KR100801590B1 - Fine foreign material separating device and method - Google Patents

Abstract

The present invention relates to a fine foreign matter separating apparatus and a method thereof, the object of which is applicable to the separation of fine foreign matter contained in the waste in order to process and recycle the waste generated in the workplace or construction sites, and in particular screening in the primary sorting device In order to separate the fine foreign matter from the small sized waste, the drive material of the device that sorts the waste again is made of ultra high-molecular PE screen and rotates at high speed to use the drive type screen to sort the waste. Even if a large amount of waste is driven at high speed for processing, the load of the motor is small and the drive body is not damaged by the waste, so that continuous work is possible, and even when sorting waste with high moisture content, it can be sorted out smoothly without sticking or clogging. So fine foreign matter smoothly in small sized waste To provide a separating apparatus and method.

The configuration of the present invention is a device for separating fine foreign matter contained in the waste generated in the workplace or construction site, the ultra-high molecular PE screen (1) into which the small-sized waste of the primary screening (selection device) is injected; A discharge conveyor 1 (2) installed to cross the lower portion of the ultra high molecular PE screen (1) to transfer and discharge waste of a predetermined size or more passing through the ultra high molecular PE screen (1); A discharge conveyor 2 (3) installed to cross the end of the discharge conveyor 1 (2) to transfer and discharge the waste from which foreign substances have been removed; A lower conveyor (4) installed at the lower portion of the ultra high molecular PE screen (1) to transfer wastes having a predetermined size or less dropped to the lower high molecular PE screen (1); Suction and separating fine foreign matter from the waste dropped into the lower conveyor by installing a suction nozzle 52 of the blower, and sucks the separation of foreign matter from the waste falling through the ultra-high molecular PE screen to the end of the discharge conveyor 1 (2). It is mixed through the nozzle and rotated downward to be separated into the garbage box (6), and the remaining air is circulated through the blower 51 through the upper passage through the discharge nozzle 53, fine foreign matter separation device of the way to separate the foreign matter and The separation method is characterized by the technical idea.

Fine foreign substance, ultra high molecular PE screen, sorting equipment, waste

Description

Apparatus for removing impurity and removing method

1 is a schematic plan view of a fine foreign matter separating apparatus according to the present invention,

Figure 2 is a schematic side view of a fine foreign matter separating apparatus according to the present invention,

3 is a schematic plan view showing the bonding structure of the ultra-high molecular PE screen of the present invention,

Figure 4 is a plan view applied to the intermediate treatment facility of construction waste, such as a rubber net trommel sorting device in one embodiment the fine foreign matter separation device of the present invention,

Figure 5 is a plan view showing another embodiment of the construction waste intermediate treatment facility to which the fine foreign matter separation apparatus of the present invention is applied,

Figure 6 is a plan view showing another embodiment to which the fine foreign matter separating apparatus of the present invention is applied.

<Description of the symbols for the main parts of the drawings>

(1): Ultra high molecular PE screen (2): Discharge conveyor 1

(3): Discharge Conveyor 2 (4): Lower Conveyor

(5): eccentric cyclone (51): blower

(52): suction nozzle (53): discharge nozzle

The present invention relates to a device for separating fine foreign matters and a method thereof, and in detail, a screen type of driving method is used as a disk of ultra-high molecular PE material in order to separate the foreign matters by separating the small-sized waste of primary size. Method to separate fine foreign matters with low load of motor, no damage to driving body due to waste, no seizure or blockage by waste with high moisture content, excellent sorting efficiency, and easy separation of fine foreign matters with suction and exhaust wind Relates to a device.

With the existing technology, the screen used for sorting waste of small size is equipped with a rubber net on the vibrating screen that sorts waste by vibration by vibrating device in a small area. Vibration decreases due to the self-elasticity of the rubber, which causes poor selection.

Urethane rubber nets made of urethane screens with vibrating screens are manufactured in small sizes by molds, making them difficult to install, reducing costs, and reducing screening areas. There is,

In addition, in the case of using the steel mesh has a problem that can not exhibit the continuity of work due to clogging phenomenon due to foreign matter (thread, feeder, etc.) or small waste is not selected due to clogging phenomenon.

