KR20190015908A - Break to sand of the making method and making device - Google Patents

Abstract

The present invention relates to a method for producing crushed sand using clay mineral and limestone containing gemstones and an apparatus thereof, which are provided to eliminate the problems in which, when producing crushed sand by a general wet process using waste stones in a limestone mine, productivity is lowered by a build-up phenomenon in sand sorters, dehydrators, or the like since a reaction is undergone with water due to limestone or clay mineral contained in waste stones, and the produced crushed sand contains dust fines and thus falls short of the KS standard for crushed sand. The method comprises: a step of grinding raw stone dusts of waste stones mined from a stony mountain, and then primarily washing the ground stone dusts to supply raw materials; a step of gravity-sorting the supplied raw materials into particles with a grain size of 2 mm or less having a large amount of dust fines and particles with a grain size of 2 mm or more having a small amount of dust fines by a gravity sorter; a step of transferring the particles with a grain size of 2 mm or less having a small amount of dust fines in the gravity-sorting step to a dehydration screen and having the particles gone through dehydration and dust fine separation processes to produce the raw materials into products; a step of secondarily washing the particles with a grain size of 2 mm or less having a large amount of dust fines in the gravity-sorting step with water, and then transferring the particles with a grain size of 2 mm or less to a cyclone dust fine separator to perform dust fine separation through vortex sorting; a step of transferring particles with a grain size of 0.88-2 mm in the dust fine separation performing step to a dehydration screen to produce the raw materials through dehydration and dust fine separation processes; and a step of transferring particles with a grain size of 0.08 mm or less in the dust fine separation performing step to a condensation tank to be transferred to a sludge tank through a condensation process, dehydrated using a filter press and then discharged the in the form of a cake.

Description

Technical Field [0001] The present invention relates to a method for manufacturing crushed sand using a raw material including clay minerals and limestone,

The present invention relates to a method for manufacturing crushed sand using a raw material including clay minerals and limestone, and more particularly, to a method for manufacturing crushed sand using limestone mine, Clay minerals that can solve the problems that the productivity is lowered due to the buildup phenomenon such as sand separator and dehydrator due to the reaction with water due to limestone or clay minerals, The present invention relates to a method for manufacturing crushed sand using gemstones containing limestone and a manufacturing apparatus therefor.

Generally, the process of producing aggregates by crushing rocks taken from rocks or mines is usually divided into a manufacturing process for producing coarse aggregate and a manufacturing process for producing crushed sand.

A method and apparatus for manufacturing an aggregate material that solves the problems such as a decrease in productivity due to the production of coarse aggregate and crushed sand separately are disclosed in Patent Registration No. 0263819.

This apparatus temporarily separates the rock and soil supplied through the hopper into a grizzly feeder, and then crushes the rock passing through the upper part of the riser feeder with the first crusher, A second crusher for crushing rocks that have passed through the vibrating feeder; a first vibrating screen for filtering out rocks having a first size among the introduced raw rocks; and a second vibrating screen for filtering the first vibrating screen, A third vibrating screen for filtering the rock of the second size among the rocks passing through the first vibrating screen and a second vibrating screen for filtering the rock remaining on the second vibrating screen A third vibrating screen for filtering out rocks having a third size among the crushed rocks by the fourth crusher to output the rocks as coarse aggregate; Fourth A fifth vibratory screen for filtering out rocks having a fifth size among the rocks having passed through the fourth vibratory screen and outputting them as sand; and a fourth vibratory screen for filtering the rock having the fifth size, A sand unit for classifying and dewatering sand and sludge to output sand, a sedimentation / concentration unit for concentrating and concentrating the water containing the classified sludge, a filter press for dewatering the concentrated sludge, And water spraying means for spraying water to the rock passing through the screen.

However, the above-described aggregate production apparatus has the following problems.

First, the raw material rocks and soil materials are stored in the storage tank like the rock crushed by the first crusher, and the crushing efficiency is lowered by crushing the raw rock materials mixed with the soil by the second crusher. In addition, the amount of crushing is reduced by the amount of crushed stone, and the clay of the earth crust is compressed and adhered to the secondary crushed rock (the clay material does not fall off only by sprinkling on the screen) And tannic acid and cumic acid of clay have adverse effects on cement curing, and the strength and durability of concrete are deteriorated as a whole.

