KR102597523B1 - the dry circulation fine aggregate production equipment with a superior differentiation selection of the air circulation mode - Google Patents

Abstract

The present invention relates to a dry recycled fine aggregate production device and production method that is excellent in fine powder selection by air circulation. More specifically, the present invention relates to a dry recycled fine aggregate production device and production method, and more specifically, to a dry recycled fine aggregate produced through intermediate construction waste treatment processes such as crushing and sorting. Not only does it allow fine powder and fine foreign matter to be easily removed by passing through a plurality of rotating spray plates rather than a fixed type, but the fine powder and fine foreign matter collected by the cyclone are once again guided to the dust collector through a multi-cyclone. This relates to a dry circulating fine aggregate production device with excellent fines selection using an air circulation method that allows for smooth operation.

Description

Dry circulation fine aggregate production equipment with a superior differentiation selection of the air circulation mode}

The present invention relates to a dry recycled fine aggregate production device and production method that is excellent in fine powder selection by air circulation. More specifically, the present invention relates to a dry recycled fine aggregate production device and production method, and more specifically, to a dry recycled fine aggregate produced through intermediate construction waste treatment processes such as crushing and sorting. It not only allows fine powder and fine foreign matter to be easily separated by passing through a plurality of rotating spray plates rather than a fixed type, but also guides the fine powder and fine foreign matter collected by the cyclone to the dust collector through a multi-cyclone once more. This relates to a dry circulating fine aggregate production device with excellent fines selection using an air circulation method that operates smoothly and removes fines.

In general, a lot of construction waste is discharged during the demolition of buildings or civil structures, and landfilling of such construction waste has limitations and causes environmental pollution problems. Therefore, not only is illegal landfilling of construction waste prohibited, but it is also highly recommended to separate or process necessary aggregates for recycling.

In particular, construction waste contains a large amount of concrete lumps mixed with sand and gravel, reinforcing bars, electrical wiring, paper, vinyl, and plastics. In order to recycle such construction waste, large lumps of concrete must be finely shredded and sorted by size. Reinforcing bars, electrical wiring, paper, vinyl, plastics, etc. must be selected separately.

As a processing device that separates foreign substances contained in crushed concrete to obtain recyclable aggregates, a wet processing device and a dry processing device are used depending on the medium for selecting the aggregate and foreign substances contained in the aggregate.

An example of this technology is disclosed in Document 1 below.

