KR101060737B1 - Separating device for the recycle of the construction waste and separating method thereof - Google Patents

Abstract

PURPOSE: An apparatus and method for sorting construction waste are provided to improve work efficiency by easily sorting and discharging light construction waste and heavy construction waste. CONSTITUTION: A first crushing unit(100) firstly crushes construction waste inputted by vibration. The first crushing unit separates heavy and hard construction waste from the light construction waste. A moving screen unit(200) passes small particle waste and downwardly discharges the small particle waste. A first sorting unit(300) sorts and discharges light construction waste by generating wind. A second crushing unit(400) separates waste with large volume from waste with small volume by inputting the heavy and hard construction waste which is not sorted in the first sorting unit and the moving screen.

Description

Separating device for the recycle of the construction waste and separating method

The present invention relates to a sorting apparatus and a sorting method, and more particularly, to reduce the moving speed of the waste materials separated by shredding, and at the same time displaces in the vertical direction or up and down / front and rear to separate by weight to discharge and improve the work efficiency. It relates to a construction waste material sorting device that can be made and a sorting method using the same.

In general, as society becomes more urbanized and industrialized, not only household waste and wastewater from households, but also the amount of construction waste generated from the dismantling, reconstruction, and redevelopment of old structures is gradually increasing. In conjunction with this trend, it is gradually becoming an important topic.

When landfills of such various construction waste materials are used as they are, landfills are difficult to secure and costly, and the environmental impact and resource recycling cannot be expected.

Therefore, in recent years, a lot of investment has been made in the recycling industries, which sort out renewable resources from various construction waste materials, and endless research has been carried out to meet the needs of high performance sorting operations to process more demanding materials. It's going on.

In order to separate the recyclable or landfillable resources such as soil or aggregates contained in such various construction waste materials, a device using a screen is generally used.

Screen sorting device is equipped with one or more shredders to separate the construction waste in stages and to separate by size through a screen of sorting screen.

However, such a sorting device has a problem in that flexible or heavy or bulky construction waste materials are not crushed through a plurality of crushers and are separated into aggregates.

As such, heavy or bulky construction waste materials separated with aggregates have to be separated separately, and the cost increases due to a separate workforce and work time for this work, thereby reducing work efficiency. There is a problem.

Therefore, the present invention has been devised to solve the above problems, the construction waste material falling after the first crushing is not only up and down, but also the movement speed is reduced by the moving screen portion which is displaced in the up and down direction, of course, Easily separated by weight, bulky and light waste materials are easily sorted out by the first sorting unit using wind power, and heavy and hard waste materials are secondary shredded and sorted out to improve work efficiency An object of the present invention is to provide a material sorting apparatus and a sorting method using the same.

The present invention for achieving the above object, the first shredding unit for separating the heavy and hard waste material and light waste material and small particles of waste material by primary crushing the construction waste material input by vibration, one end toward The waste material, which is displaced downwardly inclined and separated through the first crushing part, moves downwardly inclined by gravity, or decreases in a stagnant or opposite direction so that heavy and hard waste materials, light waste materials and small particles are disposed. Each moving speed of the material is controlled and separated, and the moving screen unit which separates and discharges the particles through small waste material and discharges to the lower side, generates light in the other direction of the moving screen unit, and is separated by the wind among the light waste materials. The first sorting unit for separating and discharging waste materials, the first sorting unit and the moving screen unit is not sorted Is a second crushing unit which is separated into a bulky material and a bulky material into which a heavy and hard material is input, and a material that is selected and discharged into a bulky waste material and a small waste material separated from the second crushing unit. It includes two sorting parts.

Preferably, the moving screen unit is installed to be inclined downward toward one end, and the iron plate which is disposed below the first crushing unit to fall apart and collide with the waste material is formed at the other end, and extends to the iron plate, and has a predetermined size. Screening screen having a screen through which a small particle is passed through the material, the rotating body having a different length to the outer circumferential surface based on the rotation axis, and rotating the rotating body in the direction opposite to the moving direction of the waste material screening screen It comprises a drive for displacing the.

The outer circumferential surface of the rotating body contacts the lower surface of the sorting screen to move the sorting screen up and down.

