KR101856571B1 - Dry weight separation apparatus using eccentric rotary motion and method thereof - Google Patents

Abstract

The present invention relates to a dry gravity sorting device using an eccentric rotation motion and a method for the same. According to the present invention, the dry gravity sorting device using the eccentric rotation motion eccentrically rotates a dish-shaped low specific gravity body sorting plate while supplying a raw material [high specific gravity body (gangue, glass, ferromanganese) and low specific gravity body (clean coal, plastic, and stone)] onto the dish-shaped low specific gravity body sorting plate. Also, the dry gravity sorting device using the eccentric rotation motion discharges the low specific gravity body through a low specific gravity body discharge pipe installed at the center of the low specific gravity body sorting plate by enabling the low specific gravity body to flow down along an inclined surface while raising the low specific gravity body by blowing wind by being formed for the wind to blow in the lower part of the low specific gravity body sorting plate. Also, the gravity sorting device using the eccentric rotation motion can separate the low specific gravity body and the high specific gravity body by discharging the low specific gravity body sorting plate to the outside by the eccentric rotation motion. According to the present invention, the gravity sorting device using the eccentric rotation motion comprises: the low specific gravity body sorting plate formed in the dish shape to accommodate the supplied raw material (including the high specific gravity body and the low specific gravity body) in the upper part and having a structure eccentrically rotating, wherein multiple first through holes through which the wind passes from the lower part to the upper part are formed in the low specific gravity body sorting plate, and the low specific gravity body discharge pipe from which the low specific gravity body is discharged is arranged at the center; a raw material supply unit supplying the raw material from the upper part of the low specific gravity body sorting plate; an eccentric rotation force generating unit transmitting an eccentric rotation force to the low specific gravity body sorting plate; a blower fan blowing the wind to the lower part of the low specific gravity body sorting plate; and a low specific gravity body collecting unit collecting the low specific gravity body discharged from the low specific gravity body discharge pipe.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an apparatus and a method for selecting dry specific gravity using eccentric rotational motion,

In particular, the present invention relates to an apparatus and a method for selecting a dry specific gravity using an eccentric rotational motion, and more particularly, , Stone, etc.), while rotating the eccentric rotation of the low specific gravity sorting plate and blowing it to the lower portion of the low specific gravity sorting plate, thereby causing the low specific gravity body to rise and descend along the inclined surface, And the high specific gravity is discharged out of the low specific gravity discriminating plate by the eccentric rotary motion to separate the low specific gravity and the high specific gravity from each other. And methods.

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.

The run of mine coal, which is the coal from the coal bed, contains a large amount of coal minerals, a small amount of ash and a gangue that is a destructive stone of the rock. At this time, if the gangue is contained in the normal coal, the amount of heat is reduced and harmful gas (SOx) is generated in the combustion process of the normal coal. In particular, the alkali components (K ₂ O, Na ₂ O) contained in mica, chlorite, and clay in the gangue lower the melting point of ash during the combustion process and cause slagging or fouling in the boiler of the thermal power plant. Causing the life of the boiler to shorten. Therefore, it has been attempted to develop a technique for removing gangue mixed with raw coal by physical methods in order to improve the combustion efficiency and extend the life of the boiler.

As a conventional sifting and sorting apparatus, for example, Korean Patent Registration No. 1010940 discloses a sifter main body having a receiving portion formed therein to receive low-grade coal and water having ash content of a predetermined level or higher together, A plurality of friction balls for crushing the coal through collision with and friction with coal, and a stirrer for rotatably installed on the crusher main body and stirring the coal and the friction balls so that they collide with and friction with each other; And a screen installed on the receiving portion of the abrasive grinder and having a plurality of through holes capable of passing only particles of a predetermined size or less; And a catcher supplying device for supplying a catcher for hydrophilizing the pulverized coal particles to the receiving portion so that the pulverized coal particles in the abrasive pulverizer can float above the receiving portion, Device is presented.

However, such a conventional coal sorting apparatus requires a post-treatment process for dehydrating and drying the fine particles in order to separate the raw coal particles into fine particles and gangue particles, thereby complicating the structure and increasing the manufacturing cost .