Patent Document 1 below includes a hopper and a vibrating feeder for inputting, storing, and supplying raw materials of construction waste; A dry screen that first removes soil dust from the raw materials supplied from the vibrating feeder using a two-stage dry vibrating screen with a 100 mm to 200 mm scale at the top and a 20 mm to 50 mm scale at the bottom, and waste concrete from which the earth dust was removed from the dry screen. A jaw crusher, which is a compression crusher that first crushes foreign substances by removing foreign substances during transportation on a conveyor, a feeder that supplies the crushed waste concrete to a belt, a fan that removes secondary foreign substances by wind power during the supply process, and a magnetic material. A second dry screen removes the secondary soil by combining the foreign substances removed by the belt strainer and the residual matter that has passed through the bottom of the dry screen, and the second dry screen filters out the dry screen to make magnetic substances by wind and magnetism. A fan and magnetic separator device to remove; It consists of a dehydrator that dehydrates the foreign substances removed by the wet floating technique by putting the foreign substances such as earth dust and magnetic substances removed into a sorting machine, which is a wet foreign matter remover, and a dehydrator that dehydrates the moisture of the waste concrete intermediate raw material from which the foreign substances were removed by wet method. A sorting device and a cone crusher or double jaw crusher that crushes the intermediate raw materials by secondary compression after dehydration, and a tertiary compression crusher that feeds and transports the secondary crushes from the above step to a belt with a feeder and crushes them; After removing the magnetic material from the tertiary shredded material using a tertiary magnetic device, the upper part of the wet vibrating screen is equipped with a 13 mm to 17 nm screen and the lower part is equipped with a 4 mm to 6 mm screen, and the two-stage wet filtering screen is placed into a wet vibrating screen equipped with a sprinkler device. The vibrating screen and the remaining particles that pass through the upper part of the screen are sent to a sorting machine for reprocessing, and the particles that remain at the bottom and pass through are further removed using wind power and the third fan is used to remove foreign substances. In the roll crusher, which crushes the crushed material in two stages using four rolls, the material is compressed into pieces of 4 mm to 6 mm or less, and the material transferred after being crushed in the above step is removed from the magnetic material by a fourth magnetic device, and then centrifugal force is applied to the anvil. Vertical Shaft Impact Crusher, which is an excellent stone and metal polishing granular shape improver that has polishing and exfoliation effects by hitting, and the granular shape improved by polishing and peeling with the Vertical Sharp Impact Crusher in the above step are injected into the bottom of the wet vibrating screen and filtered to 4 mm that passed through the screen. The multiple crash fire transports and classifies the slurry of particles of 6 mm or less to 0 mm, and the multiple crash fire of sand and muddy water in the slurry of particles of 6 mm or less transferred in the above step buckets the assemblers with a spiral screw in the slurry tank. It is moved to the wheel, and the classification point is 150 mesh to 200 mesh. The recycled sand is picked up with a bucket wheel, dehydrated, and discharged as fine recycled aggregate. The sludge and muddy water generated during the classification process is turned over with a screw to suspend fine foreign substances and the sludge and muddy water are mixed. Likewise, a collection tank and a pump device that collect and transport the sludge through the discharge port at the rear of the slurry tank, a coagulant is injected into the sludge muddy water transferred in the above step with an automatic control dispenser, and a Sikhna that coagulates and concentrates the sludge by stirring and reacting, and a pipe that collects and concentrates the sludge in the above step. A filter press that extracts a certain amount of the concentrated sludge stored in the above step and dehydrates it to make a cake, and the water filtered in the dehydration process of the filter press in the above step and the water purified in Sicna can be recovered and reused. Manufacture of recycled aggregates using construction waste, which includes a make-up water tank, a control room equipped with a device to automatically control the machines and equipment of the previous stage, and a plurality of belt conveyors to transport raw materials connecting each machine and device. The device is disclosed.

However, most of the conventional technologies as described above produce recycled fine aggregate using a wet method, and include a watering vibrating screen, fine foreign matter classifier, classifier, dewatering screen, cyclone, water sump, thickener, chemical tank, and sludge storage. As additional facilities such as filter presses must be installed, the initial investment cost is too high, and the cost burden is too large as a large site is required to install these facilities.

Therefore, in the upper part of Patent Document 2 shown in FIG. 1, an inlet through which recycled aggregate is input, a blower through which a blower communicates, and a fine powder outlet through which fine powder and fine foreign matter are discharged are formed, respectively, and a product outlet through which recycled fine aggregate is discharged is formed at the bottom. With the main body; a peeling portion formed inside the main body and causing the recycled aggregate injected through the inlet to collide while freely falling, thereby peeling off the mortar contained in the recycled aggregate; a blower installed in communication with the blower to blow air toward the peeling portion to discharge fine powder and fine foreign matter to the fine powder discharge portion; a disc sorting unit installed in communication with the fine powder discharge unit 13 to separate and select the circulating fine aggregate including fine powder and fine foreign substances moved upward by the blowing pressure of the blower according to particle size and specific gravity; It includes a plurality of cyclones for collecting and discharging fine powder and fine foreign matter inside the disc sorting unit, wherein the disc sorting unit is installed inside the fine powder discharge unit and has inlets on both sides and an outlet through which circulating fine aggregate is discharged at the bottom. A separation chamber is formed, a rotor coupled to a rotation shaft rotatably installed by a driving unit installed on the top of the separation chamber, a turntable that rotates in conjunction with the rotation shaft, and a plurality of disks stacked on the turntable at regular intervals. An air circulation type dry circulation fine aggregate production device comprising:

Patent Document 2 shows that when the circulating fine aggregate falling through the inlet hits the dispersion guide plate 210, primary contact and friction occur, and then the circulated fine aggregate is dispersed by the dispersion guide plate 210 and air blowing. Collisions between particles occur, and due to such friction and collisions between particles, the mortar attached to the surface of the particles is peeled off, but the fine powder attached to the fine aggregate cannot be completely separated.

