KR100452857B1 - Apparatus for separating wastes from the scrapped materials in recycling system of waste materials - Google Patents

Abstract

The present invention discloses a waste separation apparatus of a construction waste recycling treatment system. The present invention has a chamber having a blowhole and a waste discharge door on the side wall and an exhaust port on the upper surface, and fixed downwardly inclined toward the inside of the blowhole of the chamber to protrude outward from the sidewall of the chamber and to place the waste inlet at an opposite position of the blowhole. And the aggregate discharge outlet is spaced up and down and has a cylindrical chute having a blower air inlet between the waste inlet and the aggregate discharge zone, and blows the strong wind into the chamber horizontally through the blower air inlet of the chute. A blowing means for scattering waste into the chamber, a screen plate installed in the chamber with a plurality of air holes and positioned above the blowing hole to disperse and slow down the blower air, and to suppress the rise of waste, and the chamber Dust collection water dust to collect dust by spraying dust collection water in the upper Means, mounted on the air outlet of the filter chamber for filtering the dust remaining in the air stream; It is detachably mounted in the interior of the chamber, and includes a waste collection bin for collecting garbage separated from the aggregate by the blower. According to the present invention, it is possible to reliably separate the wastes, while also fundamentally preventing the emission of dust.

Description

Apparatus for separating wastes from the scrapped materials in recycling system of waste materials}

The present invention relates to a construction waste recycling system for classifying and regenerating soil powder, stone powder and aggregate from construction waste, and more particularly, to easily separate unnecessary waste from recyclable materials in construction waste shredded to an appropriate size. In addition, the present invention relates to a waste separation apparatus of a construction waste regeneration treatment system that can reliably prevent dust from leaking into the atmosphere during the waste separation process.

Various concrete structures, such as bridges and apartments, which are created in the process of urbanization and industrialization, are inevitable due to deterioration and deterioration over time, and many construction wastes are inevitable. It is occurring. Moreover, in recent years, the amount of construction wastes is increasing as the reconstruction and redevelopment for the improvement of the residential environment is actively promoted in large cities.

Most of these construction wastes were landfilled, and the construction wastes contain soil, concrete, metal, glass, and various kinds of wastes. Difficulties follow In particular, aggregate, which is a finite resource, is rapidly increasing in demand due to the increase in new construction, whereas it can be consumed unilaterally, leading to lack of aggregates, and further promoting environmental destruction by quarrying / mining for aggregate collection. It became.

Accordingly, in order to protect the natural environment and to efficiently use the shortage of resources, there are active measures to deal with construction waste. Recently, most of construction waste is being recycled.

Figure 1 schematically shows a general process of the construction waste recycling treatment system for this. First, the construction waste is put into the hopper (S1), and then the soil is removed by transferring to the scalping screen by the conveyor (S2). After the soil is removed, the construction waste is first crushed to a suitable size by a jaw crusher (S3), and then the rebar is removed by an electromagnet separator while being transferred to a vibration feeder (S4). Subsequently, only the aggregate having a predetermined particle size (about 25 mm or less) is sorted by the vibrating screen (S5), and then various wastes mixed in the waste aggregate agglomerate are first separated by a specific gravity separation method using a blower (S6).

Next, put the first crushed aggregate lump in the water tank to wash (S7) the cement powder and foreign matters contained in or mixed with it, and dehydrated (S8) by vibrating screen, etc., and then to a smaller size by a cone crusher. Second crushing (S9). Subsequently, after removing the reinforcing bars from the aggregates crushed secondary by the electromagnet separator (S10), only aggregates having a predetermined particle size or less are selected again (S11). Then, the waste mixed in the secondary crushed aggregate is secondarily separated by a blower (S12), and then the aggregate lump is crushed to a smaller size by a cone crusher to be recycled to aggregate having a required particle size or less.

On the other hand, in the construction waste recycling process, a lot of dust is generated due to its characteristics. Particularly, in the process of separating the fugable waste such as waste vinyl or waste paper by the blower, the dust is diffused and released into the atmosphere by the blower. Not only does it pollute the surrounding soil, but it also has serious problems such as damaging the health of workers.

Accordingly, garbage separation devices have been proposed to separate the fugitive waste from the aggregate while preventing the emission of dust to the air.

