KR102386270B1 - Apparatus for recovering recycled fine aggregates from construction waste - Google Patents

Abstract

Disclosed is a separation and recovery device for soil and aggregate of construction waste which is configured to use a conical rotor rotating at a predetermined speed to separate aggregate and soil by using a change of a mutual moving distance according to a weight difference of aggregate and soil in a transport means to which a force is constantly applied, thereby enabling discharge in the four directions of the rotor (vertical direction in which construction waste drops).

Description

Separation and recovery device for soil and aggregate of construction wastes

The present invention relates to a device for separation and recovery of soil and aggregate of construction waste, and more particularly, in a transfer means to which a constant force is applied, the aggregate and the soil are separated by using a change in the mutual movement distance according to the weight difference between the aggregate and the soil. It relates to a separation and recovery device for soil and aggregate of construction wastes using a conical rotor rotating at a constant speed so that it can be separated.

Construction waste refers to waste generated during construction and dismantling of building structures, and includes aggregates mixed with garbage or waste materials, sand, gravel, earth and stone, or a mixture of these, such as soil, concrete, and construction sludge. it refers to

Construction waste generated from redevelopment, reconstruction, and civil engineering works, which are carried out according to the aging and deterioration of buildings, is increasing day by day, and many efforts are being made to dispose of it. Considering the aspect of substitution and cost reduction of construction industry sites, they are collected in a predetermined place and then produced as high-quality resources through an intermediate treatment process. In particular, as reconstruction of urban and local buildings has been activated in recent years, a large amount of buildings are being dismantled, resulting in an increase in the amount of construction waste.

As described above, roughly looking at the intermediate treatment process of construction waste generated during the dismantling of a building, the collected construction waste is first shredded by a shredder, and then scrap metal is separated and discharged by an electromagnet sieve machine, and then blown and rotated. After the soil and foreign substances are separated and discharged, the waste wood and various wastes are separated and discharged by the vibrating screen. After the scrap iron, soil, and other foreign substances are removed from the construction waste in this way, it is crushed again by the secondary crusher, and then optionally crushed again by the third crusher to finish the granular form as a recycled aggregate, Aggregates of various sizes are obtained by the sorting network.

However, the aggregate obtained through this process has a problem in that the selection rate of the aggregate changes significantly depending on the moisture content of the soil in separating the aggregate and the soil from the building waste. There is a problem that the aggregate recovery rate is significantly reduced due to clogging.

In addition, the method commonly used to recover aggregates after separating soil and aggregate is to classify and recover by particle size by applying vibration to the sorting network. If the moisture content of the changing soil is high, during the intermediate treatment of construction waste, the soil is agglomerated and blocked the net, so aggregate and soil cannot be separated, and there is a problem that a large amount of soil is passed in the direction of aggregate recovery. For smooth operation of the plant, a 25-35 mm mesh is installed and the equipment is operating.

However, when such a large mesh is installed and separated, coarse aggregates larger than 5 mm, which are often used as aggregates, are transferred to the soil to increase the production of soil and soil, as well as decrease the recovery rate of aggregates because the soil contains a large amount of aggregates. The reality is that those that can be used as aggregates and materials are being used within the scope of restrictions on the scope of recycling, such as for simple soil covering.

Accordingly, there is a separation and recovery device for the soil and aggregate of construction wastes that uses centrifugal force to separate the recycled aggregate produced through the intermediate treatment process of construction waste and improves the problem of reduced separation efficiency due to the clogging of the existing screening screen method. It is disclosed in Korean Patent Registration No. 10-2190703.

In the prior art, the construction waste is sprayed on the elastic plate provided in the lateral direction by using the centrifugal force according to the rotation, and the construction waste collided with the elastic plate is tucked in the elastic plate based on the mass, the aggregate is It falls through the aggregate outlet located on the lower side of the rotor, and the soil is not adjacent to the aggregate outlet, and while falling into the space between the aggregate outlet and the inner surface of the elastic plate, it is configured to be separated into soil and aggregate.