In other words, when fine aggregates fall on a fixed dispersion guide plate, not only is the falling gravity weak, but the pressure they collide with each other is also weak, making it difficult to completely separate the fines.

Therefore, a phenomenon occurred in which fine powder and fine foreign matter did not reach the rotor to which the disk was attached due to wind power, but were discharged directly to the outlet.

In addition, Patent Document 3 was disclosed as another technology, but as shown in FIG. 2, Patent Document 3 also uses the dispersion guide plate, which is the technology of Patent Document 2, and at the same time prevents fine particles from stagnating and sticking to the disk plate. In order to smoothly guide the inside of the rotor, the first and second air pulses were installed, but it was not able to completely separate the fine powder and fine foreign matter contained in the circulating fine aggregate fed through the inlet.

Republic of Korea Patent No. 10-0497318 Republic of Korea Patent No. 10-1523635 Republic of Korea Patent No. 10-1884797

The present invention was developed to solve the above problems. The recycled fine aggregate fed into the inlet freely falls and collides, causing not only the mortar contained in the recycled fine aggregate to be peeled off, but also the falling recycled fine aggregate to be placed at regular intervals within the main body. The purpose is to completely separate the fine powder and fine foreign matter contained in the circulated fine aggregate when it collides with the rotating rotating spray plate.

In addition, the present invention allows the fine powder and fine foreign matter separated from the recycled fine aggregate to be sequentially guided to the dust collector by passing through the multi-cyclone again, rather than being directly guided to the dust collector through the cyclone, so that the fine particles are more concentrated in the cyclone. The purpose is to facilitate the removal of fine powder by allowing the dust collector to operate smoothly even if it is collected.

In order to achieve the above object, the configuration of the air circulation type fine powder separation device included in the aggregate according to the present invention will be described in detail with reference to the drawings as follows.

As shown in FIG. 3, the configuration of the dry circulating fine aggregate production device with excellent selection of air circulation fine powder contained in the aggregate according to the present invention is to separate and select the circulated aggregate introduced therein according to particle size and specific gravity using blowing pressure. A main body (1) that discharges the powder through the fine powder discharge section (13) and the product discharge port (14), respectively,

A peeling portion (2) formed inside the main body (1) to peel off the mortar contained in the recycled fine aggregate,

A disk sorting part (4) installed in a communication manner in the fine distribution part (13) to separate and sort the circulating aggregate moved upward by the blowing pressure of the blower (3) according to particle size and specific gravity;

A plurality of cyclones (5) that collect and discharge fine powder and fine foreign substances inside the disc sorting unit (4),

It is configured to include a dust collector (7) for guiding and removing fine powder and fine foreign matter collected in the cyclone (5),

Inside the peeling unit 2, there is a rotating spray plate 21 for separating fine powder and fine foreign matter contained in the recycled fine aggregate, and a disk for separating the fine powder and fine foreign matter separated by the rotating spray plate 21. A differential guidance plate (22) for guiding the selection unit (4),

It is characterized by further including a multi-cyclone (6) between the cyclone (5) and the dust collector (7).

In addition, the present invention is characterized in that the rotary spray plate 21 is configured to rotate at high speed by high-pressure blowing air sprayed from the blower 3.

In addition, the present invention is characterized in that the rotary spray plate 21 is composed of 4 to 8 spray plates 211.

In addition, the present invention is characterized in that the rotary spray plate 21 is installed at the lower part of the inlet 11, and is configured as a double installation.

In addition, the present invention is characterized in that the multi-cyclone (6) is formed by forming a plurality of cyclone units (61) therein.

The present invention, which has the characteristics described above, is that the recycled fine aggregate introduced into the inlet falls freely and is struck by a collision, or is included in the recycled fine aggregate while rotating by hitting a rotating spray plate that rotates by the blowing pressure of the blower inside the main body. It is effective in completely separating fine powder and fine foreign substances.

Therefore, the present invention has the effect of producing excellent quality aggregate because the fine fraction contained in the recycled fine aggregate is excellent.

In addition, the present invention is configured to further install a multi-cyclone between the cyclone and the dust collector to solve the problem of the dust collector not operating smoothly due to the large amount of fine powder and fine foreign matter collected by the cyclone, thereby removing fine powder and fine foreign matter. It has the effect of increasing function.