For example, Korean Patent Publication No. 2003-0036493 discloses a vertical pipe in which aggregate is supplied, a blowing nozzle for blowing light waste strongly mixed with the aggregate injected into the upper portion of the vertical pipe, A dust collector that adsorbs suspended garbage to the dust collector, an air pulse that periodically blows high-pressure air onto the dust collector by the compressor, and drops garbage adsorbed on the dust collector; and a suction nozzle connected to the dust collector A suction type dry garbage separator comprising a blower for circulating air through a blower having a blower, and a conveyor dropping out of the dust collecting bag and discharging the waste discharged by the rotary feeder is proposed.

However, such a waste separator must blow strongly from the lower part to the upper part in order to fully float the waste to the upper part of the vertical pipe, and at the same time, a strong air flow is formed in the flow path because the waste separator has to be sucked strongly for the adsorption of the waste at the outlet of the dust collector. Since fine dust flows into the blower through the dust collector, there is a high possibility that the blower may be broken, and the capacity of the blower is also increased.

In particular, the dust and dust adsorbed on the dust collecting cloth is dropped by the air pulse to be discharged to the conveyor. At this time, the adsorbed dust is scattered, so that the dust is inevitably leaked to some extent. Therefore, it is possible to prevent the dust from being diffused and released into the atmosphere widely, but it is difficult to prevent the pollution around the workplace and the deterioration of the worker's health.

In addition, since the air is not smoothly flown because the garbage is suspended and adsorbed on the dust collector of the dust collector, the air flow is not smoothly performed, and thus, the air pulsator must be discharged from time to time to discharge the adsorbed waste. .

On the other hand, Korean Patent Publication No. 2001-0070839 includes a first spraying device for injecting fine water droplets in front of the blower, and a dust blocking layer made of fine water droplets including a net for blocking and collecting garbage scattered by the blower. Blowing system for shattering dust scattering to form, support column installed at a predetermined height so as to form a blocking layer on the top of the grinder, screen or conveyor, is installed on the top of the support column to spray fine water droplets in 360 ° direction A blowing system for preventing dust scattering is provided, comprising a second spray nozzle and a second spray device including a pump for supplying pressurized water to the second spray nozzle.

By the way, the blower system for scattering dust blocking sprays water around the mesh and around the grinder or conveyor to prevent the dust from being released to the air. However, dust can be prevented from being diffused into the atmosphere. A large amount of moist dust can be attached to the outside of the device as it is, which not only contaminates the system badly, but also easily breaks the system.

In addition, in order to suppress the emission of dust to the atmosphere, a great amount of water must be consumed, and frequent cleaning of the device is required.

The present invention was devised to solve the above-mentioned conventional problems, and it is possible to reliably separate waste such as waste vinyl or waste plastic mixed in construction waste from recyclable aggregates, and to release dust into the atmosphere. It is an object of the present invention to provide a waste separation device of a construction waste recycling treatment system that can be prevented fundamentally.

Another object of the present invention is to provide a waste separation apparatus of a construction waste regeneration treatment system capable of reliably removing dust by a wet collection method with a minimum amount of spray, and excluding contamination by dust.

Still another object of the present invention is to provide a waste separation device of a construction waste recycling system that can reliably block dust from flowing into the blower along the circulation air stream while circulating the blower air stream, and improve the operation efficiency of the device. will be.

1 is a process diagram schematically showing a general construction waste recycling treatment system;

2 is a cross-sectional view schematically showing a waste separation apparatus of the construction waste recycling treatment system according to the present invention;

Figure 3 is a cross-sectional view schematically showing another embodiment of the garbage separation apparatus according to the present invention,

Figure 4 is a cross-sectional view showing another embodiment of the screen plate of the garbage separator according to the present invention,

5 is a cross-sectional view showing another embodiment of the garbage separation apparatus according to the present invention.