Korean Patent Registration No. 1010940 Korean Patent Registration No. 1295154

SUMMARY OF THE INVENTION Accordingly, the present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide an apparatus and a method for manufacturing the same, which are capable of accurately separating raw materials into low specific gravity and high specific gravity using eccentric rotation, And a method of selecting a specific gravity of a specific gravity using an eccentric rotational motion.

In order to achieve the above object, a dry type specific gravity separator using eccentric rotational motion according to an embodiment of the present invention is formed in a dish shape to receive a raw material (including a high specific gravity body and a low specific gravity type) A low specific gravity sorting plate having a plurality of first through holes through which wind is passed from a lower portion to an upper portion and a low specific gravity discharging pipe through which a low specific gravity discharging member is disposed; A raw material supply unit configured to supply a raw material at an upper portion of the low specific gravity sorting plate; An eccentric rotational force generating unit configured to transmit an eccentric rotational force to the low specific gravity sorting plate; A blower fan configured to blow air to a lower portion of the low specific gravity sorter plate; And a low specific gravity collecting unit configured to collect low specific gravity discharged from the low specific gravity discharging pipe.

In the dry specific gravity separator using the eccentric rotational motion according to the above-described embodiment, in order to divide the air blown by the blowing fan into a uniform size and supply the air to the lower portion of the low specific gravity sorting plate, An open air partitioning plate may be disposed between the blowing fan and the low specific gravity separating plate.

In the dry specific gravity separator using the eccentric rotational motion according to the above-described embodiment, in order to collect the high gravity particles discharged by the eccentric rotational motion around the low gravity particle discriminating plate, The high-boiling-point collecting unit may be disposed at a position spaced apart by a predetermined interval.

In the dry specific gravity separator using the eccentric rotational motion according to the above embodiment, the diameter of the first through-hole may be smaller than the diameter of the second through-hole.

In the dry specific gravity separator using the eccentric rotational motion according to the above-described embodiment, a plurality of disturbing jaws may be formed radially in the inner upper portion of the low specific gravity discriminating plate to prevent the low specific gravity body from being discharged to the outside .

In the dry specific gravity separator using the eccentric rotational motion according to the above-described embodiment, one engaging groove is formed in a lower portion of the low specific gravity separator plate at a position spaced apart from the low specific gravity discharge pipe by a predetermined distance in the radial direction ; The eccentric rotational force generating portion includes a first shaft having an upper portion fitted to the engaging groove, a second shaft eccentric to the first shaft, an eccentric bearing connecting the first and second shafts, a driving shaft orthogonal to the second shaft, And a bevel gear for transmitting the power of the motor to the second shaft.

In the dry specific gravity separator using the eccentric rotational motion according to the above embodiment, the engaging piece is formed to protrude from the side surface of the end portion of the first shaft, and the engaging groove may be formed in the engaging groove at the position facing the engaging piece .

In the dry gravitational screening apparatus using the eccentric rotational motion according to the above-described embodiment, the low specific gravity body may be a pure coal, and the high gravity body may be a gangue.

In the dry specific gravity sorter using the eccentric rotational motion according to the above embodiment, the low specific gravity body may be plastic, and the high gravity body may be glass.

In the dry specific gravity separator using eccentric rotational motion according to the above embodiment, the low specific gravity body may be a stone, and the high gravity body may be ferromanganese.

According to another aspect of the present invention, there is provided a method of selecting dry specific gravity using eccentric rotational motion, comprising the steps of: inputting raw materials from a raw material supply section to a low specific gravity discriminating plate; Eccentrically rotating the low specific gravity sorting plate by the operation of the eccentric rotational force generating unit to push the raw material in the outer circumferential direction; The blowing fan is driven to blow air to the lower portion of the low specific gravity sorting plate, and as a result, the low specific gravity body is raised by the wind blowing through the first through hole and flows down along the inclined surface to be discharged through the low specific gravity discharge pipe, A step of discharging the solid body out of the low specific gravity sorting plate by the eccentric rotation; And collecting the low specific gravity material discharged through the low specific gravity discharge pipe into the low specific gravity collection unit.

