KR101536694B1 - Separator for sorting particulate material - Google Patents

Abstract

More particularly, the present invention relates to a granular material separating apparatus, in which a granular material having a specific gravity is firstly separated by air blowing a particulate material having different specific gravity and specific gravity, To a particulate matter separator for separating large and small particulate matter by separating particulate matter having a small specific gravity from air and discharging the purified air to the outside.
According to an aspect of the present invention, there is provided an air conditioning system comprising a primary separation unit, an air supply unit that supplies air to the primary separation unit, a second separation unit that receives air from the primary separation unit and separates air and particulate matter from the primary separation unit, .

Description

Separator for sorting particulate material

More particularly, the present invention relates to a granular material separating apparatus, in which a granular material having a specific gravity is firstly separated by air blowing a particulate material having different specific gravity and specific gravity, To a particulate matter separator for separating large and small particulate matter by separating particulate matter having a small specific gravity from air and discharging the purified air to the outside.

In general, the particulate matter has a great influence on the human and global environment through various forms and routes, and its importance is gradually increasing with the development of the related industry and the interest in the environment.

Separation of particulate matter plays a fundamental and central role in the study of these particles.

Separation of particulate matter has mainly been carried out through gravity dust collectors, inertial dust collectors, centrifugal force collectors, electric dust collectors, filtration and dust collectors, and washing and collecting devices.

Among them, the centrifugal force collecting device is widely used as a particle control device in the air pollution prevention device and various industrial processes, while the virtual impactor is also widely used as a particle separating device because it can separate and collect particles effectively at a relatively low cost.

Thus, conventionally, a variety of granular separation apparatuses such as Korean Patent Publication Nos. 2006-59407, 2009-82981, and 2013-27261 are proposed.

However, these conventional techniques are often used merely for separating large particles and small particles. In order to separate particles of a specific size, various separation devices are connected in series to form a multistage shape. However, And the separation time of the particles is increased.

SUMMARY OF THE INVENTION The present invention has been conceived in order to solve the above-described problems, and it is an object of the present invention to provide an apparatus and a method for separating large and small particulate matter by an air supply unit for injecting air at high pressure into a first separator, The small particulate matter is discharged to the upper part, and the large particulate matter is moved to the lower part by weight and discharged, thereby separating the particulate matter by size.

Also, since the supply hopper of the first separator is provided with the supply valve so as to supply the particulate material at a predetermined interval, the particulate matter is prevented from being supplied to the primary separator at a time, so that the particulate matter can be easily separated It has its purpose.

It is an object of the present invention to prevent a large particulate matter from passing through by providing a filtering net through which small particulate matter can pass through the moving hole of the primary separator.

It is another object of the present invention to provide an air injection port for injecting air at high pressure into a sieve mesh provided inside the primary separation portion, thereby preventing the sieve mesh from being clogged by foreign matter or the like.

Further, by further including the secondary separator, the particulate matter separated from the primary separator is supplied to separate the particulate matter and the air, and the purified clean air is discharged to the outside, thereby preventing air pollution .

It is also an object of the present invention to provide a cyclone between the primary separator and the secondary separator so that the particulate matter can be separated from the particulate matter by a third order.

According to an aspect of the present invention, there is provided an air purifier including a first separator, an air supplier for supplying air to the first separator, a second separator for separating air and particulate matter from the air supplied from the first separator, .

The primary separator includes a first body having a supply port formed at a side thereof, a discharge port formed at a lower end thereof, a moving hole formed at an upper portion thereof, and a supply hopper coupled to a supply port of the first body .

Further, the supply port of the first body is provided with a supply valve.

In addition, the moving hole formed in the upper portion of the first body is further provided with a filtering net.

The upper end of the first body may further include a first air injection port for injecting air as a sieve.

The air supply unit may include an air supply pipe installed at a lower portion of the first body of the primary separation unit, and an air supply fan connected to the air supply pipe.

In addition, the secondary separator may include a second body having a supply port for receiving air from the moving hole of the primary separator, eccentrically formed therein, a discharge port formed at a lower portion thereof and an air outlet formed at an upper portion thereof, And the other side portion is provided with a moving pipe bound to the moving hole of the first body.

Here, the air outlet is further provided with a filter.

Further, a second air jet opening is provided on the inner side of the first body to jet air through the filter.

A cyclone is further provided between the primary separation unit and the secondary separation unit.

According to the present invention thus configured, an air supply unit for injecting air at a high pressure into the first separator to which large and small particulate matter is supplied is provided, and the particulate matter is discharged to the upper part by the pressure of air supplied to the inside of the primary separator, The granular material is moved to the bottom by the weight and discharged, so that the granular material can be separated by size.

In addition, since the supply hopper of the first separator is provided with the supply valve to supply the particulate material at a predetermined interval, it is possible to prevent the particulate matter from being supplied to the primary separator at a time, It is effective.

In addition, since the feed hole of the primary separator is provided with a filtering net so that the small particulate matter can pass through, it is possible to prevent the large particulate matter from passing through.