<Description of Symbols for Main Parts of Drawings>

10: chamber 13: garbage discharge door

14: exhaust vent 16: garbage collection box

20: chute 21: construction waste inlet

22: aggregate discharge outlet 23: blower air inlet

30: blower 40,42,43,44: screen plate

50: dust collection spray unit 60: air circulation duct

61: damper 70: air filter

W: Garbage A: Recyclable Waste Aggregate

S: vibrating screen C: conveyor

In order to achieve the above objects, the waste separation apparatus of the construction waste recycling system according to the present invention comprises: a chamber having a blower hole and a waste discharge door on a side wall, and an exhaust port on an upper surface thereof; It is fixed inclined downward toward the inside of the blowing hole of the chamber and protrudes outward from the side wall of the chamber, and the construction waste inlet and the aggregate discharge outlet are spaced up and down at opposite positions of the blowing hole, between the construction waste inlet and the aggregate discharge outlet. A cylindrical shoot having a blower air inlet; A blowing means for blowing a predetermined strong wind in the horizontal direction through the blower airflow inlet of the chute to scatter the rubbish in the construction waste moving along the chute into the chamber; A screen plate having a plurality of air holes and installed inside the chamber so as to be located above the air blowing holes to distribute and decelerate the air blowers and to suppress the rise of garbage; A dust collecting water spraying means for collecting dust by spraying the dust collecting water in a fog state from the inside of the chamber; A filter mounted to an exhaust port of the chamber and filtering dust remaining in the air stream; It is detachably mounted in the interior of the chamber, the garbage collection bin for collecting the waste separated from the aggregate by the blower; characterized in that it comprises a.

According to one preferred feature of the present invention, the dust collecting water spraying means, a spray nozzle (pier nozzle) is installed through the wall of the chamber, and the collecting water supply pipe connected to the water tank for supplying the dust collecting water to the spray nozzle and It consists of an air compressor which supplies compressed air of predetermined pressure to a spray nozzle.

According to another preferred feature of the invention, further comprises an air circulation duct connecting the exhaust port of the chamber and the blower air flow inlet of the chute, the blowing means is installed in the air circulation duct to circulate the air flow without discharge to outside Will be fundamentally blocked.

According to this structural feature, the present invention, while it is possible to reliably separate unnecessary waste such as waste vinyl mixed in the construction waste shred to a suitable size from the recyclable aggregate, it is possible to fundamentally prevent the air emissions of dust.

In addition, since dust generated during the separation of the waste is collected and removed by the collected water in the chamber, it is possible to reliably remove the dust with a minimum amount of collected spray water, as well as effectively prevent external contamination of the system by the dust.

In addition, while circulating the blower without discharging it to the outside, the inflow of dust blower is effectively prevented, and the operation efficiency of the device can be improved because the collected garbage does not need to be discharged from time to time.

Therefore, the present invention has a great effect on improving the reliability and safety of the construction waste recycling system waste separation apparatus.

Such specific features and other advantages of the present invention will become more apparent from the following description of the preferred embodiments with reference to the accompanying drawings.

2, the waste separation apparatus of the construction waste recycling system according to the present invention includes a chamber 10 into which the wastes W separated from the construction wastes are introduced, and a side wall 11 of the chamber 10. The chute 20, which is installed to communicate with each other and functions as a transport passage of the construction waste, a blower 30 that blows strong wind toward the chamber 10, and the construction waste being transported along the chute 20, of the chamber 10. Dust collecting water spray unit for spraying the collecting water for dust removal in the screen plate 40 and the chamber 10 to prevent the injury of scattered waste (W) while dispersing and slowing down the blower air ( 50).

Blowing holes 12 through which blower air flows are formed in one side wall 11 of the chamber 10, and in the other side wall 11, waste vinyl or waste plastic separated from the renewable waste aggregate A is formed. A waste discharge door 13 for carrying out the waste W to the outside is installed. An upper portion of the chamber 10 is formed in a conical shape to facilitate the discharge of the blower, and an exhaust port 14 through which the blower is discharged to the outside is formed at the center thereof.

And the exhaust port 14 of the chamber 10 is provided with a wire mesh 15, in order to prevent the waste (W) to rise and escape to the outside.

On the other hand, preferably, the inner bottom of the chamber 10 is separated from the renewable waste aggregate (A) is scattered from the waste collection for easy collection of the waste (W) introduced into the interior of the chamber 10 to be taken out to the outside ( 16) is mounted.

The chute 20 is formed in a cylinder shape and is installed in a blowhole 12 formed in the side wall 11 of the chamber 10 to protrude outward from the side wall 11 of the chamber 10 to recover the construction waste. The outlet end is inclined downward at an appropriate angle toward the inside of the chamber 10 so that construction wastes transferred from the previous process of the treatment system can be transported by their own weight.