In the dry specific gravity selecting method using the eccentric rotational motion according to the another embodiment, in order to divide the air blown by the blowing fan into a uniform size and supply the divided air to the lower portion of the low specific gravity sorting plate, An open air partitioning plate may be disposed between the blowing fan and the low specific gravity separating plate.

In the dry specific gravity screening method using the eccentric rotational motion according to the other embodiment, in order to collect the high gravity body discharged by the eccentric rotational motion around the low gravity screen separating plate, The high-boiling-point collecting unit may be disposed at a position spaced apart by a predetermined interval.

In the dry specific gravity selecting method using the eccentric rotational motion according to the another embodiment, the diameter of the first through-hole may be smaller than the diameter of the second through-hole.

In the dry specific gravity selecting method using the eccentric rotational motion according to the other embodiment, a plurality of radial disturbing jaws may be formed in the inner upper portion of the low specific gravity discriminating plate to prevent the low specific gravity body from being discharged to the outside .

In the dry specific gravity screening method using the eccentric rotational motion according to the above other embodiment, the engaging grooves are formed in the lower portion of the low specific gravity discriminating plate at a position spaced apart from the low specific gravity discharging pipe by a predetermined distance in the radial direction ; The eccentric rotational force generating portion includes a first shaft having an upper portion fitted to the engaging groove, a second shaft eccentric to the first shaft, an eccentric bearing connecting the first and second shafts, a driving shaft orthogonal to the second shaft, And a bevel gear for transmitting the power of the motor to the second shaft.

In the dry specific gravity screening method using the eccentric rotational motion according to the another embodiment, a meshing piece is formed to protrude from the side surface of the end portion of the first shaft, and the engaging groove may be formed in the engaging groove at a position facing the engaging piece .

In the dry specific gravity selecting method using the eccentric rotational motion according to the another embodiment, the low specific gravity body may be a pure coal, and the high gravity body may be a gangue.

In the dry specific gravity screening method using the eccentric rotational motion according to the another embodiment, the low specific gravity body may be plastic, and the high gravity body may be glass.

In the dry specific gravity screening method using the eccentric rotational motion according to the another embodiment, the low specific gravity body may be a stone, and the high gravity body may be ferromanganese.

According to the apparatus and method for selecting dry specific gravity using the eccentric rotational motion according to the embodiment of the present invention, the raw material is introduced into the low specific gravity discriminating plate from the raw material supplying portion, and the low specific gravity discriminating plate is rotated by the eccentric rotational force generating portion, The raw material is pushed in the outer circumferential direction, the blowing fan is driven to blow air to the lower portion of the low specific gravity sorting plate, and the low specific gravity is raised by the wind blowing through the first through hole and flows down along the slope The high specific gravity body is discharged through the low specific gravity discharging tube while the high specific gravity body is discharged out of the low specific gravity separating plate by the eccentric rotational movement and the low specific gravity discharged through the low specific gravity discharging tube is collected in the low specific gravity collecting portion , The raw material to be supplied is accurately separated into a low specific weight and a high specific weight by using eccentric rotational motion There is an excellent effect that the overall construction is simple and the manufacturing cost can be lowered.

Fig. 1 is a perspective view showing the entire construction of a dry specific gravity discriminating device using eccentric rotational motion according to an embodiment of the present invention.
2 is a schematic vertical cross-sectional view of the dry specific gravity sorter of FIG.
3 is a bottom view of the low specific gravity sorter plate of FIG.
FIG. 4 is a schematic view showing a process of separating a low specific gravity body and a high specific gravity body separately from the low specific gravity sorting board of FIG. 1; FIG.
5 is a flow chart showing a method of selecting a dry specific gravity using an apparatus for discriminating dry grains using eccentric rotational motion according to an embodiment of the present invention.

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

Fig. 1 is a perspective view showing the entire construction of a dry specific gravity discriminating device using eccentric rotational motion according to an embodiment of the present invention, Fig. 2 is a schematic vertical sectional view of the dry specific gravity discriminating device of Fig. 1, FIG. 3 is a bottom view of a low specific gravity sorting plate of FIG.

