KR101833424B1 - Dry Type Separation Apparatus - Google Patents

Abstract

The present invention relates to a dry type separation apparatus, and specifically, to a dry separation apparatus capable of efficiently separating coal from a pulverized product in which a large amount of rocks are mixed, by moving and assorting the pulverized product where rocks and coal having different specific gravity are mixed by vibration.

Description

[0001] DRY TYPE SEPARATION APPARATUS [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a dry type separation apparatus, and more particularly, to a dry type separation apparatus for sorting particles having different specific gravity using specific gravity difference.

The apparatus for separating particles from each other due to the difference in specific gravity is widely used not only in the field of dry coal but also in the sorting field for recycling waste plastics and the field for purifying rare metals such as rare earths.

Recently, the price of crude oil has risen explosively, and efforts are being made to secure an energy source that can replace crude oil. Research on new energy sources that can replace existing fossil fuels such as solar energy and bio energy has been actively conducted, but there are still many limitations in industrial use. Recently, demand for coal has been increasing.

Particularly, in the dry coal field, raw coal, which is coal as it is from coal seams, contains a large amount of coal and contains gangue, which is a small amount of ash and rock gravel, and when it contains gangue, (K2O, Na2O) contained in mica, chlorite, and clay in the gangue lower the melting point of ash during the combustion process, causing slagging in the boiler of the thermal power plant, And fouling are caused to shorten the lifespan of the boiler. Thus, development of techniques for removing gangue mixed with raw coal by a physical method has been attempted to improve the combustion efficiency and extend the life of the boiler, Interest in dry screening equipment for screening for recycling or for purifying rare metals such as rare earths in mixed soils And there.

As a related art, the present applicant has disclosed a Korean Patent Registration No. 1295167, wherein a body having an upper surface formed of a sloped surface inclined to one side in the front and rear direction and one side in the left and right direction and the inclined surface opened; A first deck which is seated inside the inclined surface and in which a plurality of first pores are formed; A raw coal supply unit for supplying the ground raw material to the top surface of the first deck; An air blowing fan installed inside the main body and blowing air to the first pier; And a vibrating part for applying vibration in the horizontal direction to the first deck so that the fine particles and the waste lime particles in the crushed primary particles are discharged through different paths.

Korean Patent No. 1295140 (2013.08.05)

SUMMARY OF THE INVENTION The present invention provides a dry separation apparatus that improves the ability to select different materials having different specific gravity by using the arrangement structure of the body and the supply unit and the shape of the guide unit.

The dry separator 1000 according to the present invention is arranged such that the upper surface thereof is inclined and the corners of the first section 110, the second section 120, the third section 130, A body 100 divided into sections 140; A feeder 200 for feeding pulverized material to the second section 120; A vibration unit for vibrating the body 100; A plurality of guide units 300 inclined on the upper surface of the body 100 for moving and separating the pulverized material; And a control unit.

The guide unit 200 is extended from the front side of the body 100 where the first section 110 is located to the rear side where the third section 130 is located, 110 are positioned in the left direction and the second section 120 is positioned in the right direction.

Also, the body 100 may be vibrated laterally.

The body 100 has a first guide bar 150 formed on the right edge thereof so that the height thereof decreases from the second section 120 to the fourth section 140.

The body 100 has a second guide bar 160 extending from the first section 110 to the third section 130 at a left edge thereof.

The second guide bar 160 is adjustable in the longitudinal direction.

In addition, the body 100 may have a blocking portion 170 formed in the first section 110.

The guide unit 200 may include a plurality of first guide units 210 formed on the front left side of the body 100 and spaced apart from the right side of the first guide units 210, A plurality of second guide units 220 having left ends facing the right end of the unit 210 bent in the left direction and a plurality of second guide units 220 formed at the rear of the first guide unit 210 and the second guide unit 220 And a plurality of third guide units (230).

The body 100 is formed with a plurality of holes 180 in the vertical direction, and air is blown from the lower side to the upper side of the hole 180.

Also, the supplying unit 200 is orthogonal to the body 100.

In the dry separation apparatus of the present invention having the above structure, the upper surface of the body and the pulverized water supply portion are formed so as to face each other, so that the pulverized material moves from the supply portion to the body, Has a sufficient time to be separated into individual substances having different specific gravities.

In addition, a first guide bar having a variable inclined surface is formed on one side of the inclined surface of the body to prevent the pulverized product from being sorted into individual substances and being prevented from being discharged to the outside.

In addition, a second guide bar having a variable length is formed on the other side of the inclined surface of the body so that the stones having high specific gravity from the second zone to the first zone are prevented from being discharged to the outside, It has the advantage that different stones and coal can be separated vertically.