Preferably, the outlet end of the chute 20 has a chamber 10 such that the waste W scattered from the renewable waste aggregate A of construction waste can be easily collected into the waste collection box 16 in the chamber 10. The inside of) is entered by the proper length.

The upper end of the chute 20 is provided with a construction waste inlet 21 through which the construction waste shredded to an appropriate size is transferred from the previous process by the vibrating screen S, and the construction waste is inclined on the bottom of the chute 20. Aggregate discharge port 22 for discharging the heavy recycled aggregate (A) to the outside is formed to protrude vertically downward with an appropriate level difference with the construction waste inlet (21).

And between the construction waste inlet 21 and the aggregate discharge port 22 of the chute 20, preferably at the top of the aggregate discharge port 22, light waste (W) from the construction waste that is clouded along the bottom of the chute 20 Blower air flow inlet 23 for blowing the strong wind to the construction waste to separate only the fields are formed horizontally facing the chamber (10).

The blower 30 is installed in the blower airflow inlet 23 of the chute 20, for example, blows a strong wind of 20 to 40 kW toward the inside of the chamber 10.

The screen plate 40 has a plurality of air holes 41 so that the airflow ejected from the blower 30 is decelerated evenly in the interior of the chamber 10 and directed to the exhaust port 14 of the chamber 10. It is provided so that it may be located above the blowing hole 12 in the inside of 10. The size of the air hole 41 is formed to a relatively small size so that even distribution of the blower and scattered waste (W) can not escape.

The screen plate 40 may be installed to traverse the interior of the chamber 10, but in this case, the dust collected by the dust collection water may interfere with the dropping into the waste bin 16, as shown. It is preferable that one end is joined to the inner wall of the chamber 10 and protrudes suitably.

In addition, the screen plate 40 may be configured as a separate body, but preferably consists of a top plate of the entrance portion of the chute 20 entered into the chamber 10, the free end toward the interior of the chamber 10 It also serves to prevent the injuries of the waste (W) due to the inclined downward and to fall to the waste collection box (16).

The dust collection water spray unit 50 collects dust from the spray nozzle 51 through the spray nozzle 51 installed in the upper portion of the chamber 10 so as to be located above the screen plate 40, and from the water tank 55. Collecting water supply pipe 52 for supplying water and the air compressor 53 for supplying compressed air of a predetermined pressure to the spray nozzle 51 through the conduit 54 so that the collected water is ejected in the mist state from the spray nozzle 51 Is done.

The dust collecting water spraying unit 50 uses the air compressor 53 because the collecting water is discharged into a compressed air of high pressure, for example, about 8 kg / cm 2, and the collected water is discharged into a mist state of extremely fine droplets. 10) It is to make sure that even the fine dust floating in it can be collected.

The remaining code C is a conveyor for transporting the recycled waste aggregate A discharged from the aggregate discharge port 22 of the chute 20 to a subsequent process.

Next, the operation of the waste separation apparatus of the construction waste recycling system according to the present invention having such a structural feature will be described.

First, when the construction waste in the state of the appropriate size shredded in the entire process of the construction waste recycling treatment system is introduced into the construction waste inlet 21 of the chute 20 through the vibrating screen (S), the injected construction waste by self-weight Rolling along the bottom of the inclined chute 20 is moved toward its exit end and reaches the aggregate outlet 22 of the chute 20 is discharged onto the conveyor (C) through the aggregate outlet 22.

At this time, the strong wind of about 20 to 40 kW is horizontally blown to the construction waste falling from the blower airflow inlet port 23 of the chute 20 to the aggregate discharge port 22, whereby the renewable waste aggregate of construction waste Light waste (W) such as waste vinyl mixed in (A) is separated from the waste aggregate (A) by simply scattering along the blower.

That is, as the renewable waste aggregates (A) of construction waste roll along the chute (20) and fall into the aggregate discharge port (22), the waste aggregates (A) fall appropriately from each other, and thus, the waste (W) mixed between them. ) And dust are relatively free and can be easily scattered by the blower.

On the other hand, the waste (W) and dust separated from the renewable waste aggregate (A) is introduced into the chamber 10 along the blower, the waste (W) having a certain volume of these are inclined screen plate In addition to being caught by 40, as the flow rate of the blower air is greatly reduced, it is no longer injured to the upper portion of the chamber 10 and is guided by the screen plate 40 to collect garbage at the bottom of the chamber 10 by its own weight (16). Fall).