In addition, the sorting screen, both sides are installed so as to be rotatable and flowable, when the rotation of the rotating body, as the circular motion in the inclined state to reduce the moving speed of the waste materials or to move in a stagnation or in the opposite direction.

In addition, the sorting screen is installed so that only the other end is rotatable, and when the rotor is rotated, the end of the waste material is repeatedly moved when the arc is drawn at a predetermined angle, thereby reducing the moving speed of the waste materials or stagnating or opposing directions. Move to.

In addition, a portion of the edge of the rotating body is rotatably installed on the side of the sorting screen to rotate the sorting screen in the direction opposite to the moving direction of the waste material.

The first sorting unit is provided outside the other end of the moving screen unit so as to blow wind to each of the light vessels through light weight vessels to which light waste materials are moved, and construction waste materials fall to the movable screen portions. It includes a blower provided in the corresponding position.

In addition, the blowing unit blows wind at the same angle as the inclination of the moving screen unit.

The first selection unit is further provided with a heat generating unit to generate hot air to separate and discharge the hot air.

In addition, the first crushing step to separate the heavy and hard waste materials and light waste materials and small particles of waste material as the first crushing by putting the construction waste material in the first crushing part to be vibrated, inclined downward toward one end The waste material separated by the primary crushing falls to the moving screen part which is displaced, thereby reducing the moving speed of the separated waste material or moving it in a stagnant or opposite direction. Each moving speed of the waste material is controlled and separated, and the first sorting step of separating and discharging the waste material through the small waste material is carried out. A second sorting step of separating and discharging waste materials in the other end direction of the moving screen part, the first sorting step and a second sorting step in a second crushing unit; Secondary shredding step that separates into bulky waste material and bulky waste material by inputting heavy and hard waste material which is not sorted in the process, and bulky waste material and small volume waste separated through the second shredding step It comprises a third sorting step of sorting and discharging the material.

In the first sorting step, as the waste material separated and dropped collides with the iron plate formed at the other end of the sorting screen, the collision separation step in which the waste materials are separated from each other, and the sorting screen having the iron plate and the screen are inclined downward toward one end. It is installed, but only both sides or the other end is installed so as to rotate and flow, the sorting screen is rotated in the opposite direction to the direction of movement of the waste material by the drive unit is rotated in a different length to the outer circumferential surface relative to the axis of rotation, the sorting screen Separation by weight to sort waste materials separated by weight in a circular motion in the opposite direction to material movement direction, and waste material discharge stage where small particles of waste material are selectively discharged through the through-holes of a screen having a plurality of through holes And one end of the sorting screen in which heavy and hard waste material which is not discharged into the through hole of the screen is displaced. It comprises a heavy and solid waste materials are discharged into the discharge step.

As described above, according to the construction waste material sorting apparatus and the sorting method using the same according to the present invention, by displacing the crushed and separated construction waste material in the vertical direction, as well as up and down / front and rear to reduce the moving speed and at the same time each waste material It can be easily separated according to the weight of the light waste material and small particles and small and heavy waste material is a very useful and effective invention that can improve the work efficiency by easily sorting and discharging.

1 is a view showing a construction waste material sorting apparatus according to the present invention,
2 is a view showing a flow chart of the construction waste material sorting apparatus according to the present invention,
3 is a view showing an operating state of the construction waste material sorting apparatus according to the present invention,
4 is a view showing a moving screen unit and the first sorting unit of the construction waste material sorting apparatus according to the present invention,
5 is a view showing the operating state of the moving screen portion of the construction waste material sorting apparatus according to the present invention,
6 is a view showing another operating state of the moving screen unit according to the present invention,
7 is a view showing another embodiment of the moving screen portion of the construction waste material sorting apparatus according to the present invention,
8 is a view showing an operating state of the moving screen unit of another embodiment of FIG.
9 is a view showing another embodiment of the first sorting unit of the construction waste material sorting apparatus according to the present invention,
10 is a view showing another embodiment of the first sorting unit of the construction waste material sorting apparatus according to the present invention,
11 is a view showing a sorting method using a construction waste material sorting apparatus according to the present invention,
12 is a diagram illustrating a primary sorting step of the sorting method according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

In addition, the present embodiment is not intended to limit the scope of the present invention, but is presented by way of example only, and various modifications may be made without departing from the technical gist of the present invention.