However, in the prior art, when the moisture content of the aggregate is high, the elastic plate does not have an elastic force based on the mass and does not reach the aggregate outlet located at the lower side of the rotor. As the soil and aggregate were separated together, there was a problem that the recycling rate of the aggregate decreased.

In addition, the prior art has a problem in that it is very difficult for the aggregate to be accurately collected into the outlet because the reflection angle is irregular because the aggregate is crumpled from the elastic plate and reflected from the elastic plate depending on the shape and weight of the aggregate. Since the distance was irregular, there was a problem in that it was difficult to sort according to the grain size of the aggregate.

The present invention has been devised to improve the above problems, and its purpose is to separate the soil from the aggregate so as not to be greatly affected by the moisture content of the aggregate generated at the site. By using the rotor, it is configured to discharge in all directions (vertical direction in which construction waste falls) of the rotor, so that when transported at a constant speed, aggregate and soil are separated by using the difference in the mutual movement distance according to the weight difference between the aggregate and the soil. To provide a separable and separable device for segregating soil and aggregate from construction waste to increase the recovery rate of aggregates.

In addition, it is configured to be able to adjust the collection area of the aggregate to correspond to the movement distance according to the weight of the aggregate, and to perform the sorting operation according to the particle size of the aggregate. .

The object of the present invention is an upper case having an inlet through which construction waste is put in is formed at the upper end, and a moving space to separate aggregate and soil inside, and the upper case is coupled to the lower end of the upper case and is formed in a sanggwang lower gorge at the lower end. A main body composed of a lower case having an aggregate discharge port through which aggregate is discharged, and a lower case inside the upper case and configured to rotate at a constant speed, the construction waste injected into the inlet through centrifugal force in the upper case A centrifugal rotor configured to discharge in all four directions (vertical direction in which construction waste falls), and a centrifugal rotor provided on the lower side of the centrifugal rotor inside the lower case, the soil is formed in the upper and lower gorges and discharged from the centrifugal rotor at the upper end It comprises a soil collecting hopper having a soil inlet to be formed, a soil discharge port for discharging soil at the bottom, and an aggregate conveying path through which the aggregate discharged from the centrifugal rotor is transported between the lower case and the centrifugal rotor. By using the difference in the mutual movement distance according to the weight difference between aggregate and soil discharged by the centrifugal force of It can be achieved by providing a separation and recovery device for soil and aggregate of construction waste, characterized in that it is input into the transfer passage and discharged to the aggregate outlet of the lower case to be collected.

Here, the centrifugal rotor is provided in a conical shape with a rotating plate, is formed to protrude upward from the center of the upper surface of the rotating plate, and applies a centrifugal force to the construction waste injected into the inlet in the upper case in all directions (construction waste falls It is preferable to include a centrifugal separation member for separating and discharging aggregate and soil in the vertical direction), and a rotor coupled radially along the edge of the rotating plate to the outside of the centrifugal separation member to generate centrifugal force.

And, the soil inlet of the soil collection hopper by adjusting the size of the soil inlet by adjusting the size of the soil input to the soil inlet and the aggregate input to the aggregate transport passage is further provided with a distance control separation and sorting device that can be separated, The distance control separation and sorting device consists of an installation pillar installed in the center of the soil inlet, and a plurality of size control plates provided outside the installation pillar and formed in an arc shape, the opposite ends overlapping each other to form a circle, the plurality of sizes When the adjustment plate is moved to the installation column side, the diameter is reduced, and when the plurality of size adjustment plates are moved to the outside of the installation column, the diameter is increased to adjust the distance control separation plate configured to adjust the size of the soil inlet, and the cylinder body is It is coupled to the installation column and the cylinder rod is coupled to the inner surface of the size adjustment plate, and it moves the size adjustment plate by expansion and contraction of the cylinder rod to adjust the diameter of the distance control separation plate. desirable.