Second, generally, the maximum processing capacity of the screen is 300 t / hr, and the throughput of the first vibration screen must be filtered by the second and third crushers simultaneously with the crushed rock, Lt; / RTI > / hr. The newly added raw material 200t / hr contains 140t / hr of rock, 20t / hr of stone and 30t / hr of soil, because it contains 70wt% of rock, 10wt% of stone, 10wt% of soil and 10wt% / hr corresponds to the return amount of the third crusher. Therefore, the production volume of the product of the system is 110t / hr of coarse aggregate, crushed sand is 2t3, crushed sand produced from crushed stone and soil, 70t / hr, and the rest is sludge.

Therefore, the apparatus has a limitation in the throughput that the maximum producible amount can produce about 110 t / hr of coarse aggregate and about 70 t / hr of crushed sand. The third vibratory screen must be recycled at a rate of about 200 t / hr for raw rocks of less than 25 mm to 0 mm and about 60 t / hr of raw rock remaining in the fourth vibratory screen in the third crusher, It is only 200t / hr.

In addition, the third vibratory screen has a too large amount of material to be classified, such as re-crushing and injecting residues between the fourth vibratory screens to form a classified water layer having a thickness of 5 cm or more. The load on the third and fourth crushers is increased and the throughput is reduced as a result. Therefore, the maximum production capacity is 110t / hr of crushed sand, 70t / hr of crushed sand, and 30t / hr to 45t / hr of sludge will be produced. Therefore, 300t / hr of coarse aggregate and 200t / hr of coarse aggregate There is a limit to the production of mass processing and the production cost increases.

In addition, sludge, sedimentation tank, and filter press, which is a post-treatment facility for classification and sorting of sand and sludge, must be installed at a minimum scale of 160 t / hr. . Therefore, the shredder and the screen are unnecessarily reduced, resulting in a problem that the productivity is lowered and the production cost is increased.

In addition, since the sand unit as the crushed sand and sludge separation and dewatering unit is required to pump the entire slurry containing the crushed sand and the sludge and water having a diameter of 3 mm or less or 4.75 mm or less through the hydrocyclone, the impeller, There is a problem that the wear cost is increased because the wear loss is very large due to the sand of 4.75 mm or less in the pipe and the ciclon liner.

In addition, when segregation of segregation of granite and sooty rocks of raw material rock with many segregated physical properties is observed, particles larger than 0.6 mm (30 mesh) are severely segregated, and in the above-mentioned prior art, those having a particle size of 3 mm to 4.75 mm It is classified as crushed sand product from vibration screen. It is produced by segregation of less than 4.75mm, and substitution rate of natural sand is 30 ~ 50% due to granulation rate, particle size distribution, And the workability of the concrete is poor.

In order to solve this problem, it is practically impossible to apply all of the large particles of the particle size of 0.6 mm or more and the soil to the impact crushing crusher (the fourth crusher).

Recently, a patent registration No. 0451059 (method and apparatus for producing aggregate) has been proposed to solve this problem. In the case of raw materials including clay and limestone, the pulverized material having a particle size of less than 5 mm often contains fine particles, clay and limestone components react with water to cause entanglement, which makes it difficult to separate fine particles in the conventional crushed sand process, , The productivity is reduced due to the buildup phenomenon in the sand separators and dehydrators due to the reaction with water due to the limestone or clay minerals contained in the waste lime. When the crushed sand is produced in a large amount (less than 0.08 mm) 7%), and it was inferior to the crushed sand KS standard.

KR Patent Publication B1 10-0263819 (May 05, 2000) KR Patent Publication B1 10-0451059 (September 21, 2004)

SUMMARY OF THE INVENTION Accordingly, it is an object of the present invention to solve the above-mentioned problems of the prior art, and it is an object of the present invention to provide a method of producing a fountain sand by a general wet process using a waste stone in a limestone mine, wherein the limestone or clay mineral contained in the waste lime reacts with water Sand crusher, dehydrator and so on. It is possible to solve the problem that the productivity is lowered and that the crushed sand contains the fine particles of the crushed sand produced. .

It is another object of the present invention to provide a process for separating large particles (1 mm or more) and small particles (1 mm or less) using a specific gravity screening process in a general wet process and adding a cleaning and vortex screening process (0.08 mm or less) included in the process gas.