That is, the blower air generated by the blower 30 and blown toward the construction waste not only collides with many waste aggregates A to scatter the waste W, but also is very wider than the blower air inlet 23. Since it gradually diffuses into the area, the flow rate of the blower air flowing through the waste aggregate A is greatly reduced than the initial stage.

In particular, while the blower air stream thus decelerated is passed through the air hole 41 of the screen plate 40, the flow velocity is further reduced by contact resistance, etc., and the blower air stream blown horizontally is perpendicular to the upper portion of the chamber 10. Since the flow path is changed toward the provided exhaust port 14, the flow rate of the blower air flow in the chamber 10 is significantly lowered.

Furthermore, since the dust collection water is injected by the dust collection spray unit 50 on the inside of the chamber 10 as described below, the flow rate of the blower air toward the exhaust port 14 of the chamber 10 is determined by the dust collection water. The resistance is bound to fall even lower. According to the experiments of the present inventors, the flow rate of the blower airflow, which was the initial blower 20 to 40 kPa, flowed from the chamber 10 toward the exhaust port 14 was only about 0.1 to 0.2 kPa.

Accordingly, the wastes W scattered from the renewable waste aggregate A are no longer scattered or floated and are collected in the waste collection bin 16 by falling to the bottom of the chamber 10 by their own weight.

At the same time, in the spray nozzle 51 of the dust collecting water spray unit 50 installed on the upper portion of the chamber 10, the collected water is sprayed into the mist state by the high pressure air. Then, the dust-collected water in the mist state is uniformly distributed in the chamber 10, and gradually descends to the trash collection box 16, which reliably collects the dust floating along the blower airflow.

Accordingly, the blower air that has passed through the dust collection water is discharged to the outside through the exhaust port 14 of the chamber 10 in which the dust is mostly removed. As a result, air and soil contamination by dust is prevented, as well as a clean working environment. This maintains the disease incidence of workers such as respiratory disease is suppressed as much as possible.

3 schematically shows another embodiment of a waste separation apparatus for a construction waste recycling treatment system according to the present invention.

This embodiment connects the exhaust port 14 of the chamber 10 and the blower airflow inlet 23 of the chute 20 to the air circulation duct 60 in the configuration of the above-described embodiment, and the air circulation duct 60 The blower 30 is installed on the outlet side of the pump, so that the blower air for scattering and separating the wastes W is circulated only in the chute 20 and the chamber 10 without discharging to the outside.

In this embodiment, since the blower air generated by the blower 30 is not discharged to the atmosphere at all, the air emission of dust generated in the process of separating the waste W from the construction waste is essentially blocked.

In addition, the blower air in which the waste (W) is scattered has a very low flow rate in the chamber (10) as described in the above-described embodiment, as well as the collected water in the mist state sprayed from the dust collection spray unit (50). Since the dust flows along the air circulating duct 60 in a state where dust is certainly removed, there is almost no possibility of failure of the blower 30 due to dust.

On the other hand, in the embodiment of this configuration, the inlet side of the air circulation duct 60 is preferably provided with a damper 61 for opening and closing or appropriately adjusting the flow path as necessary. This stops the device and closes the damper 61 when discharging the collected waste (W) to the outside, thereby preventing dust from entering the air circulation duct 60 and, if necessary, controlling the air volume of the blower airflow. .

4 schematically shows another embodiment of the screen plate 40 in the above-described embodiments. This is a configuration in which a plurality of screen plates 42, 43, 44 are provided and arranged in a layered structure at regular angle intervals. The air holes 42a, 43a, 44a formed in each of the screen plates 42, 43, 44 are gradually smaller in diameter toward the upper side, and the screen plates 42, 43, 44 are each easily disposed of waste (W). The protruding length from the side wall 11 of the chamber 10 gradually increases toward the upper side for one drop.

In this case, since the blower air must pass through each screen plate 42, 43, 44 gradually decreasing in diameter of the air holes 42a, 43a, 44a, the flow rate decrease due to the contact resistance is further increased. Injuries are minimized. In addition, even if a small volume of the waste (W) passes through the lower screen plate 42 is filtered in the middle or top screen plate 43 or 44, it is possible to reliably remove the waste (W) and dust.

