor case is provided with a water-cooled non-magnetic ring located at the end of the case, from the side of the table for placing the blanks. The drawing shows schematically the proposed installation, a general view. The induction installation consists of a housing with an inductor in the form of an inverted sealed glass, a fitting 2 for supplying protective gas located in the upper part of the housing and a fitting 3 for exhausting gas located in the lower part of the housing, an emphasis A made of a nonmagnetic material and installed in the upper housing parts to avoid disorientation of the workpiece in the process of heating due to the magnetic field and eliminate the irregularity of their heating, water-cooled ring 5 of non-magnetic material located in the end of the building a, an inductor, a table 6 for accommodating heated blanks, which is mounted under the inductor case on a hinge support 7 with the possibility of rolling and provided in the end part with an annular seal 8 of elastic material. The blanks 9 are placed in cassettes 1 and transferred to the table 6 with a power supply. 11. The lifting of the table is carried out by the mechanism 12, on which a cylindrical spring 13 is installed to limit the swing of the table no more than 1. The induction installation operates as follows. In the initial position, the table 6 is held in the hinge support 7 in a horizontal position by means of a coil spring 13. The pusher 11 moves the workpiece 9 from the cassette to the table 6, after which it returns to the initial position. The mechanism 12 lifts the table 6 with the cooking 9 to touch the workpiece of the stop 4. In this case, the case of the inductor 1 is sealed with the help of the ring seal 8 and by turning the table 6 in the hinge support 7. Water passes through the ring seal 5 of the nonmagnetic material. I and o-ring 8 of elastic material. Through fitting 2, inert gas enters, which forces air out of the cavity of inductor I through fitting 3; blank 9 is kept by yiiopOM A from disorientation. When the forging temperature is reached, the inductor 1 is turned off by the table 6 lowered by the mechanism 12. The heated billet 9 is moved into the die cavity and the cycle is repeated. The proposed design of the induction unit will ensure non-oxidative heating of the powder blanks before forging, which will increase their quality and bring them closer to the monolithic material. The expected economic effect of 1314 rubles. per ton of products.

Claims (4)

1. INDUCTION INSTALLATION FOR HEATING POWDER PREPARATIONS, including a vertical casing with an inductor, a table for placing heated blanks located in the lower part of the inductor, a pusher for moving the blanks, so that the aim is to retention of the protective atmosphere during the heating of the billets, the table for accommodating the heated billets is equipped with an annular seal and is made with the possibility of swinging, and the inductor body is made in the form of an inverted sealed glass. > 2. Installation according to claim (), characterized in that the table for accommodating heated preforms is mounted on a hinged support. 3. The installation according to claim 1, wherein the, in order to prevent disorientation of the workpiece during heating due to the magnetic field of the inductor, the housing is equipped with a stop of non-magnetic material located in the upper cavity of the housing. 4. Installation according to nJ, characterized in that the inductor casing is provided with a water-cooled non-magnetic ring located at the end of the casing from the side of the table to accommodate the workpieces.