1 is a view showing a construction waste material sorting apparatus according to the present invention, Figure 2 is a view showing a flow chart of the construction waste material sorting apparatus according to the present invention, Figure 3 is a construction waste material sorting apparatus according to the present invention 4 is a view showing an operating state of, Figure 4 is a view showing a moving screen portion and the first sorting unit of the construction waste material sorting apparatus according to the present invention, Figure 5 is a moving screen of construction waste material sorting apparatus according to the present invention 6 is a view showing another operating state of the moving screen portion according to the present invention, Figure 7 is a view showing another embodiment of the moving screen portion of the construction waste material sorting apparatus according to the present invention 8 is a view showing an operating state of the moving screen unit of another embodiment of FIG. 7, FIG. 9 is a view showing another embodiment of the first sorting unit of the construction waste material sorting apparatus according to the present invention. FIG.10 is a view showing another embodiment of the first sorting unit of the construction waste material sorting apparatus according to the present invention, Figure 11 is a view showing a sorting method using a construction waste material sorting apparatus according to the present invention, Figure 12 Is a diagram illustrating a first sorting step of the sorting method according to the present invention.

As shown in the figure, the construction waste material sorting device 10 is the first shredding unit 100, the moving screen unit 200, the first sorting unit 300, the second shredding unit 400 and the second sorting It consists of a part (500).

The first shredding part 100 strikes the construction waste material 1 introduced by vibration to separate the heavy and hard waste material 2, the light waste material 3, and the small waste material 4.

That is, by crushing the construction waste material (1) primary, as the construction waste material (1) is injected into the vibrating first crushing part 100, as the impact is generated, light waste material from the heavy and hard waste material (2) (3) and the waste material 4 with small particles are separated.

The moving screen unit 200 is displaced in an inclined downward direction toward one end so as to reduce the speed at which waste materials separated through the first shredding unit 100 are inclined downward by gravity or move in a stagnant or opposite direction. do.

Accordingly, the respective moving speeds of the heavy and hard waste material 2, the light waste material 3, and the small particle waste material 4 can be controlled and separated, respectively, and the small particle waste material 4 is passed through. It will be separated and discharged downward.

In addition, the first selection unit 300 generates wind in the other end of the moving screen unit 200 to separate and discharge the light waste material 3, and the light-weight waste separated by the moving screen unit 200 being displaced. The material 3 is easily sorted out by the wind and discharged.

The second shredding unit 400 has a pair of shredding gears having a predetermined interval, and the heavy and hard waste material 2 which is not sorted by the first sorting unit 300 and the moving screen unit 200 is introduced into the bulk. Large waste material 2 'and small waste material 2 "are separated.

The waste material separated by the second shredding unit 400 is discharged by selecting the bulky waste material 2 'and the bulky waste material 2 "from the second sorting unit 500.

Here, the light waste material 3 to be separated from the first sorting unit 300 refers to being separated by the generated wind, and all or part of the light waste material 3 is separated and discharged.

As such, the sorting procedure of the construction waste material sorting device 10 is shown in Figure 2, the operating state is shown in Figure 3.

As shown in FIG. 4, the moving screen unit 200 includes a sorting screen 210, a rotating body 220, and a driving unit 230.

First, the sorting screen 210 is installed to be inclined downward toward one end, and formed of an iron plate 212 and a screen 214.

The iron plate 212 is formed at the other end of the sorting screen 210, and is disposed below the first shredding unit 100, the separated waste material is dropped and collided, the screen 214 extends to the iron plate 212 The through-hole of a certain size is formed, the small waste material (4) is passed through and separated to the lower side.

The rotating body 220 is formed to have a different length to the outer circumferential surface based on the rotation axis, and is formed in a curved surface so that the outer circumferential surface forms an arc.

The driving unit 230 rotates the rotating body 220 in a direction opposite to the moving direction of the waste material, thereby displacing the sorting screen 210.

Here, the rotating body 220 is installed so that the outer circumferential surface is in contact with the lower surface of the sorting screen 210 is moved by the drive unit 230 to move the sorting screen 210 in the vertical direction.

Accordingly, while moving the waste material in the vertical direction, the moving speed is reduced, and separated by different weight by weight.