In order to achieve the above-mentioned object, the present invention provides a method for producing waste rocks, comprising the steps of: Separating the supplied raw material into grains having a grain size of 2 mm or less and grains having a grain size of 2 mm or more and having a small grain size; A step of dividing the particles having a diameter of 2 mm or less and having a small amount of fine particles into a dewatering screen to carry out a dehydration and differential separation process to produce a raw material as a product; Separating the particles having a diameter of 2 mm or less with water by secondary washing with water and sending the particles having a diameter of 2 mm or less to a cyclone fine particle separator to perform differential separation by vortex sorting; In the step of performing the differential separation, 2 to 0.08 mm particles are sent to a dehydrating screen to send raw materials to the product through a dehydration and differential separation process; The step of performing the differential separation includes sending particles to the condensation tank through the condensation tank to the sludge tank through a condensation process, dewatering by using a filter press, and discharging the resulting mixture in the form of a cake. This paper proposes a method for manufacturing crushed sand using gemstones.

Also, in the step of selecting the specific gravity, the inclination angle of the conveying path of the non-separator is adjusted to about 4 to 7 degrees according to the specific gravity and the kind of the raw material, and the slope of the distribution plate is about 40 to 50 degrees .

In order to achieve the above-mentioned object, the present invention provides a raw material supply apparatus for crushing raw materials of gravel and minerals, which are waste mines mined in rocks, followed by primary washing with water; A gravity sorter for sorting and separating the fine particles according to the content of the fine grains while being supplied with the raw material; A cyclone fine particle separator for separating the particles having a diameter of 2 mm or less, which has a large amount of fine particles, with water, and separating the fine particles by vortexing; A dehydrating screen for supplying particles of 2 mm or less having a small amount of fine particles in the non-separator and producing deionized water and a fine particle separation process as a product; A condensing tank for supplying particles of 0.08 mm or less by the above-mentioned gravity sorter to undergo a condensation process; A sludge tank for receiving the condensed fine particles in the condensing tank and storing the sludge; And a filter press for discharging the fine particles passed through the sludge tank into a cake form and discharging the filtered fine particles. The fine particles separated by the cyclone fine particle separator are sent again to the dehydrating screen through a dehydration and differential separation process The crushed sand is produced to produce crushed sand, which is a product of the present invention.

The non-selected sorter further includes an inlet through which the raw material enters; A water supply unit for supplying water; A conveyance path for conveying and conveying a raw material containing a fine particle material; A discharge hole passing through one side of the conveyance path to discharge small particles; A distribution plate disposed immediately behind the discharge hole and capable of adjusting the ratio of the fine particles; And an outlet for discharging the raw material at the end of the conveying path.

In addition, the inclination angle of the conveyance path may be about 4 to 7 degrees.

Also, the inclination of the distribution plate may be about 40 to 50 degrees.

When crushed sand is produced by a general wet process using limestone mines, the productivity of limestone or clay minerals contained in waste lime is lowered due to build-up of sand reactors and dehydrators, The present invention can provide a method for manufacturing crushed sand using the clay minerals and limestone-containing gemstones, which can solve the problem that the produced crushed sand contains the fine particles and is less than the crushed sand KS standard.

In addition, the present invention separates two types of large particles (1 mm or more) and small particles (1 mm or less) using a specific gravity screening process in a general wet process, and includes a cleaning and vortex screening process for particles of 1 mm or less (0.08 mm or less) of the fine particles and the process apparatus therefor.

1 to 3 show an embodiment of a method for manufacturing crushed sand using a clay mineral, a limestone-containing ores according to the present invention, and an apparatus for producing the crushed sand.
Brief Description of the Drawings Fig. 1 is a view showing a method of manufacturing crushed sand using a clay mineral, a limestone-containing gemstone,
FIG. 2 is a schematic view showing a side and a side view of a non-separator according to the method for producing crushed sand using the clay mineral, the limestone-
FIG. 3 is a process flow chart according to a method for manufacturing crushed sand using a clay mineral and a limestone-containing ores according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

It is to be understood that the present invention is not limited to the disclosed embodiments, but may be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, It is provided to inform.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the drawings, the same reference numerals are used to designate the same or similar components throughout the drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

1 to 3 show an embodiment of a method for manufacturing crushed sand using a clay mineral, a limestone-containing gemstone, and an apparatus for producing the same according to the present invention.

