SU968080A1 - Apparatus for heating products in transverse magnetic field - Google Patents

Description

(54) INSTALLATION FOR HEATING PRODUCTS IN TRANSVERSE MAGNETIC RATIO

The invention relates to the induction heating of products for thermal and thermomechanical processing. A mechanized induction heating device in which the heated products move in a magnetic field in a continuous package state is known, the package arrangement is dictated by the process conditions, and the heated product is unloaded freely or by any means of mechanization 1. The known installation for heating products in a transverse magnetic field, containing an oval inductor, a mechanism for moving the x-rays, placing the products in a package and feeding it through an inductor connected to house 2. A disadvantage of known installations is unstable operation due to the mutual weld workpieces in a package of burrs at the ends of workpieces. The purpose of the invention is to ensure the reliability of the installation by eliminating the welding of products in the inductor. The goal is achieved by the installation for heating products in a transverse magnetic field, containing an oval inductor, a mechanism for stepping, storing products into a bag and feeding it through an inductor connected kinematically to a drive, equipped with a product displacement mechanism installed in front of the inductor. swivel two shoulders lever. In this case, one of the ends of the lever is connected with the drive by means of a slot cam and a gear with a gear ratio of 1: 2 or by means of an electromagnet interacting with the drive through a cycle of its operation. FIG. Figure 1 shows an induction installation with a package formation regulator having a mechanical connection with a common drive; in fig. 2 — A packet shaping controller having electrical communication with a common drive. The installation contains an oval inductor 1, a mechanism 2 for transporting, stacking products into the package and feeding the package through an inductor connected to the drive 3. Before the inductor 1, a mechanism 4 for displacing the products is installed, made, for example, in the form of a rotary double arm 5, one end of which is connected driven by a slot cam 6 fixed on the shaft 7, and a gear 8 and 9 with a reduction ratio of 1: 2.

One of the ends of the lever may be connected to the drive by means of an electromagnet 10, interacting with the drive through a cycle of its operation, for example, by means of an electrical connection.

The installation works as follows.

The blank for the oval inductor 1 with a step motion is supplied by the transport mechanism 2 operating from the drive 3.

With each stroke, the transport mechanism 2 shifts the workpiece from position A to position B, pushes the prefabricated workpiece from position B to inductor 1, thereby shifting the workpiece into a solid package and moves the entire package through the inductor at each stroke by a step equal to approximately the transverse the size of the workpiece. A certain arrangement of the blanks in the solid bag is provided by the mechanism 4 for displacing the products, which operates through the cycle of operation of the drive 3 by displacing the workpiece at position A carried out by the pivoting lever 5 receiving movement from the drive 3 through the slot cam 6 and gearing 8 and 9. ratio of 1: 2.

Consequently, in the package, the workpieces are located in a mutually offset position, and this excludes, when heated in the inductor, mutual adhesion of the face burrs or edges and ensures a uniform piece by piece separation of the heated workpiece from each other when they exit from the inductor.

In the case of the electrical connection of the displacement mechanism of the products with the drive by means of an electromagnet, the formation of the package is performed as follows. The electromagnet 10 is triggered through the cycle of operation of the drive 3, receiving a command from the means

electroautomatics in communication with the drive, for example, through a limit switch.

The technical and economic efficiency of the proposed invention is due to the fact that by providing a clear piecewise delivery of the heated billet, the reliability and productivity of this induction equipment, especially as part of complex automated production, is dramatically increased.

Claims (3)

1. An installation for heating products in a transverse magnetic field, containing an oval inductor, a mechanism for stepping, placing products in a package and feeding it through an inductor connected kinematically to a drive, characterized in that, in order to ensure reliability of the installation by eliminating welding products in the inductor, it is equipped with a product displacement mechanism installed in front of the inductor and made in the form of a two-arm swivel arm, one of the ends of which is connected with the drive. 2. Installation according to Claim 1, characterized in that one of the ends of the lever is connected to the drive by means of a slot cam and a gear with a gear ratio of 1: 2. 3. Installation according to claim 1, characterized in that one of the ends of the lever is connected to the drive by means of an electromagnet interacting with the drive through a cycle of its operation. Sources of information taken into account in the examination 1.Slukhotsky A.E. Inductors for induction heating. M., “Energie, 1964, p. 240, 252. 2. Induction installation N057.00.00.00.00 SB, developed by NIITSHM in 1977. five Sh