And, it is preferable that an aggregate inflow prevention plate having elasticity and elasticity to prevent aggregate from flowing between the inlet of the soil collection hopper and the size control plate is further installed between the upper end of the size adjusting plate and the upper end of the soil collecting hopper.

According to the separation and recovery device for soil and aggregate of construction wastes according to the present invention, by using a conical rotor rotating at a constant speed, the centrifugal rotor is discharged in the four directions (vertical direction in which the construction waste falls). Since it is constructed so that the aggregate and the soil can be separated by using the change in the mutual movement distance according to the weight difference between the aggregate and the soil, there is an effect that the recovery rate and recycling of the aggregate can be increased regardless of the moisture content of the aggregate.

1 is an exploded perspective view of an apparatus for separating and recovering soil and aggregate of construction waste according to the present invention;
2 is a combined cross-sectional view of the device for separation and recovery of soil and aggregate of construction waste according to the present invention;
3 is a view for explaining the operation of the separation and recovery device for soil and aggregate of construction waste according to the present invention;
4A and 4B are plan cross-sectional views according to another preferred embodiment of the device for separating and recovering soil and aggregate of construction waste according to the present invention;
Figures 5a and 5b are side cross-sectional views of Figures 4a and 4b;
6 to 8 are views for explaining the operation of the separation and recovery device for the soil and aggregate of construction waste according to Figures 4a and 4b.

Hereinafter, with reference to the accompanying drawings, a device for separating and recovering soil and aggregate of construction waste according to the present invention will be described in detail.

1 is an exploded perspective view of an apparatus for separating and collecting soil and aggregate for construction waste according to the present invention, and FIG.

1 and 2, the separation and recovery device for soil and aggregate of construction waste according to the present invention is configured to be able to separate aggregate and soil by using the change in mutual movement distance according to the weight difference between aggregate and soil. As a feature, it is configured to include a main body 100, a centrifugal rotor 200 and a soil collecting hopper 300.

The main body 100 is a part that provides a space in which components to be described later are installed and the aggregate and soil can be separated therein.

Specifically, the upper case 110 and the upper case in which the main body 100 is provided with an inlet 111 through which construction waste is put in, and a moving space 112 that is moved by separating aggregate and soil therein. It is coupled to the lower end of the 110 and is formed in a sanggwanghahyeop, and consists of a lower case 120 having an aggregate outlet 121 through which the aggregate is discharged at the lower end.

Here, although not shown in the inlet 111, a separate conveyor belt may be provided to transport construction waste to fall into the inlet 111, and construction waste may be transported using construction equipment, such as an excavator or loader, into the inlet 111. It can be configured in a way that is poured into the input. In addition, it is preferable that a conveyor belt 125 is provided in the aggregate outlet 121 to transport and collect the aggregate discharged through the aggregate outlet 125 .

The centrifugal rotor 200 is provided under the inlet 111 inside the upper case 110 and is configured to rotate at a constant speed, and the construction waste injected into the inlet 111 is transferred to the upper case 110 by centrifugal force. ) in all directions (vertical direction in which construction waste falls) is configured to be discharged.

Here, the construction waste input to the inlet 111 is discharged in the vertical direction in which the construction waste falls by the centrifugal force of the centrifugal rotor 200. At this time, according to the weight of aggregate and soil contained in the discharged construction waste travel distance will be different. That is, in the equation of F = ma, the magnitude of the force acting on an object constantly moving at a constant velocity is different according to the difference in mass. Therefore, in the case of soil, since it weighs less than the aggregate, the centrifugal force by the centrifugal rotor 200 is small, and the moving distance from the centrifugal rotor is small. A large centrifugal force is generated so that the moving distance from the centrifugal rotor 200 is greater than that of the soil.

More specifically, the centrifugal rotor 200 is provided in a conical shape with a rotating plate 210 to protrude upward from the center of the upper surface of the rotating plate 210, and centrifugal force is applied to the construction waste injected into the inlet 111. The centrifugal separation member 220 for separating and discharging aggregate and soil into aggregate and soil in the upper case 110 in all lateral directions (the vertical direction in which the construction waste falls), and the rotating plate 210 to the outside of the centrifugal separation member 220 ) is coupled radially along the edge, and is configured to include a rotor 230 that generates centrifugal force.