Here, the small particles 4 to be separated are particles that pass through the through-holes formed in the moving screen unit 200, and those that do not pass through the through-holes are moved together with the heavy and hard waste material 2.

In addition, the first screening unit 300 shown in Figure 4 is composed of the light-weight line 310 and the blowing unit 320, the light-weight line (310) is provided outside the other end of the moving screen unit 200 The light waste material 3 is moved and separated and discharged.

And the blowing unit 320 is to blow the wind to the construction waste material (1), the first crushed construction waste material (2, 3, 4) through the portion that falls to the moving screen unit 200 by light weight It is provided at the corresponding position to blow wind to 310.

Accordingly, the light waste material 3 of the primary shredded construction waste materials 2, 3, and 4 may be selectively moved to the light weight vessel 310, so that the light waste material 3 may be easily separated. .

The operating state of the moving screen unit 200 and the first selection unit 300 is as shown in FIG.

Here, the sorting screen 210 is installed so that both ends are rotatable and flowable, and when the rotating body 220 is rotated, as the circular motion in the inclined state reduces the moving speed of the waste materials or moves in the stagnation or in the opposite direction. .

On the other hand, as shown in Figure 6, the screening screen 210 may be installed so that only the other end is rotatable, when the rotation of the rotating body 220, one end is drawn at a predetermined angle relative to the other end iteratively move As a result, the moving speed of the waste materials can be reduced or stagnated or moved in the opposite direction.

The waste material is repeatedly moved by one end of the sorting screen 210 to which the waste material which is not sorted and discharged from the first sorting unit 300 and the moving screen unit 200 is moved in an arc or arc in a vertical direction or the opposite direction. Can be separated more easily by weight.

Accordingly, the light waste material 3 is discharged more precisely by the first sorting unit 300, and the waste material 4 having small particles is sorted more precisely through the screen 214 of the sorting screen 210. It can be discharged.

Of course, the relatively heavy and hard waste material (2) can also be separated more precisely and can be transferred to the second shredding unit (400) as the sorting moves in one direction of the sorting screen (210).

On the other hand, as shown in Figures 7 to 8, another embodiment of the moving screen 200, consisting of a screen screen 210, the rotating body 220 and the drive unit 230, the edge of the rotating body 220 A portion of the sorting screen 210 is installed to be rotatable.

Here, the rotating body 220 is formed with a different length to the outer circumferential surface on the basis of the rotation axis, the outer circumferential surface is formed in a curved surface to form an arc, the drive unit 230 is opposite to the moving direction of the waste material 220 By rotating in the direction, the sorting screen 210 is displaced.

The rotating body 220 is rotated by the driving unit 230, and rotates the sorting screen 210 in the direction opposite to the moving direction by the rotation of the rotating body 220 is displaced.

Accordingly, as the sorting screen 210 is rotated in a direction opposite to the moving direction of the waste materials, the moving speeds of the primary waste shredded and separated construction waste materials 2, 3, and 4 are reduced or moved in the stagnant and opposite directions. Heavy and hard materials (2), light waste materials (3) and small particles (4) are easily selected.

In addition, the light waste material 3 is more easily and accurately sorted and discharged by the wind of the first selection unit 300.

In addition, as shown in FIG. 9, the first selection unit 300 further includes a heat generating unit 330, and the heat generating unit 330 is divided between the light weight line 310 and the blowing unit 320. It is provided in to transfer heat to the blowing.

In other words, by applying a falling waste material hot air to separate and discharge the light waste material (3).

The heat generator 330 may be located in front of the blower 320 to transfer heat generated by itself to the wind, or may transfer heat such as a separate heater or boiler to the blower 320.

Accordingly, by evaporating the water contained in the falling waste material can be easily separated and discharged each crushed waste material, in particular, the light waste material (3) can be more easily separated and discharged.

In addition, as shown in FIG. 10, in another embodiment, the blowing unit 320 of the first selecting unit 300 blows wind at an angle equal to the inclination of the moving screen unit 200, and the first crushing unit ( When the construction materials (2, 3, 4) separated by primary separation (100), the light waste material (3) is more easily separated, and the efficiency can also be improved.