Figure 5 schematically shows a further embodiment of the present invention. In the configuration of the second embodiment described above, this is provided with an air filter 70 instead of the wire mesh 15 in the exhaust port 14 of the chamber 10, and dust the space between the air filter 70 and the damper 61 dust. The condenser is connected to the air compressor 53 of the spray unit 50 by a conduit 56.

In this embodiment, since the air filter 70 is provided at the exhaust port 14 of the chamber 10, dust inflow to the air circulation duct 60 can be more reliably cut off, and the air filter 70 Cleaning is performed to remove the collected dust by closing the damper 61 at the time of the device and opening the valve 57 provided in the conduit 56 to blow high-pressure compressed air over the air filter 70 for a predetermined time. . Of course, the removed dust is dropped into the waste bin 16 of the lower chamber 10 is discharged.

As described above, according to the waste separation apparatus of the construction waste recycling system according to the present invention, it is possible to reliably separate unnecessary waste such as waste vinyl mixed with construction waste shredded to an appropriate size from the recyclable aggregate. It is possible to fundamentally prevent air emissions.

In addition, since dust generated during the separation of the waste is collected and removed by the collected water in the chamber, it is possible to reliably remove the dust with a minimum amount of collected spray water, as well as effectively prevent external contamination of the system by the dust.

In addition, while circulating the blower without discharging it to the outside, the inflow of dust blower is effectively prevented, and as the conventional garbage does not need to be discharged frequently, it is possible to increase the operation efficiency of the apparatus.

Therefore, the present invention has a great effect on improving the reliability and safety of the construction waste recycling system waste separation apparatus.

Claims (9)

An apparatus for separating waste such as waste vinyl or waste plastic from construction waste shredded to an appropriate size by shredding means in a construction waste recycling system for converting construction waste into recycled aggregate through a series of processes, A chamber having a blower hole and a waste discharge door on each sidewall, and an exhaust port on an upper surface thereof; It is fixed inclined downward toward the inside of the blowing hole of the chamber and protrudes from the side wall of the chamber to the outside, the construction waste inlet and the aggregate discharge port spaced apart up and down, the construction waste inlet and aggregate A cylindrical chute having a blower air flow inlet between the outlets; A blowing means for blowing a predetermined strong wind in the horizontal direction through the blower air flow inlet of the chute to dispose garbage in the construction waste moving along the chute into the chamber; A screen plate having a plurality of air holes and installed inside the chamber so as to be located above the air blowing holes to distribute and decelerate the air blowers and to suppress the injuries of garbage; Dust collecting water spraying means for collecting dust by spraying the dust collecting water in the fog state from the inside of the chamber; A filter mounted to an exhaust port of the chamber to filter dust remaining in the air stream; Garbage separator of the construction waste recycling system, characterized in that it is detachably mounted to the inside of the chamber, collecting the garbage collected from the aggregate scattered by the blower. According to claim 1, wherein the dust collecting water spraying means, A spray nozzle penetrating through the wall of the chamber, a collection water supply pipe connected to a water tank for supplying dust collection water to the spray nozzle, and an air compressor for supplying compressed air at a predetermined pressure to the spray nozzle; Waste separator of construction waste recycling system. 3. The construction waste recycling process according to claim 1 or 2, further comprising an air circulation duct connecting the exhaust port of the chamber and the blower air flow inlet port of the chute, wherein the air blowing means is installed in the air circulation duct. Waste separator in the system. delete The waste separation apparatus of claim 3, further comprising a damper for selectively blocking and adjusting a flow path at an inlet of the air circulation duct. The chute according to any one of claims 1, 2, or 5, wherein the discharge end of the chute enters the interior of the chamber by a predetermined length, and the screen plate constitutes the entrance top surface of the chute. Waste separator of construction waste recycling system. The method according to any one of claims 1 to 6, wherein the screen plate is made up of a plurality of air holes are gradually smaller toward the upper side is arranged at regular angle intervals from each other around the fixed end, The screen plate is a waste separation device of the construction waste recycling system, characterized in that the protruding length of the free end gradually increases toward the upper side. delete The air compressor of claim 5, wherein a flow path between the filter and the damper is connected to the air compressor of the spraying means by a conduit, and when the entire system is stopped, the damper is closed to close the flow path of the air circulation duct, and the air compressor operates for a predetermined time. And cleaning the filter by blowing the compressed air at a predetermined pressure to operate the waste separation apparatus of the construction waste recycling system.