SU1532791A1 - Charging arrangement for conveyer-type sinter cooler - Google Patents

Abstract

The invention relates to the preparation of iron ore raw materials for metallurgical processing, in particular to the production of sinter, and can be used in devices for loading sinter to linear coolers. The aim of the invention is to intensify heat exchange by ensuring optimal placement of the agglomerate on the chiller canvas. The agglomerate from the material supply unit 1 falls on the finger-like elements 6, located at a certain distance from each other, where large pieces are separated from the flow, which are directed to the back wall 3 of the tray and laid down on the cooling sheet. Medium and small fractions, poured along the inclined partition 5 and segregation at the same time by size, are loaded over large pieces in the following order: the fines fall into the middle part of the layer, and the middle fractions onto the surface of the cooled agglomerate layer. Laying the agglomerate on a linear cooler is optimal and provides effective cooling of the bed, reducing dust emission to the environment and reduces the cost of gas cleaning. 1 il.

Description

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31532791

provides effective cooling, reducing dust emission in

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environment and reduces gas cleaning costs. 1 il.

The invention relates to the preparation of iron ore metallurgical raw materials in particular the production of sinter, and can be used to load sinter on conveyor coolers.

The purpose of the invention is to intensify heat exchange by ensuring optimal placement of the agglomerate on the cooler cloth,

The drawing shows a diagram of the boot device.

The loading device consists of a material supply unit 1 and a tray containing front and rear walls 2, 3, respectively connected by end walls 4, an inclined partition 5 of the tray of finger elements 6 suspended on an axis 7, perpendicular to the end walls inclined towards the back wall 3 and located under the lower edge of the material supply unit 1 and the fender plate 8. The upper edge of the inclined partition 5 is located under the lower ends of the finger-like elements 6 and behind the lower edge of the material supply unit 1.

The hot agglomerate at the Ssypanin from the material supply unit 1 falls on the finger-shaped elements 6 deflected to the rear wall, which are located at the calculated distance from each other. Large pieces of agglomerate, the size of which is more than the distance between the finger-shaped elements, are guided by the rear chamber of the tray, formed by the inclined partition 5 and the rear wall 3 of the tray, and are laid down on the cooling sheet. Small and medium fractions of sinter, poured from the lower edge of the material supply unit 1 and pass through the gaps between the finger-shaped elements 6, fall into the front chamber of the tray on the inclined partition 5 in the upper part, roll down the inclined partition 5 and redistribute with the laying of the medium

their fractions up, and small - down. Under the finger-shaped elements 6, at an estimated distance from them, there is installed a baffle plate 8, which changes the flow path.

5 medium and fine fractions and directs it to the upper part of the inclined partition 5 in the case of the installation of the material supply unit 1 with a small angle of inclination.

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Laying large pieces of agglomerate - in the lower part of the layer, fine fractions in the middle part of the layer over large, 5 fill the interstitial space, and medium - on the surface of the cooled layer is optimal from the point of view of intensification of heat transfer during cooling. In addition, placing the sinter on a linear cooler provides effective reduction of dust emission into the environment, reduces the cost of gas cleaning.

Claims (1)

Claim 5 The sinter conveyor cooler loading device, containing a tray consisting of front and rear walls, a baffle plate and a material supply unit to the tray, characterized in that, in order to intensify heat exchange by ensuring an optimal laying, material, on the cooling sheet, the device is provided with finger-shaped elements inclined towards the rear wall of the tray, pivotally suspended in the upper part of the tray, with a gap between them and a partition inclined towards the front wall 0 of the tray, with the upper edge of the the partition is located under the lower edges of the finger-like elements. 0 0