SU769264A1 - Electric furnace for thermal treatment of articles - Google Patents

Description

The invention relates to devices for heat treatment of magnetic products and materials, in particular, ferrite microcores memory and can be used in electronic and other 5 industries.

A heat treatment electric furnace is known, comprising a loading device, a heating chamber with a conveyor belt, an unloading device, and a collector [1].

The loading device is made in the form of a hopper with a vibratory feeder, and the unloading device is in the form of a rotating brush with rubber blades. Sintering of ferrite 15 cores takes place in the furnace directly on the nickel belt of the furnace conveyor. This makes it easy to automate the operation of loading and unloading the furnace, and also increases the reproducibility of the heat treatment process 20. Nickel tape is a transporting body and at the same time the best catalyst for the sintering process of ferrite cores of many grades. 25

The disadvantages of this furnace include the fact that when unloading sintered ferrite cores with a brush with rubber blades from the belt of the furnace conveyor, 30 scale gets into the product collection along with the cores, which is formed during the oxidation of the nickel tape and its interaction with the material of the products during sintering in air. This requires additional operations to separate the ferrite cores from the scale. The complete separation of ferrite microcores from comparable scale particles is a very difficult and time-consuming task. Even a small amount of the smallest particles of scale left in the cores after numerous washing, sieving and magnetic separation leads to jamming of the cores in the paths of the manipulator of an automatic device that performs 100% control of finished products. Jamming of the scale in the core hole leads to a breakdown of the measuring device.

The aim of the invention is to improve the quality of processing of products due to separation from the scale of the products during unloading.

This goal is achieved by the fact that the furnace is equipped with a brush installed behind the unloading device, pressed against the working surface of the conveyor belt, and the unloading device is made in the form of a conveyor belt, one of the drums of which is mounted above the conveyor belt conveyor, made with grooves on the forming in them with permanent magnets, while the tape and drums of the conveyor belt are made of non-magnetic material.

The invention is illustrated in the drawing, which shows a furnace in section.

The furnace contains a base 1, a heating chamber 2, through which a belt furnace conveyor 3 passes, a loading device 4 made in the form of a hopper, an unloading device 5 and a collector 6 of finished products, a brush 7 for cleaning the working surface of the belt of the furnace conveyor 3 from scale, collector 8 dross.

The unloading device is made in the form of a conveyor belt consisting of a driving drum 9 and a driven drum 10 and a conveyor belt 11 stretched over them, made, for example, of rubber. The drums 9, 10 and the tape 11 are made of non-magnetic material.

Along the generatrix of the driven drum 10, longitudinal grooves are made in which the permanent magnets 12 are fixed.

The furnace operates as follows.

Ferrite cores are poured into the hopper of the loading device 4, from which they uniformly enter the belt of the furnace conveyor 3, moving at a certain speed to the heating chamber 2. At the exit from the heating chamber 2, the sintered ferrite products cool down and are captured by magnets 12 of the drum 9 and transferred by a non-magnetic conveyor belt 11 on. non-magnetic drum 8, from which the products are poured into the collection 6 of finished products. The scale formed after the heat treatment on the belt of the furnace conveyor 3 is not captured by the magnets 12 of the drum 10, since it is non-magnet 769264. Moving on, the belt of the furnace conveyor 3 is cleaned of scale by a rotating brush 6. The scale gets into the collection 8.

Using the design allows you to get clean (not mixed with scale) ferrite cores after heat treatment. This reduces the complexity of preparing the products for the control operation, 10 therefore reduces the overall complexity of the manufacture of ferrite memory cores.

Claims (1)

Claim 15 Electric furnace for heat treatment of products, containing a loading device, a heating chamber with a belt furnace conveyor, an unloading device and a collection, characterized in that, with the aim of improving the quality of processing products by separating from the mill scale during unloading, it is equipped with an installed behind the unloading device and pressed to the working surface of the furnace 25 conveyor with a brush that can be rotated, and the unloading device is made in the form of a conveyor belt, one of the drums of which is mounted above it has a belt conveyor and has longitudinal grooves located along the generatrix, with permanent magnets fixed in them, while the tape and drums of the belt conveyor are made of non-magnetic material.