The dry specific gravity discriminating device using the eccentric rotational motion according to the embodiment of the present invention includes a low specific gravity discriminating plate 200, a raw material supplying portion 100, an eccentric rotational force generating portion, an air partitioning plate 300, a blowing fan 400, A low specific gravity collecting unit 600, and a high specific gravity collecting unit 700.

The low specific gravity sorting plate 200 is configured to accommodate the raw materials (including the heavy grains (gangue, glass, ferromanganese, etc.) and the low specific gravity (That is, the low specific gravity sorting plate 200 is spaced apart from the low specific gravity discharging pipe 220 by a predetermined distance in the radial direction) at a lower portion of the low specific gravity sorting plate 200 A first shaft 270a of an eccentric rotational force generating portion described later is fitted into the engaging groove 280), and a first through hole 230 and a low specific gravity discharge pipe 220 is disposed at the center for discharging the low specific gravity body to the bottom. The low specific gravity discharge pipe 220 is connected to the low specific gravity collection unit 600 through the low specific gravity discharge path 600a. One end of the low specific gravity discharge path 600a has a funnel shape so that the low specific gravity can be prevented from escaping to the outside. A plurality of interference jaws 210 are radially provided on the inner upper side of the low specific gravity sorting plate 200 to prevent the low specific gravity body from being discharged to the outside along the upper surface of the low specific gravity sorting plate 200, So that the body moves around the obstruction jaw 210.

The raw material supply unit 100 is configured to supply the raw material to one side of the upper portion of the low specific gravity sorting plate 200. The raw material supply unit 100 may have a structure inclined toward the low specific gravity sorting plate 200 while generating vibration to smooth supply of the raw material.

The eccentric rotational force generating portion serves to transmit the eccentric rotational force to the low specific gravity sorting plate 200 and includes, for example, a first shaft 270a having an upper portion fitted into the engaging groove 280 of the low specific gravity sorting plate 200, A second shaft 270b eccentric to the first shaft 270a and an eccentric bearing 270 connecting the first and second shafts 270a and 270b and a drive shaft 250a orthogonal to the second shaft 270b And a bevel gear 260 for transmitting the power of the motor 250 and the motor 250 to the second shaft 270b.

The engaging piece 270a is protruded from the end surface of the first shaft 270a and the engaging groove 280a is formed in the engaging groove 280 of the low specific gravity discriminating plate 200 at a position facing the engaging piece 270a. So that the fastening force is increased.

The air dividing plate 300 serves to divide the air blown by the blowing fan 400 into a uniform size and supply the divided air to below the low specific gravity sorting plate 200. The air divider plate 300 has a plurality of second through holes 310 having a uniform diameter and is disposed between the blower fan 400 and the low specific gravity separator plate 200. The second through hole 310 of the air divider plate 300 is larger in diameter than the first through hole 230 so that the air supplied from the blowing fan 400 can smoothly pass through.

The air blowing fan 400 blows air to the lower portion of the low specific gravity sorting plate 200 through the air dividing plate 300. A power supply structure for supplying power to the air blowing fan 400 and a structure for housing the air blowing fan 400 are omitted.

The low specific gravity collecting unit 600 collects and stores the low specific gravity discharged from the low specific gravity discharging pipe 220 through the low specific gravity discharging passage 600a.

The high specific gravity collecting unit 700 collects the high specific gravity collected by the low specific gravity sorting plate 200 around the low specific gravity sorting plate 200, Position.

The operation of the low specific gravity separator using the eccentric rotary motion according to the embodiment of the present invention will be described with reference to the drawings.

FIG. 4 is a schematic conceptual view illustrating a process of separating a low specific gravity body and a high specific gravity body separately from the low specific gravity sorting board of FIG. 1. FIG. A flow chart showing a dry specific gravity selecting method using a device, wherein S means step.

First, the raw material is charged into the upper side of the low specific gravity sorting plate 200 from the raw material supplying unit 100, and the raw materials are accumulated on the low specific gravity sorting plate 200 (S10).