Here, the rotor 230 is a structure for achieving rotation of the centrifugal rotor through conduction of voltage pulses, and the rotation of the centrifugal rotor 200 is rotation using conduction of voltage pulses, motor coupling (eg, centrifugal rotor). It is of course possible to employ various well-known structures such as a motor coupled to the upper or lower end of 200) and rotation using magnetic force. That is, it is sufficient if rotation is generated in the centrifugal rotor 200 to generate more than a certain torque, and centrifugal force is generated accordingly to achieve that construction waste can be discharged in all directions of the rotating rotor.

In addition, the centrifugal rotor 200 may be coupled such that an axis serving as a rotation axis of the centrifugal rotor 200 extends in an up/down direction from the center of the centrifugal separation member 220 through the rotating plate 210 . In addition, the shaft may be exposed to the upper side of the inlet 111 . Alternatively, a wall surface may be configured on the periphery of the device, and the shaft may be rotatably coupled to the wall surface.

The soil collecting hopper 300 is provided on the lower side of the centrifugal rotor 200 inside the lower case 120, and is formed in an upper and lower gorge, and the soil discharged from the centrifugal rotor 200 at the upper end is inputted into the soil inlet ( 310) is formed, and a soil discharge port 320 through which soil is discharged is formed at the bottom, and an aggregate conveying passage 330 through which aggregate discharged from the centrifugal rotor 200 is conveyed is formed between the lower case 120 and the lower case. . In addition, it is preferable to provide a conveyor belt 350 in the soil discharge port 320 to transport and collect the soil discharged through the soil discharge port 320 .

Here, the soil inlet 310 of the soil collection hopper 300 is provided larger than the diameter of the centrifugal rotor 200 and is moved to the outer adjacent portion of the centrifugal rotor 200 by the centrifugal force of the centrifugal rotor 200 and is dropped It is preferable to be configured so that the soil can be input.

The apparatus for separating and collecting soil and aggregate of construction waste according to the present invention configured as described above uses the difference in the mutual movement distance according to the weight difference between the aggregate and the soil discharged by the centrifugal force of the centrifugal rotor 200, so that the soil is transferred to the centrifugal rotor. It is put into the soil inlet 310 of the soil collection hopper 300 located on the lower side of the 200, is discharged to the soil discharge port 320, and is collected, and the aggregate is input into the aggregate conveying passage 330 and the lower case 120 of It is discharged to the aggregate outlet 121 and is configured to be collected.

That is, in the case of soil, since it weighs less than aggregate, the centrifugal force by the centrifugal rotor 200 is small, and the movement distance from the centrifugal rotor is small. It is input to the 310 and discharged to the soil discharge port 320 and collected. And, in the case of aggregate, since the weight is greater than that of the soil, the centrifugal force by the centrifugal rotor 200 is large, and since the moving distance from the centrifugal rotor 200 is moved farther than the soil, after moving to the outside of the soil collection hopper It is input into the aggregate transport passage 330 formed between the soil collection hopper and the lower case, and is discharged and collected through the aggregate discharge port 121 of the lower case 120 .

The separation and recovery device for soil and aggregate of construction waste according to the present invention configured as described above uses a rotating cone-shaped rotor to dispose of falling construction waste in all directions (vertical direction in which construction waste falls) of the centrifugal rotor. Since it is configured to be able to separate the aggregate and the soil by using the change in the mutual movement distance according to the weight difference between the aggregate and the soil, there is an advantage that the recovery rate and recycling of the aggregate can be increased regardless of the moisture content of the aggregate.

Meanwhile, according to the present invention, as shown in FIGS. 4A and 4B , the size of the soil inlet 310 is adjusted in the soil inlet 310 of the soil collection hopper 300 to be injected into the soil inlet 310 . It is preferable that a distance control separation and sorting device 400 that can be separated by adjusting the size of the aggregate input to the soil and aggregate transport passage 330 is further installed.