Further, the left end of the second guide unit is folded to form a spacing space between the first guide unit and the second guide unit, thereby further selecting coal to be forcibly transferred by the stone moving on the guide unit.

1 is a perspective view of a conventional dry-
FIG. 2 is a perspective view showing the dry separator according to the present invention (at the time of forming the first guide bar)
FIG. 3 is a front view showing the dry separator according to the present invention (at the time of forming the first guide bar)
FIG. 4 is a plan view showing a dry separator according to the present invention (at the time of forming the first guide bar)
Fig. 5 is a conceptual view showing the top and bottom arrangement of the stone and coal selected by the vibration
6 is a plan view showing a dry separator according to the present invention.
6 is a perspective view of the dry separator according to the present invention (at the time of forming the first, second and third guide units)
7 is a plan view (when the first, second and third guide units are formed) of the dry separator according to the present invention,
8 is a perspective view of the dry separator according to the present invention (at the time of forming the second guide bar)
9 is a conceptual view showing a second guide bar of the dry separation apparatus according to the present invention.
FIG. 10 is a perspective view showing that a blocking portion is formed in the dry separation apparatus according to the present invention. FIG.
11 is an exploded perspective view of the dry type separating apparatus of the present invention

Hereinafter, the technical idea of the present invention will be described more specifically with reference to the accompanying drawings.

BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings, which are included to provide a further understanding of the technical concept of the present invention, are incorporated in and constitute a part of the specification, and are not intended to limit the scope of the present invention.

Hereinafter, the crushed material of the raw coal is taken as an example, the material having a high specific gravity is expressed as gangue or stone, and the material having a low specific gravity is expressed as coal or fine coal. However, in order to understand the present invention, It can be broadly interpreted as high and low specific gravity materials.

2, the dry separation apparatus 1000 according to the present invention is formed such that its top surface is inclined, and each corner has a first section 110, a second section 120, A body 100 divided into a first section 130 and a fourth section 140 and a supply section 200 which supplies pulverized material to the second section 120 and is formed opposite to the body 100, And a plurality of guide units 300 sloped on the upper surface of the body 100 for moving and separating the pulverized material.

In detail, the body 100 is formed such that its top surface is flat and the vertexes formed in the respective sections 110, 120, 130, and 140 are inclined to have arbitrary heights, so that the respective sections have different heights And supplying a pulverized mixture of coal and stone mixed in the supply part 200 to the upper surface of the body 100 having a predetermined inclination angle, the vibrating part having the body 100 in the vibrating part, For example, coal and stone move along the guide unit 300 by vibration and are separated and sorted from each other.

3, the body 100 and the supply unit 200 are arranged by supplying the pulverized material to the body 100 from the supply unit 200, so that the body 100 The guide unit 300 is formed and the upper surface of the body 100 and the end of the supply part 200 through which the pulverized material is discharged are formed opposite to each other so that the introduced pulverized material can be supplied to the body 100 So that it is possible to sufficiently receive the force generated by the vibration of the motor.

In detail, when the pulverized material is supplied from the supplying unit 200 to the body 100, the material having a different specific gravity constituting the pulverized material, for example, coal and stone are not separated from each other, . However, when the body 100 is vibrated in a certain direction using the vibrating unit, a substance having a high specific gravity in the pulverized material moves in a higher direction on the guide unit 300, and the substance having a low specific gravity moves in the guide unit 300 To move in a low direction.

That is, the force generated by the vibration of the body 100 is transmitted to the individual pulverized materials, and the materials having different specific gravity constituting the pulverized material, for example, stone and coal move in different directions and are selected.

Accordingly, when the movement direction of the pulverized material supplied to the body 100 from the supply unit 200 is the same as the inclined direction of the body 100, the pulverized material supplied to the body 100 from the supply unit 200 obtains acceleration The distance and time for transmitting the force generated by vibrating the body 100 to the pulverized material are shortened so that the upper surface of the body 100 and the ends of the supply part 200 discharging the pulverized material face each other Recommended.

At this time, lines connecting the upper surface of the body 100 and the longitudinal center axis of the supply unit 200 form an angle of 70 to 110 degrees with respect to each other. That is, the inclined direction B of the body 100 and the inclined direction C of the supply part 200 intersect with each other to form a specific angle, so that the crushed material falling from the supply part 200 meets the body 100 It is possible to stop instantly.

2 and 4, the dry separation apparatus according to the present invention includes a first guide bar (not shown) that is lowered in height from the second section 120 to the fourth section 140 on the right edge of the body 100, (150) may be formed.