Further, by providing the air injection port for injecting air at a high pressure in a sieve mesh provided inside the primary separation portion, there is an effect that the sieve mesh can be prevented from being clogged by foreign matter or the like.

By further including the secondary separator, the effect of supplying the small particulate matter separated by the primary separator to separate the particulate matter and the air and discharging the purified clean air to the outside to prevent contamination of the air have.

Further, by providing a cyclone between the primary separator and the secondary separator, it is possible to separate the particulate matter from the particulate matter through the tertiary.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a view showing a granular material separation apparatus according to the present invention. FIG.
2 is a view showing a working relationship of the granular material separation apparatus according to the present invention.
3 is a view showing another embodiment of the granular material separation apparatus according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a particulate matter separation apparatus according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a view showing a granular material separation apparatus according to the present invention.

As shown in FIG. 1, the granular material separating apparatus 100 according to the present invention includes a primary separating unit 110 that receives granular materials and primarily separates the granular materials, And a secondary separator 310 for separating air and small particulate matter separated from the primary separator 110. The air separator 310 separates air and air.

The primary separator 110 has a supply hole 114 formed at an upper portion of the primary separator 110 at an upper portion thereof and a discharge hole 116 formed at an upper portion of the primary separator 110 so as to be inclined at one side thereof. The first body 112 is formed.

A collecting member 120 such as a collecting bag collecting the particulate matter discharged through the discharge port 116 is provided in the discharge port 116 formed in the lower part of the first body 112.

Further, a feed hopper 130 for supplying a particulate material is provided in the feed port 114 formed on the side of the first body 112.

The supply port 114 of the first body 112 is provided with a supply valve 140 for supplying the particulate matter supplied from the supply hopper 130 to the inside of the first body 112 at regular intervals.

Therefore, the particulate matter injected into the supply hopper 130 is supplied to the inside of the first body 112 by a predetermined amount of the particulate matter at regular intervals under the control of the supply valve 140 provided in the supply port 114 .

In addition, the upper part of the first body 112, that is, the moving hole 118, is provided with a sieve 150 for passing only a small sized granular material.

The upper portion of the first body 112, that is, the upper portion where the sieve 150 is installed, is provided with a first air jet opening 152 for injecting high pressure air into the sieve 150.

Therefore, a phenomenon that foreign matter sticks to the sieve 150 or clogging of the sieve 150 is prevented by the air injected from the first air injection opening 152.

The air supply unit 210 includes an air supply pipe 212 communicating with the inside of the lower portion of the first body 112 and an air supply fan 214 connected to the air supply pipe 212 to supply air, Respectively.

The particulate matter having a specific gravity due to the pressure of the air injected from the inner lower portion of the first body 112 through the air supply pipe 212 by the air supply fan 214 flows through the moving hole 118, and the particulate matter having a specific gravity falls to the bottom and is discharged to the discharge port 116.

The secondary separator 310 has a supply port 314 formed eccentrically to one side of the side portion and a discharge port 316 formed at a lower portion thereof and a second body 314 formed at an upper portion thereof with an air discharge hole 318 312 are provided.

One side of the second body 312 is connected to a supply port 314 of the second body 312 and the other side of the second body 312 is connected to the moving hole 118 of the first body 112.

Accordingly, the small particles separated from the first body 112 are supplied to the second body 312 through the moving pipe 160 together with the air, and the air and the particulate matter supplied to the second body 312 The air is discharged to the upper portion through the air discharge hole 318 and the particulate matter is discharged through the lower discharge hole 316 by the vortex phenomenon.

At this time, a collecting member 320 for collecting the particulate matter discharged through the discharge port 316 is provided below the second body 312.

Further, the air exhaust hole 318 of the second body 312 is provided with a filter 330 for filtering foreign matter from the air,

In addition, a second air injection port 340 is provided at an upper portion of the second body 312, that is, at an upper portion where the filter 330 is installed.

Therefore, it is possible to prevent the foreign matter from sticking to the filter 330 due to the jetting force of the air injected from the second air binding portion 340.

The operation of the granular material separator according to the present invention will now be described.

FIG. 2 is a view showing a working relationship of the granular material separating apparatus according to the present invention.

The granular material separating apparatus 100 according to the present invention first operates the air supply fan 214 of the air supply unit 210 to inject air to the inside of the first body 112, The air is supplied in such a manner that the air is injected from the lower portion of the first body 112 to the upper portion.

The particulate matter injected into the supply hopper 130 under the condition that air is injected into the first body 112 is supplied to the first body 112 through the supply port 114 under the control of the supply valve 140 The particulate matter having a specific gravity is blown up by the air supplied by the air supply unit 210 when the particulate matter is supplied to the inside of the first body 112, And is discharged through the moving hole 118.

The particulate matter having a large specific gravity of the particulate matter supplied to the inside of the first body 112 falls to the bottom of the first body 112 and is discharged through the discharge port 116 and collected in the collecting member 120 .