The construction waste material sorted by the sorting screen part 200 of the construction waste material sorting device 10 is soil and sand, which are small particles 4, and the construction waste sorted by the first sorting unit 300. Materials include styrofoam and vinyl, twigs and plastics, which are light waste materials (3), and construction waste materials selected by the second sorting unit (500) are wood and concrete, which are heavy and hard waste materials (2).

Looking at the construction waste material sorting method using the construction waste material sorting device 10 as described above, as shown in Figure 10, the first shredding step (S10) and the first sorting step (S20), the second sorting It consists of a step (S30), the second crushing step (S40) and the third sorting step (S50).

First, in the first shredding step (S10) by putting the construction waste material (1) in the first crushing unit 100 is vibrated and hitting the waste material with high strength and light weight waste materials and small particles waste materials Will be separated.

In addition, the primary sorting step (S20) is the waste material (2, 3, 4) separated by the primary crushed to the moving screen portion 200 which is displaced in a state inclined downward toward one end is moved to separate the separated material As the speed is decreased or moved in the stagnation or the opposite direction, the moving speeds of the heavy and hard waste material 2, the light waste material 3, and the small particle waste material 4 are controlled and separated, respectively. Pass the small waste material (4) is to be separated and discharged downward.

The second sorting step (S30) is to separate and discharge the light waste material (3) in the other end direction of the moving screen unit 200 by blowing wind to the waste material that is separated and dropped in the first shredding step, the first selection unit Separately discharged by 300.

At this time, the first selection unit 300 is further provided with a heat generating unit 330 to transfer the heat to the blowing wind to evaporate the moisture contained in the falling waste material to facilitate the selection of each waste material. In particular, the light waste material (3) can be easily separated and discharged.

In addition, the secondary crushing step (S40) is a heavy and hard lung not screened in the first sorting step (S20) and the second sorting step (S30) in the second crushing unit 400 having a pair of crushing gears having a predetermined interval. The material 2 is introduced to separate the bulky waste material 2 'and the bulky waste material 2 ".

The waste material that passed through the second crushing step (S40) is sorted into the bulky waste material (2 ') and the small waste material (2 ") and discharged in the third sorting step (S50). .

Here, the primary screening step (S20) is, as shown in Figure 12, the collision separation step (S21) and the separation step by weight (S22), the small particle waste material discharge step (S23) and the heavy and solid waste material discharge step It consists of S24.

Collision separation step (S21) is that the waste material (2, 3, 4) is separated and dropped as the waste material is separated from each other as the impact on the iron plate 212 formed on the other end of the sorting screen 210, primary crushing After the step S10, the separated waste material is separated again.

And the separation step by weight (S22) is a screen screen 210 having a steel plate 212 and the screen 214 is installed to be inclined downward toward one end, only both sides or the other end is installed so as to rotate and flow based on the axis of rotation As the rotating body 220 having a different length to the outer circumferential surface is rotated in the opposite direction to the moving direction of the waste material by the driving unit 230, the sorting screen 210 is circularly moved upward or downward or in the opposite direction to the waste material moving direction. The separated waste materials are sorted by weight.

Accordingly, the waste materials are separated into heavy and hard waste materials (2), light waste materials (3) and small particles of waste materials (4), respectively, among which the light waste materials (3) are secondary screening step (S30). Is discharged through).

In the small particle waste material discharging step S23, the small particle waste material 4 is selectively discharged through the through holes of the screen 214 having a plurality of through holes, and the screen 214 in the heavy and hard waste material discharging step S24. Heavy and hard waste material 2 which is not discharged through the through hole is discharged in one direction of the sorting screen 210 which is displaced.

10: sorting device 100: first shredding unit
200: moving screen unit 210: screening screen
220: rotating body 230: drive unit
300: first selection unit 310: by light ship
320: blower 330: heat generating unit
400: second shredding part 500: second sorting part

Claims (11)