Figures 1 and 2 are overall diagrams showing a conventional air circulation dry circulating fine aggregate production apparatus.
Figure 3 is a diagram illustrating a dry circulating fine aggregate production device with excellent fine powder selection using the air circulation method according to the present invention.
Figure 4 is an overall view showing a cyclone, a multi-cyclone, and a dust collector in the dry circulating fine aggregate production device with excellent fine powder selection in the air circulation method according to the present invention.

The present invention will be described in detail with reference to the attached drawings as follows. Here, repetitive descriptions and detailed descriptions of well-known functions and configurations that may unnecessarily obscure the gist of the present invention are omitted. Embodiments of the present invention are provided to fully explain the present invention to those skilled in the art. Accordingly, the shapes and sizes of elements in the drawings may be exaggerated for clearer explanation.

Throughout the specification, when a part is said to “include” a certain component, this means that it may further include other components rather than excluding other components, unless specifically stated to the contrary.

Below, preferred embodiments are presented to aid understanding of the present invention. However, the following examples are provided only for easier understanding of the present invention, and the content of the present invention is not limited by the examples.

The main components of the dry circulating fine aggregate production device, which is excellent in sorting the fines contained in the aggregate through air circulation according to the present invention, include a main body 1 for inputting the aggregate and separating fines and foreign substances, and the inside of the main body 1. A peeling unit (2) that peels off the mortar contained in the recycled aggregate fed into the recycled aggregate, a disk sorting unit (4) that separates the fine powder and fine foreign matter from the peeled fine powder by the blowing pressure of the blower (3), and a disc sorting unit (4) that separates the fine powder and fine foreign matter from the peeled fine powder. It is composed of a cyclone (5), a multi-cyclone (6), and a dust collector (7) to collect.

The present invention according to the above main configuration will be described in detail step by step with drawings as follows.

As shown in FIG. 3, the dry circulating fine aggregate production device with excellent fine powder selection in the air circulation method according to the present invention includes an inlet 11 through which the recycled aggregate is injected at the top and a blower 12 through which the blower 3 communicates. It consists of a main body (1) in which fine powder discharge portions 13 through which fine powder and fine foreign matter are discharged are formed, and a product discharge port 14 through which circulating fine aggregate is discharged is formed at the lower portion.

It is formed inside the main body (1) and consists of a peeling portion (2) that causes the recycled aggregate injected through the inlet (11) to collide while freely falling, thereby peeling off the mortar contained in the recycled aggregate.

It consists of a blower (3) installed in communication with the blower (3) and blowing air at high pressure toward the peeling part (2) to discharge fine powder and fine foreign substances to the fine powder discharge part (13). At this time, the wind volume of the blower is 6.5M ³ and the wind speed is 9.1m/s to 15m/s.

It consists of a disk sorting unit (4) installed in communication with the fine powder discharge unit (13) to separate and select the circulating fine aggregate including fine powder and fine foreign substances moved upward by the blowing pressure of the blower (3).

It is composed of a plurality of cyclones (5) that collect and discharge fine powder and fine foreign substances inside the disc sorting unit (4).

In addition, the peeling unit 2 is provided with a plurality of rotating spray plates 21 that rotate at high speed by the blowing pressure sprayed from the blower 3 at regular intervals inside the main body 1, The rotary spray plate 21 is composed of 4 to 8 spray plates 211 and is configured to rotate. However, in the present invention, six spray plates 211 are formed and configured to rotate.

If the number of spray plates 211 is 4 or less, the area where the recycled fine aggregate hits the spray plate 211 is small, so the separation of fine powder and foreign matter is not complete. If there are more than 8, the recycled fine aggregate hits the spray plate 211 and rotates. This is because there is a problem in that the separation efficiency of fine powder is low because it falls as it is without doing so.

In addition, the rotary spray plate 21 is installed at the lower part of the inlet 11, and is configured as a double installation. The above-mentioned double is configured by installing rotary injection plates 21 in two rows at the front and rear.

At this time, three to four rotary spray plates (21) are installed vertically at the front and rear, respectively, so that the circulating fine aggregate falling through the inlet (11) hits the rotary spray plate (21) with a large area, causing friction. It is designed to completely separate fine powder and foreign substances.

