KR100501454B1 - Foreign material quality sorting system of construction waste - Google Patents

Abstract

The present invention relates to a foreign matter sorting device of construction waste.

The present invention is configured so that construction waste is supplied to the inside of the chute through the transfer conveyor to fall naturally to the bottom, foreign matter and aggregate contained in the construction waste that is dropped by the fluid discharged from the fluid supply unit installed in the chute In the foreign matter sorting device of the construction waste configured to be sorted, the chute is configured to couple the chute body coupled with the louver plate in the inlet to the frame, the foreign matter outlet having a first guide of each hard type on the lower sides of the chute body And an aggregate discharge outlet having a soft guide and a second guide, wherein the first guide is configured such that a reflective panel having a curved shape is coupled to the inside of the upper end, and the second guide is formed of a rectangular louver through which the upper and lower ends pass. , The louver is the thickness of the place close to the conveying conveyor thickness of the side that abuts the first guide Compared so that the thicker configuration, characterized by a first guide and a damper is installed on the top of the chute body inside the engagement of the second guide.

Therefore, the present invention is to prevent the contamination of the surrounding by being separated into the enclosure without the separated fine foreign matter dispersed to the outside.

Description

Foreign material sorting device for construction wastes {FOREIGN MATERIAL QUALITY SORTING SYSTEM OF CONSTRUCTION WASTE}

The present invention relates to a foreign matter sorting device for construction wastes, in particular, by allowing the air and water to be sprayed simultaneously from the bottom to the top while the pulverized construction waste is naturally falling from the top of the chute through the transfer conveyor, Light weight foreign matter is to be easily separated from the aggregate, and the fine foreign matter separated from the aggregate is soaked with water, so as to prevent the contamination by blowing around.

In general, a building is demolished to reconstruct a large amount of construction waste including concrete, wood, glass, and synthetic resin, which constitute steel and walls, slabs, and ceilings.

These construction wastes are first collected by recycling steel, etc. and then crushed concrete with a grinder, and the foreign matter contained in the crushed concrete is separated by a separate foreign matter sorting device, to obtain aggregates free of foreign matters, and to obtain aggregates. By-products such as waste wood chips, fabric scraps, plastics, papers and vinyls can be disposed of by incineration.

The foreign matter sorting device is used in the wet screening method and dry screening method according to the medium for screening the foreign matter contained in the aggregate and the aggregate. The wet screening method uses water to transfer the concrete pulverized material in which the metal material is separated through the transfer conveyor. While moving, the foreign matter floats to the top of the tank due to the difference in specific gravity between the crushed matter and the foreign matter, and the foreign matter floated to the upper part is sorted by using a separate screen. It is configured to be collected at a certain place using a conveying conveyor.

However, this wet screening method requires a large amount of water to remove or separate foreign matters from the crushed concrete, and the turbid water removed by removing the foreign matters is discharged to the outside through a separate water treatment device, which requires a high treatment cost. At the same time, if the water treatment did not work properly, there was another problem that further pollutes the surrounding environment.

On the other hand, the dry screening method is a medium for removing the foreign matter using air, not water, and raised to the upper through the transfer conveyor for transporting the crushed concrete containing the foreign matter at a constant speed to the lower blower toward the concrete By allowing the air to be discharged through, it is configured to separate the light weight foreign matters blown in the wind.

However, the dry screening method does not have a separate water treatment system compared to the wet screening method, which can drastically reduce operating costs. However, foreign matters are blown by the wind, polluting the surrounding environment, and at the same time, the sorting efficiency is lowered. There was another problem that the screening efficiency was also lowered when the wind blew heavily.

The present invention has been created to solve such a problem as the crushed construction waste is naturally dropped from the upper part to the lower part of the chute through the transfer conveyor, so that air and water are simultaneously sprayed from the lower part to the upper part, thereby mass The purpose of the present invention is to provide a foreign matter sorting device for construction waste that can be easily separated from the aggregates and the fine particles separated from the aggregates are soaked with water, thereby preventing foreign matters from being blown around. have.

