SU1745366A1 - Method for production of fluxes by grinding and classification - Google Patents

Abstract

Use: crushing and screening production of flux materials. The raw material 1, which includes pieces of a given separation class with an excess number of pieces of fineness above the upper limit of a given separation class, is fed to an inertial screen 2, the screening surface of which has openings corresponding to the upper limit of the specified separation class. The above-mentioned product 3 of this screen, consisting of pieces of a size over the top

Description

The invention relates to methods for crushing and screening production of flux materials,

The purpose of the invention is to increase the yield of a commercial product with the addition in the allowable volume of pieces of a fineness above the upper limit of a given class of separation.

The drawing shows a simplified circuit diagram of the apparatus, implementing the method,

The method is carried out as follows.

The original flux raw material 1, including pieces of a given class of 20-80 mm and an excess amount of pieces with a particle size of over 80 mm (the upper limit of the specified separation class) is fed to the screening surface of the inertia screen 2 having openings corresponding to the upper limit of the specified separation class. In this case, these holes may be square in size 80x80 or 90x90 mm. The oversize product 3 of this screen, consisting of pieces with a size greater than 80 mm (the upper limit of a given separation class), is supplemented with a conical shot lkoy 4, the discharge gap 5 is adjusted for a given class of pieces, ie less than 80 mm, and pieces of size separation over a predetermined class, i.e. more than 80 mm. According to OST 1463-80, a given class of 20-80 mm flux rubble may additionally contain no more than 10% of larger pieces. Such an allowable volume of these pieces is provided by selecting the appropriate width of the crusher's discharge gap, which additionally crates the above-mentioned product of the screen 6. The output product 7 of the crusher goes to the inertia screen 8, which contains the crushed stone of a given class with an additive in the allowable volume of pieces larger than the top the limit of a given class, in particular 20-80 and 80-130 mm, is fed to the conveyor 10 of the finished product. A sub-pit product 11 of this screen, a waste of a particle size of less than 20 mm (the lower limit of a given separation class), is fed to the waste conveyor 12. Similarly, using the inertial screen 13, the sub-screen product of screen 2 is sorted with the shipment of separation products

respectively on the specified conveyors. Technical and economic efficiency of the method is due to the characteristics of the crushed product, according to which the crushing waste is less, the more

the width of the discharge gap of the crusher. Obtaining, according to this method, in the allowable volume of pieces with a particle size above the upper limit of a given class of separation, is when additional cracking is added

the product of the screening pre-screening of the raw material forces the maximum width of the discharge gap to be installed in the cone crusher, which is usually used for additionally crushing the product of this screen, which leads to a drastic reduction of waste and a corresponding increase in the yield of a commercial product of a given class, and the pieces larger than the upper limit of the specified class of separation remains at the same time in the allowable amount

Claims (1)

Claims The method of crushing and screening production of flux materials, including pre-screening of the raw material and subsequent addition to the specified class of supra-screening product, characterized in that, in order to increase the yield of commercial product with the addition in the allowable volume of pieces with a particle size above the upper limit of a given separation class by reducing the crushing waste with a particle size of less than the lower separation class, the preliminary screening is carried out with a screening surface with holes corresponding to the upper limit of the specified separation class, and the addition of pieces above the upper limit of a given class of separation is carried out in the process of subsequent cracking.