And it includes a fine powder guide plate 22 that is arranged to cross the rotary spray plate 21 and guides the mortar, fine powder, and fine foreign matter separated by the rotary spray plate 21 toward the fine powder discharge unit 13. It is composed by:

At this time, the differential induction plate 22 is also configured by installing a plurality opposite the rotating spray plate 21.

In addition, the disc sorting unit 4 is installed inside the fine distribution unit 13 and has an inlet 411 on both sides, and a separation chamber 41 with an outlet 412 at the bottom through which the circulating fine aggregate is discharged. ), a rotor 44 coupled to a rotary shaft 43 rotatably installed by a driving unit 42 installed on the upper part of the separation chamber 41, and a turntable 45 that rotates in conjunction with the rotating shaft 43. It consists of

In addition, a plurality of guide plates 431 are attached to the lower outer surface of the rotating shaft 43 to support the rotor 44 to rotate stably and to guide the circulating fine aggregate to the outlet 412 of the separation chamber 41. do.

In addition, the fine powder and fine foreign matter separated in the disk sorting unit 4 are configured to be collected by the cyclone 5 through the flow path 413.

At this time, the rotation speed of the disk selection unit 4 is based on about 150 rpm, but the rotation speed can be between about 100 and 200 rpm depending on variable conditions.

And the fine powder and fine foreign matter collected by the cyclone (5) are configured to be guided once again to the multi-cyclone (6).

The fine powder and fine foreign matter collected by the multi-cyclone (6) are collected in a plurality of cyclone units (61) installed inside the multi-cyclone (6) and sequentially guided to the dust collector (7), thereby operating the dust collector (7). It is designed to operate smoothly without any load and remove fine powder and fine foreign substances.

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

As shown in Figures 3 and 4, the air circulation type fine separation device included in the aggregate according to the present invention includes a main body (1), a peeling unit (2), a blower (3), and a disk sorting unit (4). , includes a cyclone (5), a multi-cyclone (6), and a dust collector (7).

The main body 1 has an inlet 11 through which the circulating fine aggregate is introduced at the top, a blower 12 through which the blower 3 communicates, and a fine powder discharge section 13 through which fine powder and fine foreign substances are discharged, respectively, and circulated at the bottom. A product outlet 14 through which fine aggregate is discharged is formed.

The blower (3) connected to the blower (12) formed on one upper side of the main body (1) has a structure that blows air toward the peeling part (2), and this structure generates a strong eddy current, thereby blowing air into the circulating fine aggregate. While the attached mortar is peeled off, fine powder and fine foreign substances pass between the fine powder guiding plate 22 of the peeling unit 2 and are moved upward to the disc sorting unit 4.

The fine distribution unit 13 is formed in the form of a hopper and is larger than the disk selection unit 4 so that the disc selection unit 4 is embedded therein, and is formed in a space created between the disc selection unit 4 and the disc selection unit 4. Circulating fine aggregate, including fine powder and fine foreign matter, flows into the peeling portion 2 and the wind action. Circulating fine aggregate with particles of 5 mm or less and fines with particles of 0.075 mm or less move upward in the fine powder discharge unit 13.

The peeling portion 2 is formed inside the main body 1, and the recycled aggregate injected through the inlet 11 collides while free falling, thereby peeling off the mortar contained in the recycled aggregate.

The peeling portion (2) includes a rotary spray plate (21) that rotates at high speed under the pressure of the blower (3) at a certain interval inside the main body (1), and the rotary spray plate (21) and each other. It is configured to include a fine powder guide plate 22 that is arranged crosswise and guides the mortar, fine powder, and fine foreign matter separated by the rotating spray plate 21 toward the fine powder discharge unit 13.

The number and angle of the rotating spray plate 21 and the fine powder guide plate 22 can be changed depending on the design conditions according to various parameters such as the specific gravity and properties of the input raw materials, the degree of pneumatic pressure, and the processing capacity. This is not limited.

In this way, the recycled aggregates with different particle sizes and specific gravity are injected through the inlet 11 and simultaneously fall to the rotating spray plate 21, causing primary contact and friction, and then the rotating spray plate 21. By the rotation of (21), the recycled fine aggregate rotates and strikes the spray plate 211, causing friction, and the fine powder and fine foreign matter contained in the recycled fine aggregate are separated.

