RU2692395C1 - String screen - Google Patents

Abstract

FIELD: mining.SUBSTANCE: invention relates to sieving and separation of loose materials by coarseness, mainly rock mass. String screen comprises a hopper-feeder, sifting surfaces installed one above the other in multi-tier manner, each tier of which is coupled with receiving bins and equipped with strings, with freely rotating tapers equipped with blades. Screening surfaces are made stepped with arrangement of strings in staggered order, fixed on cross-bars of steps, installed, in turn, on sidewalls of screen. Free-rotating tilts are installed in upper horizontal cross-bars of sieving stages of each tier, except for uppermost stages, and are identical on the whole tier, but decrease relative to superposed ones. On lower horizontal cross bars of each tier, except for the lowest ones, casing is installed above the tilts with direction towards sieving surface, which prevents ingress of sorted pieces of rock mass onto ascending blades of rotating tilters.EFFECT: increased efficiency of separation of rock mass of different composition into classes by size.1 cl, 2 dwg

Description

The invention relates to the technique of sifting and separating bulk materials by size, mainly rock mass.

A known screen contains a screening surface in the form of longitudinal rods obliquely mounted on a frame, a feeder hopper and receivers of separation products, the screening surface being multi-layered, with the rods of the upper tier fixed console, and the lower ends of the lower tiers located through one of the rods are bent in a vertical plane , with the receivers of separation products made in the form of vertically installed one after another dividers, to the upper ends of which, except the first and after it attached lower edge of the lower tiers of the rods, wherein the fold line of each tier is placed over rods divider forming oversize product separation receiver of this stage [A. USSR № 1699654 IPC W07B 1/12, 1991].

The disadvantage of this design is that when sorting lumpy materials, such as coal, cantilever rods of screening surfaces can diverge in width, worsening the quality of sorting.

над продольными струнами, причем длина лопаток, их количество и величина

зависит от свойств сортируемой горной массы [Патент РФ №2568460 МПК В07В 1/00, 2015 г.].Closest to the proposed invention is a string screen containing screening surfaces mounted on top of each other multi-tiered, each tier of which is associated with receiving bunkers, while the feeder bunker and each screening tier are arranged to move along the side guides of the front wall of the screen installed at an angle to horizontals, and in the lower part of the screen, each screening tier is arranged to move along the lateral edges of the horizontal guides, hingely interacting with the receiving bunkers, and the side walls of the receiving bunkers are made of two shifted halves, installed overlapping with an insert of elastic material, and the side edges of each screening level, except the bottom, are provided with corners with the ability to move along them, and transverse strings are fixed on the corners located under the longitudinal strings, and on the transverse strings are installed the turners (tilters) with the possibility of free rotation, while the uppermost screening surface has the most greater width between the strings, at each subsequent screening surface width between the strings is reduced and the installation angle of the anterior wall of the screen exceeds the angle of repose of the material to be sorted. The upper part of the front wall of the screen to the screening surface serves as the wall of the bunker. The turners (tilters) are equipped with blades located at a distance

above the longitudinal strings, with the length of the blades, their number and size

depends on the properties of the sorted rock mass [RF Patent №2568460 IPC W07V 1/00, 2015].

The disadvantage of this design is also expressed in the fact that the longitudinally mounted strings of the screening surfaces are of considerable length and can be stretched during operation, including on the sides, letting larger pieces pass, and turners (turners) after turning over the pieces of screening material put them on this same screening surface. This leads to a decrease in the efficiency of separation of the rock mass by size class.

The present invention solves the problem of increasing the efficiency of separation by size into classes of different composition of the rock mass.