More specifically, as shown in FIGS. 5A and 5B , the distance control separation and sorting device 400 includes an installation post 410 installed in the center of the soil inlet 310 and the outside of the installation pillar 410 . It is provided with a circular arc shape, and is made of a plurality of size control plates 421 having both ends overlapping each other to form a circle. When the size adjustment plate 421 of the dog is moved to the outside of the installation column, the diameter is increased to adjust the size of the soil inlet 410, the distance control separation plate 420 and the cylinder body 431 are installed It is coupled to the pillar 410 and the cylinder rod 432 is coupled to the inner surface of the size control plate 421, and moves the size control plate 421 by the expansion and contraction of the cylinder rod 432 to adjust the distance separation separation plate ( It is configured to include a plurality of control cylinders 430 for adjusting the diameter of the 420).

And, between the upper end of the size control plate 421 and the upper end of the soil collection hopper 300, the aggregate having elasticity and elasticity to prevent the aggregate from being introduced between the inlet 310 of the soil collection hopper and the size adjustment plate 421 It is preferable that the inflow prevention plate 440 is installed.

Here, the present embodiment is configured to be able to adjust the diameter of the distance control separation plate 420 of the distance control separation and sorting device 400 to correspond to the distance the aggregate is moved by the centrifugal force in the centrifugal rotor 200. , by checking the mass according to the particle size of the aggregate to be sorted from the aggregate included in the input construction waste, and adjusting the diameter of the distance control separation plate 420 to correspond to the moving distance of the aggregate corresponding to the mass, Aggregate having an abnormality of the mass to be sorted moves to the outside of the distance-controlled separation sorting plate 420 and is discharged to the aggregate outlet 125 of the lower case 120 through the aggregate transport passage 320 so that it can be sorted Then, the soil and aggregate having less than the mass to be sorted moves only to the inside of the distance-controlled separation sorting plate 420, and is discharged and collected through the soil inlet 310 of the soil collection hopper 300 and the soil discharge port 320. composed to be

Illustratively, as shown in FIG. 6, when you want to separate aggregates of 30 mm or more from construction waste, the diameter (D1) of the distance-controlled separating plate 420 of the distance-controlled separating and sorting device 400 is changed to the centrifugal rotor 200 ) by centrifugal force, the aggregate having 30 mm or more is adjusted to correspond to the moving distance, and the aggregate having a distance of 30 mm or more moves to the outside of the distance control separation sorting plate 420, and through the aggregate transport passage 320, the lower case 120. The aggregate and soil having a size of 30 mm or less are discharged to the aggregate outlet 121 of It is discharged to the soil discharge port 320 through the collection and is configured to be collected.

And, as shown in FIG. 7, when you want to separate aggregates of 25 mm or more from construction waste, the diameter (D2) of the distance-controlled separating plate 420 of the distance-controlled separating and sorting device 400 is measured in the centrifugal rotor 200. Adjusted smaller than Figure 6 to correspond to the distance at which aggregates of 25 mm or more are moved by centrifugal force, and aggregates having 25 mm or more are moved to the outside of the distance control separation sorting plate 420, and through the aggregate transport passage 320, the lower case ( 120) is discharged to the aggregate outlet 121 and configured to be sorted, and aggregate and soil having 25 mm or less are moved to the inside of the distance control separation sorting plate 420, and then the soil inlet of the soil collection hopper 300 ( It is discharged to the soil discharge port 320 through 310) and is configured to be collected.

And, as shown in FIG. 8, when it is desired to separate aggregates of 20 mm or more from construction waste, the diameter D3 of the distance-controlled separation plate 420 of the distance-controlled separation and sorting device 400 is measured in the centrifugal rotor 200. By adjusting the size smaller than that of Figure 7 to correspond to the distance at which aggregates of 20 mm or more are moved by centrifugal force, the aggregates having 20 mm or more are moved to the outside of the distance-controlled separation sorting plate 420, and through the aggregate transport passage 320, the lower case It is discharged to the aggregate outlet 121 of 120 and configured to be sorted, and the aggregate and soil having a size of 20 mm or less are moved to the inside of the distance-controlled separation sorting plate 420, and then the soil inlet of the soil collection hopper 300 It is discharged to the soil discharge port 320 through the 310 and is configured to be collected.