That is, the circulating fine aggregate dispersed by rotating on the rotary spray plate 21 by high-speed air blowing causes collisions between particles. Due to this friction and collisions between particles, the mortar attached to the surface of the particles is peeled off, causing peeling. The resulting mortar moves upward toward the disc sorting unit (4) together with the circulating fine aggregate whose particle size and specific gravity have become smaller due to the rapid action of wind power and the fine pulverization guide plate (22).

In particular, the fine powder and fine foreign matter generated when the circulating fine aggregate collides are light, so they cannot be discharged through the product discharge port (14) due to the influence of the rotating spray plate (21), the fine powder guide plate (22), and the wind action, and are along with the air current. It moves upward in the direction of the disk selection unit (4).

Meanwhile, particles of relatively large size or recycled aggregate with a large specific gravity fall first and are discharged first through the product discharge port 14. The reason why the separation of the particle surface can be smoothly achieved due to the friction of the recycled aggregate and the collision between particles is because the production method is a dry process rather than a wet process. In the case of the wet process, stress with water occurs, causing various types of stress on the surface. Under certain circumstances, a force greater than stress is required to remove the mortar attached to the recycled fine aggregate, but in the case of the dry process, since water is not used, basic peeling is possible with minimal force.

The blower (3) is installed in communication with the blower (12) and blows air toward the peeling portion (2) while maintaining a temperature of 35°C to 45°C to remove fine powder and fine foreign matter to the fine powder discharge portion (13). Let it out. At this time, if the air temperature is below 35°C, it is difficult to evaporate the moisture contained in the aggregate, and if the air temperature is above 45°C, there is a problem in that a large amount of heat loss occurs.

The blower (3) blows air into the main body (1) at a constant speed, and the wind power must be designed in consideration of the processing capacity of the device and the specific gravity of the input aggregate, and the limit range is preferably 50 to 300 horsepower. At this time, the wind volume of the blower is 6.5M ³ and the wind speed is 9.1m/s to 15m/s.

The disk sorting unit (4) is installed in communication with the fine powder discharge unit (13) to separate and select the circulating fine aggregate including fine powder and fine foreign substances moved upward by the blowing pressure of the blower (3) according to particle size and specific gravity. do.

The disc sorting unit 4 is installed inside the fine discharge unit 13 and includes a separation chamber 41 having inlets 411 on both sides and an outlet 412 at the bottom through which the circulating fine aggregate is discharged, It consists of a rotor 44 coupled to a rotating shaft 43 rotatably installed by a driving unit 42 installed on the upper part of the separation chamber 41, and a turntable 45 that rotates in conjunction with the rotating shaft 43. .

Each flow path 413 communicating with a plurality of cyclones 5 is formed in the upper part of the separation chamber 41. Accordingly, the fine powder and fine foreign matter separated from the circulating fine aggregate including fine powder and fine foreign matter introduced through the inlet 411 of the separation chamber 41 are discharged to the cyclone 5 through the passage 413.

It is preferable that a plurality of guide plates 431 are coupled to the lower outer surface of the rotating shaft 43 to support the rotor 44 to rotate stably and to guide the circulating fine aggregate to the outlet 412 of the separation chamber 41. .

In order to rotate the rotor 44, the rotation shaft 43, which is connected to the motor of the driving unit 42 and the pulley, is located in the center of the rotor 44 so that the rotor 44 can rotate stably, and the inverter method is used. By adopting this, it is possible to increase or decrease the speed of the rotor 44. At this time, the rotation speed of the disk selection unit 4 is based on about 150 rpm, but the rotation speed can be between about 100 and 200 rpm depending on variable conditions.

The turntable 45 is coupled to the lower end of the rotation shaft 43 and rotates in conjunction with the rotation shaft 43, which is rotated by the driving unit 42. A plurality of vertical supports 451 are installed on the top of the turntable 45.

The rotor 44 configured as described above serves to improve performance efficiency by re-separating and selecting the circulating fine aggregate, including fine powder and fine foreign matter, moved upward with the airflow by the peeling portion 2 and the wind action. Additional installation is possible depending on the specific gravity of recycled aggregate, processing capacity, etc.