This is achieved by the fact that a string screen containing a feeder bunker, screening surfaces mounted on top of each other is multi-tier, each tier of which is associated with receiving bunkers and equipped with strings, with freely rotating tilters equipped with blades, and the screening surfaces are made stepwise with strings staggered, mounted on the cross-pieces of the steps, installed, in turn, on the side walls of the screen, and freely rotating tilters are installed in the upper horizontal the crossbars of the screening steps of each tier, except for the uppermost steps, are the same on the entire tier, but decrease in relation to the upper ones, while on the lower horizontal crossbars of each tier, except the lowest ones, covers are installed above the tilters that prevent them from entering sorted pieces of rock mass, on the ascending blades of rotating tilters.

Performing the screening surfaces in steps allows reducing the length of the strings at the stage of the screening surfaces, which will favorably affect the “stiffness” of the tensioned strings and ultimately increase the sorting efficiency.

The same purpose is served by the installation at each subsequent step of the strings in a staggered manner relative to the previous one, with the positioning of tilters in the upper horizontal crossbars of the screening steps, between the strings, except the uppermost steps. Sifting pieces of rock mass, gaining speed on an inclined section, fall onto the blades of the turners, which they turn over and stack on the strings of the underlying stage, while the strings are arranged in a staggered manner.

In the lower horizontal crossbars of the screening steps, except for the lowest ones, there are enclosures guiding sorted pieces of rock mass in the direction of the screening surface and preventing them from getting onto the ascending blades of the rotating rotators, which also contributes to the sorting efficiency.

Thus, there is a causal relationship between the distinctive features and the problem to be solved.

The invention is illustrated by drawings.

FIG. 1 shows a string screen, side view; in fig. 2 view A of FIG. 1 at the stage of the screening surface.

, причем просеивающие поверхности выполнены таким образом, что самая верхняя имеет наибольшую ширину между струнами, и на каждой последующей просеивающей поверхности ширина между струнами уменьшается. Ступени просеивающих поверхностей состоят из продольных струн 4, натянутых между верхней 5 и нижней 6 поперечинах рамы 7. Причем верхние поперечины каждой верхней ступени закреплены с возможностью перемещения по направляющим передней стенки, а нижние поперечины каждой нижней ступени сопряжены с приемными бункерами 8. Все остальные поперечины ступеней просеивающих поверхностей закреплены с возможностью перемещения по боковым стенкам грохота (на чертеже не показано). Установка струн на просеивающей поверхности каждой ступени имеет шахматный порядок размещения относительно предыдущей, а угол установки струн β также превышает угол естественного откоса сортируемого материала. На верхней 5 поперечине каждой просеивающей ступени кроме самой верхней, между струнами, установлены свободно вращающиеся кантователи 9 с лопатками 10. Ширина и длина их лопаток одинаковы на каждом просеивающем ярусе. На нижней поперечине каждой просеивающей ступени кроме самой нижней установлены кожухи 11, направляющие сортируемые куски горной массы в сторону просеивающей поверхности и прикрывающие восходящие лопатки кантователей от попадания на них кусков сортируемого материала.String screen contains a hopper feeder 1, one of the walls of which is the front wall 2 installed at an angle a greater than the angle of repose of the sorted material. Adjacent to the front wall are sifting surfaces made in the form of steps 3 and installed with a gap in height

, moreover, the sifting surfaces are designed in such a way that the uppermost one has the greatest width between the strings, and on each subsequent sifting surface the width between the strings decreases. The steps of the screening surfaces consist of longitudinal strings 4 stretched between the top 5 and bottom 6 crossmembers of the frame 7. Moreover, the upper crossmembers of each upper stage are fixed to move along the guides of the front wall, and the lower crossmembers of each lower stage are associated with receiving hoppers 8. All other crossmembers the steps of the screening surfaces are fixed so that they can move along the side walls of the screen (not shown in the drawing). The installation of the strings on the screening surface of each stage has a staggered arrangement with respect to the previous one, and the installation angle of the strings β also exceeds the angle of repose of the material being sorted. On the top 5 crossbar of each screening stage, except for the topmost one, between the strings, freely rotating tilters 9 with blades 10 are installed. The width and length of their blades are the same on each screening stage. At the lower crossbar of each screening stage, in addition to the lowest one, there are installed covers 11, which guide the sorted pieces of rock mass to the side of the sieving surface and cover the ascending vanes of the tilters from the pieces of sorted material.