Then, the low specific gravity discriminating plate 200 is eccentrically rotated (S20) by the operation of the eccentric rotational force generating portion, whereby the low specific gravity body and the high gravity body constituting the raw material are subjected to eccentric rotation And is pushed toward the outer circumferential direction.

At this time, by blowing air to the lower portion of the low specific gravity sorting plate 200 by driving the blowing fan 400 (S30), the air is blown through the second through holes 310 and the first through holes 230 And then flows down along the slope of the low specific gravity sorting plate 200 to be discharged through the low specific gravity discharging pipe 220 installed at the center of the low specific gravity sorting plate 200. On the other hand, The sieve is discharged out of the low specific gravity sorting plate 200 by the eccentric rotational movement of the low specific gravity sorting plate 200 as described above. As a result, the low specific gravity and the high gravity are separated from each other, and the low gravity grading process is completed.

Then, the low specific gravity discharged through the low specific gravity discharging pipe 220 is collected by the low specific gravity collecting unit 600 through the low specific gravity discharging path 600a (S40).

On the other hand, the high-boiling body discharged to the outside of the low specific gravity sorting plate 200 by eccentric rotation is collected by the high boiling body collecting unit 700. The heavy body collecting unit 700 is not necessarily a necessary component and is optional.

According to the apparatus and method for selecting a dry specific gravity using an eccentric rotational motion according to an embodiment of the present invention, raw materials are fed into a low specific gravity sorting plate from a raw material supplying portion, and the low specific gravity sorting plate is rotated by eccentric rotational force generating means The raw material is pushed in the outer circumferential direction, the blowing fan is driven to blow air to the lower portion of the low specific gravity sorting plate, and the low specific gravity is raised by the wind blowing through the first through hole and flows down along the slope The high specific gravity body is discharged through the low specific gravity discharging tube while the high specific gravity body is discharged out of the low specific gravity separating plate by the eccentric rotational movement and the low specific gravity discharged through the low specific gravity discharging tube is collected in the low specific gravity collecting portion The raw material to be supplied is accurately separated into low specific gravity and high specific gravity using eccentric rotational motion The overall structure is simple and manufacturing cost can be lowered.

Although the best mode has been shown and described in the drawings and specification, certain terminology has been used for the purpose of describing the embodiments of the invention and is not intended to be limiting or to limit the scope of the invention described in the claims. It is not. Therefore, those skilled in the art will appreciate that various modifications and equivalent embodiments may be made without departing from the scope of the present invention. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

100: raw material supplier
200: Low specific gravity sorting plate
210: obstruction jaw
220: low specific gravity discharge pipe
230: First through hole
250: motor
250a:
260: Bevel gear
270: eccentric bearing
270a:
270b:
280: engaging groove
280a: fastening groove
300: air partition plate
310: second through hole
400: blowing fan
600: low specific gravity collector unit
600a: low specific gravity discharge furnace
700: Heavy metal collector unit

Claims (20)