Even if the recycled fine aggregate, which has a relatively large particle size and specific gravity compared to fine powder and fine foreign matter, arrives at the separation chamber 41 together with the air flow, the driving force of the air flow only reaches the bottom of the outer wall of the rotor 44 and is not attached to the rotor 44. It hits and is discharged through the discharge port 412 due to impact.

If some circulating fine aggregate is input into the separation chamber 41, the driving force of the airflow caused by wind power is lost during the input process and falls into the rotor 44, which falls into the guide plate mounted inside the rotor 44. It is discharged to the outlet 412 through (431) to produce high-quality recycled fine aggregate.

At this time, the fine powder and fine foreign matter are most affected by the air flow caused by wind power and naturally enter the rotor 44. The fine powder and fine foreign matter that enters in this way are each injected into the four cyclones 5, thereby discharging other discharge parts. It is discharged through.

And the 0.075mm to 10mm recycled aggregate that has passed through the rotor (44) is discharged to the product discharge port (14) formed at the bottom of the main body (1), and the fine powder of 0.075mm or less flows into the four cyclones (5) and is collected. It will be done.

As described above, when the fine dust and fine foreign matter collected by the cyclone (5) are directly guided to the dust collector (7) and removed, too much fine dust flows into the interior of the dust collector (7), causing the dust collector (7) to operate smoothly. In order to solve the problem of low fine powder removal efficiency due to inability to operate properly, the fine powder and fine foreign matter collected by the cyclone (5) are once again flowed into the multi-cyclone (6) and into the plurality of cyclone units (61) inside. By sequentially guiding the collected fine powder to the dust collector (7), the operation efficiency of the dust collector (7) is increased and the fine powder removal function is increased.

The present invention has been described with reference to the accompanying drawings, focusing on preferred embodiments, but it is clear to those skilled in the art that many obvious modifications can be made from this description without departing from the scope of the present invention. Accordingly, the scope of the present invention should be construed by the appended claims to include examples of many such modifications.

1: Main body 11: Inlet
12: blower 13: differential discharge unit
14: Product outlet
2: Peeling part
21: Rotating spray plate 211. Spray plate
22: Differential induction plate
3: Blower
4: Disk selection unit
41: separation chamber, 411: inlet, 412: outlet, 413: flow path
42: driving unit 43: rotation shaft
431: Guide plate 44: Rotor
45: Turntable 451: Vertical support
46: screen bar 47: reinforcement bar
441. Tonggong
5. Cyclone
6. Multicyclone 61. Cyclone Department
7. Dust collector

Claims (5)

A main body (1) that separates and selects the recycled aggregates inputted therein according to particle size and specific gravity using blowing pressure and discharges them through the fine powder discharge section (13) and the product discharge port (14), respectively;
A peeling portion (2) formed inside the main body (1) to peel off the mortar contained in the recycled aggregate,
A disk sorting part (4) installed in a communication manner in the fine distribution part (13) to separate and sort the circulating aggregate moved upward by the blowing pressure of the blower (3) according to particle size and specific gravity;
In the dry circulating fine aggregate production device consisting of a plurality of cyclones (5) that collect and discharge fine powder and fine foreign matter inside the disc sorting unit (4),
The inside of the peeling part (2) is formed with 4 to 8 spray plates (211) installed at the bottom to separate fine powder and fine foreign matter contained in the recycled fine aggregate, and the rotating spray plates (21) are installed in two rows. class,
a fine powder guide plate (22) for guiding the fine powder and fine foreign matter separated by the rotating spray plate (21) to the disk sorting unit (4);
A dust collector (7) for guiding and removing fine powder and fine foreign matter collected in the cyclone (5);
A multi-cyclone (6) is further included between the cyclone (5) and the dust collector (7),
The blower (3) is configured to blow air toward the peeling portion (2) while maintaining a temperature of 35°C to 45°C. According to clause 1,
The rotary spray plate (21) is configured to rotate at high speed by high-pressure blowing from the blower (3). delete delete According to clause 1,
The multi-cyclone (6) is a dry circulation fine aggregate production device with excellent fine powder selection in the air circulation method, characterized in that the multi-cyclone (6) is formed by forming a plurality of cyclone units (61) inside.