1 to 3, a method for producing crushed sand using a clay mineral and a limestone-containing gemstone according to the present invention comprises the steps of: selecting raw silt, (S10) supplying the first washed raw material; (S20) of selecting a specific gravity of the supplied raw material to 2 mm or less particles having a large amount of fine particles and 2 mm or more having a small amount of fine particles by a gravity separator (120) having a conveying path (123) and a distribution plate (125); (S30) the particles having a diameter of 2 mm or less having a small amount of fine particles are sent to the dewatering screen 130 and subjected to a dehydration and differential separation process to produce a raw material as a product; (S40) of finishing secondary washing of particles having a diameter of 2 mm or less with water in the step of separating non-specific grains by water and sending the particles having a diameter of 2 mm or less to a cyclone fine particle separator 150 to perform differential separation by vortex sorting; In the differential separation step, the particles of 2 to 0.08 mm are sent to the dewatering screen 130 to send the raw material to the product through a dehydration and differential separation process (S50); In the differential separation step, the particles of 0.08 mm or less are sent to the condensing tank 160 and sent to the sludge tank 170 through the condensing process, and dewatered using the filter press 180 and discharged in the form of a cake (S60) .

The inclination angle of the conveying path 123 of the non-separator 120 is adjusted to about 4 to 7 degrees depending on the specific gravity and type of the ground raw material in the specific gravity selecting step S20, It is preferable that the slope of the inclination angle is in the range of 40 to 50 degrees.

The step S10 of supplying the raw material is carried out by grinding the clay minerals extracted from the clay minerals and the ores including limestone through a raw material feeder 110 including a crusher (not shown) and a vibrating screen (not shown) , And the raw material is supplied by the first washing according to the water supply.

The specific gravity sorting step S20 is a step in which the primary washed material is supplied to the specific gravity separator 120 and is fed by the distribution plate 125 through the conveying path 123 of the specific gravity separator 120, Or less and 2mm or more of particles having a small amount of fine particles.

In the step of producing the raw material (S30), the particles of 2 mm or less having a small amount of fine particles in the non-separator 120 are sent to the dewatering screen 130 and subjected to a dewatering and differential separation process to produce crushed sand as a product .

Preferably, the crushed sand produced as a product can be produced in a particle size of 5 to 0.08 mm.

In the differential separating step (S40), particles having a diameter of 2 mm or less and having a large amount of fine particles contained in the raw material are sent to the tank (140) by the non-separator (120) And is then pumped to the differential separator 150 to perform differential separation by vortex sorting using drag force of water using centrifugal force and gravity.

In the step of sending the raw material to the product (S50), 2 to 0.08 mm of fine particles of the raw material passed through the cyclone fine particle separator (150) is again sent to the dewatering screen (130) .

In the step of discharging in the form of a cake (S60), particles of 0.08 mm or less containing fine particles in the raw material are sent to the condensing tank (160) through the dewatering screen (130) ), Pumping the required amount, filtering / dewatering the filter using the filter press (180), and outputting it as a cake.

The method for manufacturing crushed sand using the clay mineral and the limestone-containing ores according to the present invention is performed through the manufacturing apparatus.

The apparatus for producing crushed sand using the clay minerals and limestone-containing gemstones according to the present invention comprises: a raw material supply device 110 for supplying the crushed raw materials of gravel and stones, A specific gravity separator (120) for sorting and separating the differentiations according to the content of the fine particles while being supplied with the raw material; A dewatering screen 130 for supplying particles of 2 mm or less having a small amount of fine particles in the non-separator 120 and performing a dehydration and differential separation process to produce crushed sand products from the raw materials; A cyclone fine particle separator (150) for sending particles having a diameter of 2 mm or less, which have a large amount of fine particles, to the tank (140), washing them with water, and separating the particles by vortex sorting; A condensing tank 160 for supplying particles of 0.08 mm or less by the non-separator 120 to undergo a condensation process; A sludge tank 170 which receives condensed fine particles from the condensing tank 160 and takes up sludge; And a filter press 180 for compressing and discharging the untreated particles of the raw material through the sludge tank 170 into a cake form.

Preferably, the pulverized sand is produced through the dehydration and differential separation process by sending the finely separated 2 to 0.08 mm particles of the raw material to the dehydration screen 130 again in the cyclone fine particle separator 150.