A first crushing unit which firstly crushes the construction waste material injected by vibration to separate heavy and hard waste materials, light waste materials, and small particles of waste materials;
The waste material separated through the first crushing unit is displaced downwardly toward one end and is moved downwardly by the gravity to reduce or stagnate or move in the opposite direction so that the heavy and hard waste materials and light waste materials and particles are reduced. A moving screen unit for controlling the respective moving speeds of the small waste materials to separate them, and separating and discharging the waste materials through the small waste materials;
A first sorting unit generating wind in the other end of the moving screen unit to separate and discharge the light waste material separated by the wind among the light waste materials;
A second crushing unit which separates the bulky waste material and the bulky waste material by inputting heavy and hard waste material not selected by the first selection unit and the moving screen unit; And
And a second sorting unit for sorting and discharging the bulky waste material and the bulky waste material separated from the second crushing unit.
The moving screen unit,
It is installed to be inclined downward toward one end, and an iron plate which is located at the lower side of the first crushing unit is dropped and collided by falling, and is formed at the other end, extends to the iron plate, and has a predetermined size through-hole to form small particles. A sorting screen having a screen through which waste material is passed;
A rotating body having a different length from the rotating shaft to the outer circumferential surface; And
And a driving unit rotating the rotating body in a direction opposite to the moving direction of the waste material to displace the sorting screen.
delete The method of claim 1,
The outer circumferential surface of the rotating body is in contact with the bottom surface of the sorting screen, the construction waste material sorting device, characterized in that for moving the screen up and down.
According to claim 1, wherein the sorting screen,
Both sides are installed so as to be rotatable and flowable, the construction waste material sorting device characterized in that when the rotation of the rotating body, the circular motion in the inclined state to reduce the moving speed of the waste materials or to move in the stagnation or in the opposite direction .
According to claim 1, wherein the sorting screen,
It is installed so that only the other end is rotatable, and when the rotor is rotated, one end is repeatedly drawn at an angle with respect to the other end, so that the moving speed of the waste materials is reduced or moved in the stagnant or opposite direction. Construction waste material sorting device.
The method of claim 1,
A portion of the edge of the rotating body is installed to be rotatable on the side of the sorting screen construction waste material sorting apparatus, characterized in that the sorting screen is rotated in the direction opposite to the moving direction of the waste material.
The method of claim 1, wherein the first selection unit,
A light weight line provided with the other end of the moving screen portion to move light waste materials; And
Construction waste material sorting device comprising a blower provided in the corresponding position to blow wind to the light-weight ship through the portion of the construction waste material falling to the moving screen portion.
The method of claim 7, wherein
The blower is a construction waste material sorting device, characterized in that for blowing the wind at the same angle as the inclination of the moving screen.
The method of claim 1, wherein the first selection unit,
Construction waste material sorting apparatus characterized in that the heat generating unit is further provided to generate and discharge hot air.
A primary crushing step of separating heavy and hard waste materials, light waste materials and small particles of waste materials as primary crushing is performed by putting construction waste materials into the first crushing unit to be vibrated;
Heavy and hard waste material as the primary shredded waste material falls to the moving screen part which is displaced in an inclined downward direction to one end, and the moving speed of the separated waste material is reduced or moved in a stagnant or opposite direction. And a first sorting step of controlling each moving speed of the light waste material and the small waste material to separate each, and separating and discharging the waste material through the small waste material and discharged downward;
A second sorting step of blowing wind to the waste material separated and dropped in the first crushing step to separate and discharge the lightweight material in the other end direction of the moving screen part;
A second crushing step in which heavy and hard waste materials which are not selected in the first and second sorting steps are added to the second crushing unit to separate the bulky waste materials and the bulky waste materials; And
And a third sorting step of sorting and discharging the bulky waste material and the bulky waste material separated through the second crushing step.
The first screening step,
A collision separation step in which the waste materials are separated from each other as the waste materials separated and dropped collide with the iron plate formed at the other end of the screen;
The sorting screen having the iron plate and the screen is installed to be inclined downward toward one end, and only the both ends or the other end are installed to be rotatable and flowable so that a rotating body having a different length to the outer circumferential surface based on the rotation axis is moved by the driving unit. Separation step by weight for sorting the separated waste material by weight as the sorting screen is circular motion in the opposite direction to the vertical or vertical movement direction of the waste material as it is rotated in the opposite direction;
Small waste material discharge step of the small material waste material is selectively discharged through the through hole of the screen having a plurality of holes; And
And a heavy and hard waste material discharging step of discharging toward one end of the sorting screen in which heavy and hard waste materials not discharged to the through hole of the screen are displaced. delete

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