The present invention for achieving the above object is configured such that the construction waste is supplied to the inside of the chute through the transfer conveyor to fall naturally to the bottom, the construction waste dropped by the fluid discharged from the fluid supply unit installed in the chute In the foreign matter sorting device of the construction waste configured to sort the foreign matter and aggregates contained in the inside, the chute (1) has a chute body 13, the louver plate 12 is coupled to the inlet 11 to the frame (14) It is configured to be coupled, the aggregate discharge port 16 having the foreign matter discharge port 15 having the first guide 151 of the hard type and the second guide 161 of the soft type on the lower both sides of the chute body 13, respectively; Although installed, the first guide 151 is configured to be coupled to the reflective panel 152 having a curved shape inside the upper end, the second guide 161 is composed of a rectangular louver through the upper and lower ends, The burr is configured such that the thickness of the side in contact with the first guide 151 is thicker than the thickness of the place close to the conveying conveyor (3), the upper end of the first guide 151 and the second guide 161 is coupled It is comprised so that the damper 17 may be installed in the chute body 13 inside.

In addition, the fluid supply unit 2 is composed of an air supply unit 21 and the water supply unit 22, the air supply unit 21 is the discharge port 213 of the blower 212 having the inlet 211 is the induction pipe ( 214 is configured to be coupled to the duct 215 is installed, the composite nozzle 23 is configured to be fixed to the lower portion of the induction pipe 214, the water supply 22 is a tank installed under the conveying conveyor (3) The water in 221 is configured to be supplied to the pipe 223 installed on the side of the compressor 222 and the conveying conveyor 3, the branch pipe 224 coupled to the end of the pipe 223 is the composite nozzle ( 23).

In addition, the composite nozzle 23 has a periphery of the induction pipe 214 in which an air nozzle 233 having a rectangular air nozzle body 232 provided with an upper and lower exploded flow path space 231 is cut in a long hole shape. It is configured to be coupled to, but the water injection nozzle 24 having a predetermined interval to the flow path space portion 231 is configured to be coupled.

The water spray nozzle 24 is configured such that the water spray nozzle body 242 coupled with the nozzle cap 241 is coupled to the branch pipe 224, and is separated from the outer circumference of the water spray nozzle body 242. The object of the present invention is to provide an apparatus for sorting foreign matter of construction waste, characterized in that the nozzle body fixtures 243 and 243 'are coupled to be fixed to be interposed between the flow path space portions 232.

Hereinafter, an embodiment of the present invention will be described with reference to the accompanying drawings.

As shown in FIGS. 1 to 8, the foreign matter sorting device A according to the present invention is constructed such that construction waste 5 is supplied to the inside of the chute 1 through the transfer conveyor 3 so as to naturally fall downward. And foreign matter and aggregate contained in the construction waste dropped by the fluid discharged from the fluid supply unit 2 installed in the chute 1 are sorted out.

Here, the chute (1) is provided with a space having a shape of the inner and outer block to the upper side of the conveying conveyor (3) construction waste (5) transferred through the upper surface of the conveying conveyor (3) to the bottom It is configured to fall easily without being affected by the absolute influence from outside air in the process of free fall.

To this end, the chute (1) is composed of a chute body 13 and a damper (17) provided therein formed so that only the lower portion is opened, the chute body 13 is the outer side of the lower end It is configured to be coupled in a form spanning the frame 14.

In addition, the foreign material discharge port 15 and the aggregate discharge port 16 is installed in the open lower portion where the two sides are divided into half, respectively, the foreign material discharge port 15 is bent iron plate, coupled by welding or the like The first guide 151 of the hard type is configured to take a form extending to the chute body 13 by a predetermined length, but the reflective panel 152 having a curved shape is coupled to the upper inside of the first guide 151. It can be configured to prevent a portion of the foreign matter separated by the fluid discharged from the fluid supply unit (2) does not fall downward along the first guide 151 to swirl inside the upper portion of the chute body (13). It is configured to be.

That is, the air containing the water discharged from the fluid supply unit 2 hits the curved portion of the reflective panel 152 and at the same time the angle of incidence decreases, so that most of the fluid is lowered along the first guide 151. As it moves to, the emission rate of foreign substances increases.