On the other hand, the gravity sorter 120 includes an inlet 121 through which the pulverized raw material enters; A water supply part 122 for supplying water; A conveying path (123) for conveying and conveying the raw material containing the fine particle material; An exhaust hole (124) passing through one side of the conveyance path (123) and discharging small particles; A distribution plate 125 disposed immediately behind the discharge hole 124 to adjust the ratio of the fine particles; And an outlet 126 for discharging the raw material from the end of the conveying path 123.

The distribution plate 125 is rotatable by a rotation shaft 125a passing through the distribution plate 125. The distribution plate 125 is rotated according to the specific gravity of the material to be conveyed and is conveyed in front of the distribution plate 125 A vortex phenomenon occurs due to the collision between the raw material and the water, thereby making it possible to select the vortex of the raw material.

Preferably, the inclination angle of the conveying path 123 may be about 4 to 7 degrees.

The inclination of the distribution plate 125 may be about 40 to 50 degrees.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be taken by way of limitation, It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the present invention as defined by the appended claims and their equivalents.

110: Feeder (selector)
120: Grain sorter
130: Dewatering screen
140: tank
150: Cyclone differential separator
160: condensation tank
170: sludge tank
180: Filter press

Claims (6)

A step of grinding the raw material of the waste stone mined from the stalagmite and then washing the raw material to supply the raw material;
Separating the supplied raw material into grains having a grain size of 2 mm or less and grains having a grain size of 2 mm or more and having a small grain size;
A step of dividing the particles having a diameter of 2 mm or less and having a small amount of fine particles into a dewatering screen to carry out a dehydration and differential separation process to produce a raw material as a product;
Separating the particles having a diameter of 2 mm or less with water by secondary washing with water and sending the particles having a diameter of 2 mm or less to a cyclone fine particle separator to perform differential separation through vortex selection;
In the step of performing the differential separation, 2 to 0.08 mm particles are sent to a dehydrating screen to send raw materials to the product through a dehydration and differential separation process;
In the differential separation step, particles of 0.08 mm or less are sent to the condensation tank to be sent to the sludge tank through a condensation process, and dewatered using a filter press, and then discharged in the form of a cake
Clay minerals, and limestone.
The method according to claim 1,
Wherein the inclination angle of the conveying path of the non-separator is adjusted to about 4 to 7 degrees in accordance with the specific gravity and type of the pulverized raw material, and the slope of the distribution plate is about 40 to 50 degrees
Clay minerals, and limestone.
A raw material supply device for supplying the ground raw material of gravel and limestone, which is a waste stone mined in the mountain, after the first washing;
A gravity sorter for sorting and separating the fine particles according to the content of the fine grains while being supplied with the raw material;
A cyclone fine particle separator for separating the particles having a diameter of 2 mm or less, which has a large amount of fine particles, with water, and separating the fine particles by vortexing;
A dewatering screen for supplying raw materials to a product through a dehydration and differential separation process by supplying particles having a fine particle size of 2 mm or more in the non-separator;
A condensing tank for supplying particles of 0.08 mm or less by the above-mentioned gravity sorter to undergo a condensation process;
A sludge tank for collecting the condensed fine particles in the condensing tank to remove sludge;
And a filter press for discharging the untreated particles, which have passed through the sludge tank, into a cake form and discharging it,
And 2 to 0.08 mm particles finely separated by the cyclone fine particle separator are sent again to the dehydrating screen to produce crushed sand as a product through dehydration and differential separation processes
Clay minerals, Crushed sand production equipment using gemstones including limestone.
The method according to claim 1,
The weight sorter
An inlet through which the raw material enters;
A water supply unit for supplying water;
A conveyance path for conveying and conveying a raw material containing a fine particle material;
A discharge hole passing through one side of the conveyance path to discharge small particles;
A distribution plate disposed immediately behind the discharge hole and capable of adjusting the ratio of the fine particles;
And an outlet for discharging the raw material at the end of the transportation path.
Clay minerals, Crushed sand production equipment using gemstones including limestone.
5. The method of claim 4,
And the inclination angle of the conveying path is about 4 to 7 degrees.
Clay minerals, Crushed sand production equipment using gemstones including limestone.
5. The method of claim 4,
And the slope of the distribution plate is about 40 to 50 degrees.
Clay minerals, Crushed sand production equipment using gemstones including limestone.

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