5, the powder introduced into the body 100 from the supply part 200 may have a specific gravity of a relatively high specific gravity due to the vibration of the body 100, 4, the material having a high specific gravity is transferred to the first section 110 or the second section 110 through the guide unit 300, 3 section 130 and then discharged to the first discharge part 111 formed on the left side, and the low specific gravity material is located on the upper side of the high specific gravity material and moves to the fourth section.

In this case, since a large amount of pulverized material flows into the body 100 from the supply unit 200, the pulverized material placed in the body 100 is discharged by the force of the pulverized material, For example, coal and stone can not be sorted and can be pushed around. Therefore, the first guide bar 150 is formed on the right edge of the body 100 to restrict the pulverized material from being pushed out by the new pulverized material flowing in the unchecked state to be discharged to the outside.

The first guide bar 150 is located at the right edge of the body 100 so that the pulverized material moves from the second section 120 to the fourth section 140 and the residual stone mixed with the coal is conveyed to the guide unit 140. [ The height of the second section 120 may be lowered from the second section 120 to the fourth section 140 as shown in FIG. 2, Coal can be made to have a size.

In detail, when the pulverized material flows into the second section 120 through the feeder 200, the pulverized material pushed to the right edge of the second section 120 is mixed with the coal and the stone, The stone included in the pulverized material is removed by the guide unit 300 toward the fourth section. At this time, if the height of the first guide bar 150 is set to be lower toward the second discharge part 112, the coal having an excessively large particle size is moved to the right side of the body 100 through the first guide bar 150 So that the size of the coal discharged to the second discharge portion 112 becomes uniform.

6, the guide unit 300 includes a plurality of first guide units 310 formed on the front left side of the body 100 and a plurality of second guide units 310 formed on the right side of the first guide unit 310 A plurality of second guide units 320 in which a left end facing the right end of the first guide unit 310 is bent in the leftward direction and a second guide unit 320 in which the first guide unit 310 and the second guide unit 320 And a plurality of third guide units 330 formed on the rear side of the first guide unit 330.

Referring to FIG. 7, when the pulverized material flows into the second section 120 from the feeder 200, the material having a high specific gravity has a conveyance path similar to that of the material D, and the material having a low specific gravity has a conveyance Path.

At this time, when the coal having a small specific gravity is pressed between the stones having a large specific gravity, coal which has not been separated can be discharged to the first discharge portion 111 together with the stone. Therefore, the first guide unit 310 and the second guide unit 320 are formed in the pulverized water inlet section in which the pulverized product is not completely separated from the coal and the stones, and the second guide unit 320, Thereby forming a spacing space between the first guide unit 310 and the second guide unit 320 in which coal mixed between the stones can be separated and discharged.

The first guide unit 310 and the second guide unit 320 are spaced apart from each other so that when a large amount of stones and coal are introduced into the supply unit 200, 4 can be separated from the guide unit 300 located on one side of the guide unit 300 located on the first and third sections of the guide unit 300 without moving to the other side of the guide unit 300, to be.

8, the dry separation apparatus of the present invention includes a second guide bar 160 extending from the first section 110 to the third section 130 at the left edge of the body 100 .

In detail, when the pulverized material flows into the second section 120, the stone is lowered by the vibration and the coal is moved up to the upper side of the stone. At the same time, the stone is guided by the guide unit 300 to the first section 110 and the third section 130. [ At this time, when the separated stones are quickly sorted by the first discharge portion 111, the support layer formed by the aggregation of the stones supporting the coal in the second section 120 is lowered or disappears, and the coal and stones are separated And the efficiency of the mobile selection process drops.

7 is guided by the second guide bar 160 so that the stone is not directly discharged to the adjacent first discharge portion 111 through the guide unit 300 8 by moving the second guide bar 160 along the movement path F of the stone shown in FIG. 8 so that the stones are positioned over the first section 110 and the second section 120 by a predetermined amount or more, Thereby forming upper and lower boundary layers.

It is recommended that the second guide bar 160 is formed to be adjustable in the longitudinal direction. 9 (a), a length control unit 161 is provided at the left edge of the body 100 to allow the sliding guide 162 to extend in the longitudinal and longitudinal directions, and the body 100 The groove 101 corresponding to the fixing pin 163 formed in the vertical direction is formed on the moving path of the fixing pin 163 in the sliding guide 162 so that the sliding guide 162 can be controlled lengthwise 9 (b), the fixing pin 163 is fitted into the groove 101 after the unit 161 is pulled in or drawn out from the unit 161, A method in which a plurality of grooves 101 are formed and a fixing pin 163 corresponding to the groove 101 is formed in the sliding guide 162 and then the sliding guide 162 is moved and fixed, A plurality of sliding guides 162 are installed on the body 100, The length of the second guide bar 160 is adjusted by using various methods such as a method of adjusting the size of the stones discharged to the first emitting portion 111. [

 In addition, in the present invention, the body 100 may have a blocking portion 170 formed on the first section 110.