On the other hand, there is a disk screen in addition to the vibrating screen made of a rubber net or steel mesh as described above, the structure of the disk screen is provided with a plurality of shafts that rotate by power transmission, and a plurality of disc screens are vertically inserted into each shaft Fixed and rotated structure, the waste is put in the upper direction and the waste of more than a certain size is collided with the disk and sorted, less than a certain size, that is, the distance between the disk and the disk inserted in the disk, and the distance between the adjacent shaft Small-sized waste is configured to be discharged to the bottom for sorting.

However, such a conventional disk screen has a heavy weight of the used steel disk (hexagon), so the load is generated at high speed, and the damage caused by foreign substances (steel, etc.) contained in the waste is used for the purpose of sorting and treating household waste. Has little problem in use, but it has a limitation in treating heavy construction waste.

An object of the present invention for solving the above problems is a technology that can be applied to the separation of fine foreign matter contained in the small-sized waste of high water content or high foreign matter content among wastes generated in the workplace or construction sites waste as a drive-type screen When sorting, the weight of the driving body is light, so the motor load is small and many wastes are processed in a small area, and even if driving at high speed, there is little damage to the driving body. The present invention provides an apparatus and method for separating fine foreign matter easily.

The present invention to achieve the object as described above and to perform the problem for eliminating the conventional defects in the separation device of fine foreign matter contained in household waste or construction waste,

Ultra-high molecular PE screen into which waste discharged from the primary sorting device is injected;

A discharge conveyor 1 installed to cross the lower portion of the ultra high molecular PE screen to transfer and discharge waste of a predetermined size or more passing through the ultra high molecular PE screen;

An exhaust conveyor 2 installed at the end of the discharge conveyor 1 so as to transfer the dropped waste after the foreign matter is separated by wind power;

A lower conveyor installed at a lower portion of the ultra high molecular PE screen to transfer waste having a predetermined size or less dropped to the lower high molecular PE screen;

Suction fine particles of the waste dropped into the lower conveyor by installing a suction nozzle of the blower, and the waste dropped to the end of the discharge conveyor 1 by recycling the air used for suction with the suction nozzle to the discharge nozzle via the blower. Characterized in that it comprises a; eccentric cyclone.

The lower conveyor, when the suction nozzle inhales fine foreign matter, sets the moving speed of the lower conveyor to be accelerated (high speed) so that heavy wastes (soils, etc.) are transported to the upper side through the lower conveyor, and the foreign matter is light in weight. (Vinyl, styro product, etc.) is configured to suck the eccentric cyclone through the suction nozzle.

The light weight foreign matter (styrofoam, vinyl, etc.) is installed so as to blow toward the eccentric cyclone suction nozzle by installing a blower having a wind power of about the fan so as not to be discharged through the lower conveyor.

The ultra-high molecular PE screen is installed inclined at one side and low on the other side, and after arranging a plurality of shafts rotated by a drive motor on the same surface, the plurality of ultra-high molecular PE drives are supplied to each shaft according to the waste size. Install by adjusting the distance.

The ultra-high molecular PE drive body is composed of a plurality of blades having a spiral shape.

Separation method of fine foreign matter contained in household waste or construction waste of the present invention constituting the above device,

Ultra-high-molecular-weight PE screen sorting is provided at the end of the screen by discharging waste selected to a certain size into the ultra-high-molecular-PE screen and setting the interval between the rotating actuators. Steps;

Discharging the waste removed by removing the foreign matter by transferring the waste falling from the end after transferring the waste of a predetermined size or more discharged toward the end in the screening step of the ultra-high molecular PE screen;

The ultra-high molecular PE screen provides a suction force through the suction nozzle while accelerating the conveying speed of the lower conveyor to the waste falling below the predetermined size in the sorting step, the waste of a certain size of the waste is transferred to the lower conveyor end to classify And, the fine foreign matter in the waste is characterized by consisting of a fine foreign matter removal step of suctioning into the eccentric cyclone through the suction nozzle.