The aggregate discharge port 16 is a soft type second guide 161 having a predetermined cushion as compared to the first guide 151 so that only the pure aggregate from which foreign matter is removed from the construction waste can be easily dropped. Consists of.

The second guide 161 is composed of a louver of the upper and lower ends penetrated, the thickness of the side abutting the first guide 151 is formed to be thicker than the thickness of the place close to the conveying conveyor (3). It is.

The thickness of the second guide 161 is different from the aggregate freely falling into the chute body 13 through the transfer conveyor 3 by the action and reaction or centrifugal force, the aggregate is directly below the end of the transfer conveyor 3. Rather than falling into the room to the outside in the form of a closed curve in the process of falling on the inner wall surface of the second guide (161) to fall after the impact or contact due to the noise and wear to prevent long-term use For that.

In addition, an inlet 11 for easily inserting the construction waste 5 from the transfer conveyor 3 into the chute body 13 is formed at the upper corner of the aggregate discharge port 16 formed in the chute body 13. Is formed, the inlet 11 is a louver plate 12 is fixed to the upper surface of the conveying conveyor (3) at the top is fixed to the outside through the inlet 11 from the inside of the chute body (13) It is configured to prevent foreign substances from being discharged.

The damper 17 is installed on the upper portion between the foreign matter discharge port 15 and the aggregate discharge port 16 and is composed of a damper shaft 171, a damper panel 172, and a damper fixing tool 173.

Here, the damper shaft 171 is formed to have a shape of a rod having a relatively long length having a predetermined diameter, both sides are configured to be inserted into the hinge hole 131 formed on both sides of the chute body (13) The damper panel 172 has a rectangular shape and is fixed to the damper shaft 171 by welding or bolts, which are coupled or fixed means.

The damper fixture 173 is a state in which the damper shaft 171 is rotated at a predetermined angle to fix it, and a handle is integrally formed on the upper end of the screw member 174, and the handle is formed to have a butterfly nut shape. More preferably.

On the other hand, at the bottom of the foreign matter discharge port 15 is configured to separate the foreign matter separated from the construction waste (5) into the enclosure (7) through a separate passage (6).

The fluid supply unit (2) to selectively control the ratio of water and air to be injected into the construction waste containing the foreign matter falling freely from the conveying conveyor (3) to separate the aggregate and foreign matter contained in the construction waste At the same time it is configured to provide the main function to prevent the fine foreign matter separated from the aggregates to be blown to the outside.

To this end, the fluid supply unit 2 is composed of an air supply unit 21 for supplying air and a water supply unit 22 for supplying water, and the air supply unit 21 includes a blower 212, a duct 215, It is composed of an induction pipe 214 and a composite nozzle 23, the water supply unit 22 to the tank 221, the compressor 222, the pipe 223 and the branch pipe 224 and the branch pipe 224 Composed of the composite nozzle 23 is combined.

The blower 212 inhales and compresses the outside air, and blows the compressed air into the chute body 13 through the duct 215, the induction pipe 214, and the composite nozzle 23. 211 and an outlet 213 are provided, and the suction side of the duct 215 is coupled to the outlet 213.

In addition, the blower 212 is more preferably used with a fan inverter that is easy to adjust the rotational speed, in this case, the air supplied to the chute body 13 through the air nozzle 233 to be described later By adjusting the amount, it is possible to control the removal rate of foreign substances according to the working conditions.

The duct 215 is configured such that rectangular guide pipes 214 are integrally coupled to both sides thereof, and a composite nozzle 23 having a predetermined angle upward is provided below the guide pipes 214. .

The composite nozzle 23 is configured such that air and water are simultaneously supplied into the chute body 13, or alternatively, the air and water are supplied to the ends of the air supply unit 21 and the water supply unit 22. And, the portion coupled to the air supply unit 21 is configured such that the air nozzle 233 having a rectangular air nozzle body 232 is configured to be coupled to the periphery of the guide pipe 214 cut in the form of a long hole, The inside of the air nozzle body 232 is configured to be provided with a flow path space portion 231 having a top and bottom bursting.

In addition, the flow path space 231 is configured to be coupled to the water supply nozzle 22 is coupled to the water spray nozzle 24 having a predetermined interval.