The small particulate matter is blown by the supplied air to the upper moving hole 118 according to the size of the particulate matter supplied through the supply hopper 130 by the jetting force of the air injected to the inside of the first body 112, And the other particulate matter is separated by the air supplied to each other in such a manner that the large particulate matter is discharged through the discharge port 116 without falling off the air due to a large specific gravity.

At this time, the small particulate matter discharged to the upper moving hole 118 of the first body 112 is discharged through the sieve 150 and the particulate matter larger than the particles of the sieve 150 is discharged to the sieve 150 .

When the particulate matter is trapped in the sieve 150 or adsorbed to the sieve 150 in the process of passing through the sieve 150, the air is guided to the sieve 150 through the air injection opening 152 It is possible to remove the foreign matter adsorbed on the screen 150 by spraying.

Particulate particulate matter discharged through the moving hole 118 of the first body 112 is supplied to the inside of the second body 312 through the moving tube 160.

At this time, the small granular material and air are supplied to the second body 312 through the supply pipe 314 of the second body 312 eccentrically provided through the moving pipe 160, The particulate matter moves downward and is discharged to the outside and is collected by the collecting member 320 and the air is discharged through the upper air discharge hole 318 do.

When the air is discharged through the air discharge hole 318 separated from the second body 312, the air passes through the filter 330, and when the air passes through the filter 330, Foreign matter such as dust is filtered.

At this time, dust or the like, which is filtered by the filter 330, is removed by the jetting force of the air injected from the second air injection port 340.

As described above, the granular material separating apparatus 100 according to the present invention separates the granular materials primarily and largely by the jetting force of air supplied from the air supplying unit 210 in the primary separating unit 110, , The small particulate matter firstly separated from the second separator 310 moves to the second separator 310 so that air and small particulate matter are separated from the second body 312.

3 is a view showing another embodiment of the granular material separation apparatus according to the present invention.

The granular material separating apparatus 100 according to the present invention is installed between the primary separating unit 110 and the secondary separating unit 310 and includes a cyclone 410 at a predetermined position of the moving pipe 160, Respectively.

At this time, one side of the moving pipe 160 is connected to the cyclone 410 eccentrically to the side, and the other side is installed to the cyclone 410 to be fixedly coupled to the upper side.

The particulate matter and air initially separated from the first body 112 of the primary separation unit 110 are supplied to the cyclone 410 and the small particulate matter and air supplied to the cyclone 410 The particulate matter having a specific gravity falls to the bottom due to the vortex phenomenon, and the particulate matter and air having a specific gravity are supplied to the secondary separation unit 310 to separate the particulate matter and air from the secondary separation unit 310, And the separated particulate matter is discharged to the bottom and collected in the collecting member 320. [

The working relationship of the granular material separating apparatus according to the present invention constituted as described above is achieved by the same method as in the former, and a description of the working relationship is omitted here.

However, since the cyclone 410 is further provided between the primary separator 110 and the secondary separator 310, it is possible to separate the particulate materials having different sizes and different weights from each other.

Although the preferred embodiments of the granular material separator according to the present invention have been described above, the present invention is not limited thereto, and various modifications may be made within the scope of the claims, the detailed description of the invention, and the accompanying drawings. And is also within the scope of the present invention.

100: a pressurized-material separating apparatus 110: a primary separating unit
112: first body 114: supply port
116: outlet 118: moving ball
120: collecting member 130: supply hopper
140: supply valve 150:
152: first air jet opening 160: moving pipe
210: air supply unit 212: air supply pipe
214: air supply fan 310: secondary separation unit
312: second body 314:
316: Outlet 318: Air vent
320: collecting member 330: filter
340: second air jet opening 410: cyclone

Claims (10)

A primary separator,
An air supply unit for supplying air to the primary separation unit,
And a second separator for receiving air from the first separator and separating the air and the particulate matter,
The primary separator includes a first body having a supply port formed at a side thereof, a discharge port formed at a lower end thereof, and a moving hole formed at an upper portion thereof,
Wherein a feed hopper is coupled to the feed port of the first body.
delete The method according to claim 1,
Wherein the supply port of the first body is provided with a supply valve. The method according to claim 1,
Wherein the moving body formed on the upper portion of the first body further comprises a filtering net. 5. The method of claim 4,
Further comprising a first air ejecting opening for ejecting air by a filtering net at an upper end of the first body. The method according to claim 1,
Wherein the air supply unit includes an air supply pipe installed at a lower portion of the first body of the primary separation unit,
And an air supply fan connected to the air supply pipe. The method according to claim 1,
The secondary separator includes a second body having a supply port for receiving air from the moving hole of the primary separator, eccentrically formed therein, a discharge port formed at a lower portion thereof, and an air discharge port formed at an upper portion thereof,
Wherein one side of the second body is connected to a supply port of the second body, and the other side of the second body is connected to a moving hole of the first body. 8. The method of claim 7,
Wherein the air outlet is further provided with a filter. 9. The method of claim 8,
Further comprising a second air ejecting opening for ejecting air from the filter to the inside of the first body. The method according to claim 1,
And a cyclone is further provided between the primary separation unit and the secondary separation unit.

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