10, when the crushed material is separated, the stone having the largest specific gravity among the separated stones is moved from the second section 120 to the first section 110, and the edge of the first section 110 So that the user can stay.

Therefore, both sides of the blocking portion 170 having the mesh shape are positioned at two diagonal sides of the body 100 positioned in the first section 110, and the first section 110 and the fourth section 140 Is positioned so that the stones are prevented from staying at the edge of the first section 110. [

In addition, it is recommended that the plurality of holes 180 are formed in the vertical direction on the body 100, and the air is blown from the lower side to the upper side of the holes 180.

Referring to FIG. 11, in detail, since many fine impurities such as sand and dust are attached to the pulverized product, impurities are accumulated in the pulverized product during the screening operation, and the ability to sort the pulverized product is lowered . Accordingly, the holes 180 are formed in the body 100, and the air is continuously blown through the holes 180 to allow the impurities to be discharged to the outside.

At this time, the air discharged from the lower side to the upper side through the holes 180 not only assists the separation and movement of the pulverized material, but also the strength of the air discharged to the respective sections 110, 120, 130 and 140 The movement of the pulverized material occurring in each section can be finely controlled by controlling the amount.

The body 100 may include a fluid control plate 400 having a plurality of perforations 410 for controlling the air flowing into the respective sections, and may be coupled to a lower surface of the body 100. The lower surface of the fluid control panel 400 may be positioned on the ground, The body 500 may further include a housing 500 formed to correspond to the inclination of the body 100 and assisting the body 100 to be inclined.

In addition, although not shown in the drawing, the present invention may further include a vibration generating device for vibrating the body 100 inside the housing 500, and the vibration generating device may include a vibration generating device, And an eccentric cam that receives power from the motor and rotates to move the vibration transmission shaft within a certain range by the eccentric cam.

In detail, the eccentric cam is rotated by the force transmitted from the motor, and the rotating part performs a repulsive rotation motion in a predetermined designated area by the force transmitted from the eccentric cam of the eccentric cam, So that the vibration transmission shaft vibrates the body 100 in response.

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 invention as defined by the appended claims.

1000: Dry separation device according to the present invention
100: body 110: first section
120: second section 130: third section
140: fourth section 150: first guide bar
160: second guide bar 170:
180: hole
200: supply unit 210: first guide unit
220: second guide unit 230: third guide unit
300: Guide unit

Claims (11)

A body 100 having an upper surface inclined and separated by a first section 110, a second section 120, a third section 130 and a fourth section 140 in the order of height with respect to the ground, ;
A supply part 200 which supplies the pulverized material to the second section 120 and is opposed to the body 100;
A vibration unit for vibrating the body 100; And
And a plurality of guide units (300) sloped on the upper surface of the body (100) for moving and separating the pulverized material,
The guide unit 300 is extended from the front side where the first section 110 of the body 100 is located to the rear side where the third section 130 is located, The second section 120 is formed to be inclined in the right direction in which the second section 120 is located,
Wherein the first guide bar (150) is formed on the right edge of the body (100) to vibrate in the left and right direction and has a height lower from the second section (120) to the fourth section (140) (1000).
delete delete delete The method according to claim 1,
And a second guide bar (160) extending from the first section (110) to the third section (130) is formed on the left edge of the body (100).
6. The method of claim 5,
Wherein the second guide bar (160) is adjustable in length in the anteroposterior direction.
The method according to claim 6,
Wherein the body (100) has a blocking portion (170) formed in the first section (110).
The method according to any one of claims 1 and 5 to 7,
The guide unit 300 includes a plurality of first guide units 210 formed on the front left side of the body 100,
A plurality of second guide units 220 formed on the right side of the first guide unit 210 and having a left end facing the right end of the first guide unit 210 bent in the left direction,
And a plurality of third guide units (230) formed on the rear side of the first guide unit (210) and the second guide unit (220).
The method according to any one of claims 1 and 5 to 7,
Wherein a plurality of holes (180) are formed in the vertical direction of the body (100), and air is blown upward from the lower side of the holes (180).
delete The method according to claim 1,
Characterized in that the vibration of the body (100) uses an eccentric cam.

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