The water supply unit 22 is coupled so that the water in the tank 221 installed under the conveying conveyor 3 is supplied to the compressor 222 and the pipe 223 provided at the side of the conveying conveyor 3. Branch pipe 224 coupled to the end of the 223 is configured to be coupled to the water spray nozzle 24 constituting the composite nozzle (23).

The water spray nozzle 24 is configured such that the water spray nozzle body 242 to which the nozzle cap 241 is coupled is coupled to the end of the branch pipe 224, and an outer peripheral portion of the water spray nozzle body 242. The contact surface is configured to be coupled so that the separate nozzle body fixtures 243 and 243 'having a curved shape abut, interposed between the flow path space portion 232 is fixed.

In addition, the other end of the water spray nozzle body 242 coupled to the nozzle cap 241 is configured to have a conical shape so that the compressed air supplied through the suction port 211 of the blower 212 is a water spray nozzle 24 It is configured to flow easily through the air nozzle 233 is provided to both sides of the).

That is, the entire water spray nozzle 24 has a streamlined shape in which the front and rear sides are narrowed and the middle is widened, thereby preventing the bottleneck of air and reducing its resistance.

The process of obtaining the aggregate in which the foreign matter contained in the construction waste is removed by using the foreign matter sorting device configured as described above is as follows.

First, steel that can be recycled among construction wastes generated in the process of dismantling a building is collected using a magnet, and then the remaining concrete is crushed to a predetermined size or less using a grinder.

Next, in the pulverized concrete, foreign materials such as wood, glass, synthetic resin, and fiber are mixed together, and the construction waste (5) containing the foreign matter is loaded on the conveying conveyor (3) through the hopper (4). Is fed at speed.

As the blower 212 of the air supply unit 21 fixed to the upper part of the chute body 13 is operated, outside air is sucked into the inside through the inlet 211, and the sucked outside air is compressed to a predetermined pressure. The flow path space part 231 which is an air nozzle 233 of the composite nozzle 23 installed at the lower side after being introduced into the duct 215 through the discharge port 213 and then transferred through the induction pipe 214 connected to both sides thereof. In the lower part of the conveying conveyor (3) through the () through the inner wall of the chute body 13, the construction waste (5) loaded on the conveying conveyor (3) falls to the lower and at the same time lighter than the aggregate The foreign matter is blown toward the inner wall of the chute body 13 and moved downward along the first guide 151 to be sorted into the enclosure 7 through the passage 6 connected thereto.

At this time, the wind sprayed from the air nozzle 233 is directed upward according to the angle of incidence hit the inner wall of the chute body 13, but has a curved shape inside the upper portion of the first guide 151 By configuring the reflective panel 152 to be coupled to reduce the incident angle, almost no foreign matter falls to the bottom along the first guide 151 to prevent the phenomenon of swirling toward the inner upper portion of the chute body 13. It becomes possible.

Next, the air nozzle as the water in the tank 221 is supplied to the water spray nozzle body 242 constituting the composite nozzle 23 along the pipe 223 and the branch pipe 224 due to the operation of the compressor 222. Water is sprayed into the mist state through the nozzle cap 241 of the water spray nozzle 24 located between the 233, the fine foreign matter separated from the aggregate is splashed by the water being sprayed is scattered to the outside It can prevent you from losing.

Next, the aggregate in which the foreign matter is separated is worn out in the process of partly hitting the second guide 161 by the centrifugal force falling from the wind or water and the conveying conveyor (3) is injected from the composite nozzle (23) Although noise is generated, since the second guide 161 is formed of a louver, wear is prevented from occurring on the surface of the second guide 161, and further noise is prevented.

Next, as the aggregate is discharged to the lower portion through the discharge port 16 may be used according to the purpose.

On the other hand, in order to adjust the damper 17 configured to be coupled to the chute body 13 by using a damper fixture 173 by rotating the handle in a state where the damper shaft 171 is rotated to a constant angle, the screw formed integrally therewith The member 174 is fixed at a predetermined position by its fastening force while moving toward the outer wall of the chute body 13.