A plurality of first through holes through which air flows from the lower part to the upper part are formed, and a plurality of first through holes, through which the air passes from the lower part to the upper part, are formed, A low specific gravity sorting plate in which a low specific gravity discharge pipe through which a specific gravity is discharged is disposed at the center;
A raw material supply unit configured to supply a raw material at an upper portion of the low specific gravity sorting plate;
An eccentric rotational force generating unit configured to transmit an eccentric rotational force to the low specific gravity sorting plate;
A blower fan configured to blow air to a lower portion of the low specific gravity sorter plate; And
And a low specific gravity collecting part configured to collect low specific gravity discharged from the low specific gravity discharging pipe,
An air partitioning plate having a plurality of second through holes is arranged between the blowing fan and the low specific gravity separator plate so as to divide the air blown by the blowing fan into a uniform size and supply the air to the lower portion of the low specific gravity separator plate And,
Wherein a plurality of disturbing jaws are formed radially in the inner upper portion of the low specific gravity discriminating plate to prevent the low specific gravity body from being discharged to the outside. delete The method according to claim 1,
Wherein the high specific gravity sorting plate is disposed at a position spaced apart from the high specific gravity collecting unit by a predetermined interval around the low specific gravity sorting plate in order to collect high density gravity discharged by eccentric rotation around the low specific gravity sorting plate, Dry weight gravity sorter. The method according to claim 1,
Wherein the diameter of the first through-hole is smaller than the diameter of the second through-hole. delete The method according to claim 1,
And one engaging groove is formed at a lower portion of the low specific gravity discriminating plate at a position spaced apart from the low specific gravity discharging pipe by a predetermined distance in the radial direction;
The eccentric rotational force generating unit
A first shaft having an upper portion fitted in the engaging groove,
A second shaft eccentric to the first shaft,
An eccentric bearing connecting the first and second axes,
A motor in which a drive shaft orthogonal to the second shaft is formed,
And a bevel gear for transmitting the power of the motor to the second shaft. The method according to claim 6,
And an engaging piece protrudes from an end surface of the first shaft,
Wherein the engaging groove is formed with a fastening groove at a position facing the engaging piece. The method according to any one of claims 1, 3, 4, and 6,
The low specific gravity body is a pure carbon,
Wherein the high specific gravity gangue is a gangue gravity gauge. The method according to any one of claims 1, 3, 4, and 6,
The low specific gravity body is plastic,
Wherein said high boiled body is glass. The method according to any one of claims 1, 3, 4, and 6,
The low specific gravity body is a stone,
Wherein the high boiling body is ferromanganese; A dry specific gravity screening method using the dry specific gravity screening apparatus using the eccentric rotational motion according to claim 1,
A step of feeding raw materials from a raw material supply unit to a low specific gravity sorting plate;
Eccentrically rotating the low specific gravity sorting plate by the operation of the eccentric rotational force generating unit to push the raw material in the outer circumferential direction;
The blowing fan is driven to blow air to the lower portion of the low specific gravity sorting plate, and as a result, the low specific gravity body is raised by the wind blowing through the first through hole and flows down along the inclined surface to be discharged through the low specific gravity discharge pipe, A step of discharging the solid body out of the low specific gravity sorting plate by the eccentric rotation; And
And collecting the low specific gravity body discharged through the low specific gravity discharge tube into the low specific gravity collector. 12. The method of claim 11,
An air partitioning plate having a plurality of second through holes is arranged between the blowing fan and the low specific gravity separator plate so as to divide the air blown by the blowing fan into a uniform size and supply the air to the lower portion of the low specific gravity separator plate A method for selecting dry specific gravity using eccentric rotational motion. 12. The method of claim 11,
Wherein the high specific gravity sorting plate is disposed at a position spaced apart from the high specific gravity collecting unit by a predetermined interval around the low specific gravity sorting plate in order to collect high density gravity discharged by eccentric rotation around the low specific gravity sorting plate, Dry weight gravity selection method. 13. The method of claim 12,
Wherein the diameter of the first through-hole is smaller than the diameter of the second through-hole. 12. The method of claim 11,
Wherein a plurality of disturbing jaws are radially formed in an inner upper portion of the low specific gravity discriminating plate to prevent the low specific gravity body from being discharged to the outside. 12. The method of claim 11,
And one engaging groove is formed at a lower portion of the low specific gravity discriminating plate at a position spaced apart from the low specific gravity discharging pipe by a predetermined distance in the radial direction;
The eccentric rotational force generating unit
A first shaft having an upper portion fitted in the engaging groove,
A second shaft eccentric to the first shaft,
An eccentric bearing connecting the first and second axes,
A motor in which a drive shaft orthogonal to the second shaft is formed,
And a bevel gear for transmitting the power of the motor to the second shaft. 17. The method of claim 16,
And an engaging piece protrudes from an end surface of the first shaft,
Wherein the engaging groove is formed with a fastening groove at a position facing the engaging piece. 18. The method according to any one of claims 11 to 17,
The low specific gravity body is a pure carbon,
Wherein said high specific gravity is gangue; 18. The method according to any one of claims 11 to 17,
The low specific gravity body is plastic,
Wherein said high specific gravity is glass. 18. The method according to any one of claims 11 to 17,
The low specific gravity body is a stone,
Wherein the high boiling body is ferromanganese;

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