As such, this embodiment confirms the mass according to the particle size of the aggregate to be sorted from the aggregate included in the construction waste, and adjusts the diameter of the distance control separation plate to correspond to the distance that the aggregate corresponding to the mass moves, Since the aggregate collection area can be adjusted to correspond to the movement distance according to the weight of the aggregate, it is possible to perform a sorting operation according to the particle size of the aggregate, thereby increasing the recycling rate of the aggregate.

In the above, the present invention has been shown and described in relation to specific embodiments, but it is easy for anyone with ordinary knowledge that various modifications and changes can be made without departing from the spirit and scope of the invention indicated by the claims. you will know

100: body 200: centrifugal rotor
300: soil collection hopper

Claims (4)

An inlet into which construction waste is put is formed at the upper end, and an upper case having a moving space inside to separate aggregate and soil and moving is provided, and an aggregate outlet that is coupled to the lower end of the upper case and is formed in a sanggwang lower gorge, and aggregates are discharged at the lower end. A main body consisting of a lower case in which is formed, and provided under the inlet inside the upper case and configured to rotate at a constant speed, the construction waste injected into the inlet is moved in the upper case in all directions (construction waste) by centrifugal force. a centrifugal rotor configured to discharge in the vertical direction of the fall), and a soil inlet through which the soil discharged from the centrifugal rotor is put at the upper end is formed in the lower case and is provided on the lower side of the centrifugal rotor in the lower case, It is configured to include a soil collecting hopper having a soil discharge port through which soil is discharged and an aggregate conveying path through which aggregate discharged from the centrifugal rotor is transferred between the lower case and the lower case, and is discharged by the centrifugal force of the centrifugal rotor. Using the difference in the mutual movement distance according to the weight difference between the aggregate and the soil, the soil is put into the soil inlet of the soil collection hopper located at the lower side of the centrifugal rotor and discharged to the soil discharge port to be collected. It is configured to be discharged and collected through the aggregate outlet of the case,
In the soil inlet of the soil collection hopper, a distance control separation and sorting device that can be separated by adjusting the size of the soil input to the soil inlet and the aggregate input to the aggregate transport passage by adjusting the size of the soil inlet is further installed,
The distance control separation and sorting device includes an installation column installed in the center of the soil inlet,
It is provided on the outside of the installation pole and is formed in an arc shape, and its both ends are overlapped with each other to form a plurality of size control plates to form a circle. When moving to the outside of the installation column, the diameter is increased to adjust the size of the soil inlet, and a separation plate for distance control;
The cylinder body is coupled to the installation column and the cylinder rod is coupled to the inner surface of the size control plate, and a plurality of control cylinders for adjusting the diameter of the distance control separation plate by moving the size control plate by expansion and contraction of the cylinder rod. Separation and recovery device for soil and aggregate of construction waste, characterized in that it is configured to
According to claim 1,
The centrifugal rotor is
rotating plate,
It is provided in a cone shape and protrudes upward from the center of the upper surface of the rotating plate, and centrifugal force is applied to the construction waste injected into the inlet. a centrifugal separation member to
Separation and recovery apparatus for soil and aggregate of construction waste, characterized in that it comprises a rotor coupled to the outside of the centrifugal separation member radially along the edge of the rotating plate, generating a centrifugal force.
delete According to claim 1,
Between the upper end of the size control plate and the upper end of the soil collection hopper, an aggregate inflow prevention plate having elasticity and elasticity for preventing aggregate from flowing between the inlet of the soil collection hopper and the size adjustment plate is further installed. and a separation and recovery device for aggregates.

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