Therefore, when the damper panel 172 is inclined in the right direction, the cross-sectional area of the foreign matter discharge port 15 decreases, so that a large amount of recycled aggregate of low purity can be obtained, and the damper panel 172 is tilted to the left. If it is, the cross-sectional area of the foreign matter discharge port 15 is widened while the cross-sectional area of the aggregate discharge port 16 is narrowed, it is possible to obtain a good aggregate.

As such, the present invention allows the air and water to be sprayed simultaneously from the lower part to the upper part while the crushed construction waste is naturally dropped from the upper part to the lower part of the chute through the transfer conveyor, so that the foreign material having light weight is easily aggregated with the aggregate. It is to be separated to obtain a lot of good quality aggregate.

In addition, by preventing the wear and noise generated by the contact with the first guide in the process of falling down the aggregate separated from the foreign matter, it is possible to obtain an effect to maintain a comfortable working environment.

In addition, the fine particles such as waste wood chips, fabric pieces, plastics, papers, vinyls, etc. separated from the aggregates of construction wastes are wetted by the water sprayed from the water spray nozzles, and are diffused into the atmosphere and scattered to the surroundings. It is more effective to prevent the environment from being polluted.

1 is a block diagram of a foreign matter screening device according to the present invention.

Figure 2 is an exploded perspective view of the foreign matter sorting apparatus according to the present invention.

Figure 3 is an enlarged illustration of the main portion showing the internal configuration of the foreign matter screening apparatus according to the present invention.

Figure 4 is a perspective view showing a composite nozzle in the foreign matter sorting apparatus according to the present invention.

Figure 5 is an exploded perspective view showing a water spray nozzle in the foreign matter sorting apparatus according to the present invention.

6 is an exemplary view showing the spraying state of the spray nozzle installed in the foreign matter sorting apparatus according to the present invention.

7 is an enlarged sectional view taken along the line A-A of FIG.

8 is an enlarged sectional view taken along the line B-B in FIG.

<Brief description of symbols for the main parts of the drawings>

1: Suit 11: Inlet

12: A louver version 13: Suit body

14: frame 15: foreign substance outlet

16: Aggregate outlet 17: Damper

151: First guide 152: Reflective panel

161: Second guide

Claims (4)

The construction waste is supplied to the inside of the chute through the conveying conveyor to be naturally dropped to the bottom, and the chute is configured to couple the chute body coupled with the louver plate to the inlet to the frame, and hard to the lower sides of the chute body, respectively. A foreign material discharge port having a first guide of the type and an aggregate discharge port having a second guide of the soft type are installed, and the second guide is composed of a rectangular louver through which the upper and lower ends pass, but the louver has the thickness of the side facing the first guide. The fluid is discharged from the fluid supply unit installed in the chute body is configured to be thicker than the thickness of the access conveyor approached, the upper end of the first guide and the second guide is coupled to the chute body, Construction waste configured to sort out foreign substances and aggregates contained in construction waste dropped by In the foreign substance separating device, The chute 1 is configured such that the reflective panel 152 having a curved shape is coupled to the inside of the upper end of the inner first guide 151 of the chute body 13, and the fluid supply part 2 is an air supply part 21. And a water supply part 22, wherein the water supply part 22 is a pipe 223 installed at the side of the compressor 222 and the conveying conveyor 3 with water in the tank 221 installed under the conveying conveyor 3. It is configured to be supplied, foreign matter sorting device for construction waste, characterized in that the branch pipe 224 coupled to the end of the pipe 223 is configured to be coupled to the composite nozzle (23). delete The method of claim 1, The composite nozzle 23 is coupled to the periphery of the induction pipe 214, the air nozzle 233 having a rectangular air nozzle body 232 is provided in the upper and lower parts of the flow path space 231 is cut in the form of a long hole The water spray nozzle 24 having a predetermined interval is coupled to the flow path space part 231, and the water molecule nozzle 24 has a water molecule nozzle body 242 having a nozzle cap 241 coupled thereto. ) Is configured to be coupled to the branch pipe 224, and the foreign matter separation of the construction waste, characterized in that the separate nozzle body fixtures (243, 243 ') is configured to be coupled to the outer periphery of the water molecule nozzle body (242) Device. delete