String screen to sort the rock mass works as follows.

When sorting the rock mass, open the gate of the feeder hopper 1, while the rock mass rolls down the front wall 2, set at an angle α, exceeding the angle of repose of the material being sorted.

на лопатки 10 кантователей 9, установленные на верхней поперечине 5 рамы 7, вращая их по часовой стрелке. Кусок горной массы, попадая на лопатку своей передней частью какое то время удерживается на ей, в то время когда следующая за ней другая лопатка, упираясь в заднюю часть куска, переворачивает его, укладывая на нижележащую ступень этого же яруса сортировки. При этом струны 4 нижележащей ступени расположены в шахматном порядке относительно вышележащей. Попадание мелких кусков горной массы на восходящие лопатки кантователей предотвращается кожухом 11, установленным на нижней поперечине 6 рамы 7 каждой ступени просеивающей поверхности кроме самой нижней. Таким образом, кусок горной массы, пройдя несколько ступеней верхнего яруса, несколько раз переворачивается и укладывается каждый раз на просеивающую поверхность, имеющую шахматное расположение струн по отношению к предыдущей ступени. В конце самой нижней ступени куски горной массы попадают в приемный бункер 8. Аналогичным образом происходит сортировка более мелких кусков горной массы на нижних ярусах, где ширина между струнами, ширина и длина их лопаток одинакова на данном ярусе и меньше чем на вышележащем ярусе, задерживая свой класс сортируемой горной массы.Having gained the necessary kinetic energy, pieces of rock mass fall on the screening surface, steps 3 of the upper tier formed from longitudinal strings 4, set at an angle β. Small pieces fall between the strings of the upper tier, while large pieces linger on the strings and, sliding along them, fall from a height

on the blades 10 tilters 9 mounted on the upper crossbar 5 of the frame 7, rotating them clockwise. A piece of rock mass, falling on the blade with its front part for some time, is held on it, while the next blade next to it, resting on the back part of the piece, turns it over, putting it on the lower stage of the same sorting stage. In this case, the strings 4 of the underlying stage are arranged in a staggered order with respect to the overlying one. The ingress of small pieces of rock mass on the ascending blades of tilters is prevented by a casing 11 mounted on the lower crossbar 6 of the frame 7 of each stage of the screening surface except the lowest one. Thus, a piece of rock mass, having passed several steps of the upper tier, turns over several times and fits onto a screening surface each time, which has a staggered arrangement of strings with respect to the previous step. At the end of the lowest step, the rock mass pieces fall into the receiving bin 8. Similarly, the smaller rock mass is sorted on the lower tiers, where the width between the strings, the width and length of their blades are the same on this tier and less than on the upper tier, delaying class of sorted rock mass.

String screen in addition to the side walls is equipped with an airtight lid (not shown in the drawing) to prevent dusting when sorting the rock mass.

The application of the proposed string screen makes it possible to more effectively solve the problem of separating different in composition rock mass into size classes, as well as quickly reconfigure under a different particle size distribution.

Claims (1)

String screen containing a hopper feeder, screening surfaces mounted on top of each other multi-stage, each tier of which is associated with receiving bins and equipped with strings, with freely rotating tilters equipped with blades, characterized in that the screening surfaces are made stepwise with the arrangement of strings in a staggered manner , fixed on the cross-beams of the steps, installed, in turn, on the side walls of the screen, and freely rotating tilters are installed in the upper horizontal transverse The steps of the screening steps of each tier, except for the uppermost steps, are the same on the entire tier, but decrease in relation to the upper ones, while on the lower horizontal crossbars of each tier, except the lowest, above the tilters, covers are installed with a direction to the side of the screening surface, preventing ingress sorted pieces of rock mass on the ascending blades of rotating tilters.

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