 Hereinafter, the configuration and the operation of the embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a schematic plan view of a fine foreign matter separating apparatus according to the present invention, FIG. 2 is a schematic side view of a fine foreign matter separating apparatus according to the present invention, and FIG. 3 is a schematic view showing a coupling structure of an ultrahigh molecular PE screen of the present invention. As shown in the figure, the device configuration of the present invention is installed so that the ultra-high molecular PE screen 1 into which the primary sorted waste is put is located on the top of the fine foreign matter separating device.

The ultra high molecular PE screen 1 is installed to be inclined low on one side and low on the other side.

In addition, the rotation direction of the ultrahigh molecular PE drive body 11 constituting the ultrahigh molecular PE screen 1 rotates the shaft 12 equipped with the ultrahigh molecular PE drive body 11 so as to rotate from the inclined low side to the high side. Rotation of the shaft 12 connects the neighboring shafts with a connecting means such as a chain (not shown), and rotates it with a motor (not shown) that transmits a driving force to the chain.

The principle of sorting the ultra-high molecular PE screen 1 is to install a plurality of ultra-high molecular PE drives 11 at regular intervals on one shaft, and to install a plurality of ultra-high-molecular PE drives 11 installed on neighboring shafts 12. Is installed by adjusting the interval so as to stagger between the ultra-high molecular PE drive body 11 is installed in the adjacent shaft (12). At this time, the interval between the ultra-high molecular PE drive unit 11 may be installed by adjusting the interval so as to have an appropriate interval according to the type of waste to be sorted. Similarly, the spacing between neighboring shafts may be adjusted according to the type of waste to be sorted.

The gap adjusting method may be performed by inserting spacers having various gaps between the ultrahigh molecular PE drive bodies 11 or by setting an arbitrary gap without the spacers to fix the ultrahigh molecular PE drive bodies 11 inserted into the shaft. do.

In addition, the shape of the ultra-high molecular PE drive body of the present invention is composed of a disk structure having a plurality of blades of a spiral structure is configured to maximize the effect that the waste is supplied by the drive is rotated by the rotating drive body is discharged in the direction of rotation do.

Of course, the number of blades, the shape of the blade can be processed in various ways depending on the use environment, that is, the type of waste, of course.

When the waste is put into the ultra high-molecular PE driving body which is rotated at high speed as described above, the waste of a certain size is moved to the direction of rotation (inclined upper side) while being in contact with the driving body. It will be discharged to the bottom.

At this time, the ultra-high molecular PE material with little damage caused by the waste in contact with the ultra-high molecular PE driving body 11 is not made of steel so as not to be damaged.

In other words, Ultra High Molecular Weight Polyethylene (UHMWPE) has a high molecular weight of 3 million to 10 million, whereas most plastics have a molecular weight of 1 million or less. The back is even and smooth, so there is little sticking or jamming and excellent abrasion resistance.Therefore, it does not catch flammable (silt, film, paper, etc.) waste among the sorted wastes, and it has less sticking phenomenon of waste with high moisture content. Waste can be sorted continuously.

Accordingly, it is possible to solve the structural problem that the rubber net used in the conventional vibrating screen is too back to be used as a driving body, and also has elasticity compared to steel, thereby preventing damage to the driving body even when contacted with waste.

Therefore, when manufacturing the drive body used in the present invention as ultra-high molecular weight PE, the strength is stronger than rubber to prevent bending by waste during high-speed rotation and to make it have a resilience than steel.

The discharge conveyor 1 (2) is installed at the lower side of the rising side of the obliquely installed ultrahigh molecular PE screen (1) to cross the ultrahigh molecular PE screen (1) and the installation direction is selected and discharged waste of a certain size not discharged to the bottom It is configured to be.

In addition, the discharge conveyor 1 (2) at the end of the discharge conveyor 2 (3) is installed in the cross is installed so that the recycled aggregate separated from the foreign matter by waste blowing again is transported to the yard or other sorting step. At this time, the discharge nozzle (53) formed in the blower 51 for providing the suction force to the eccentric cyclone (5) is installed below the discharge conveyor 1 (2) to blow the waste of the discharged wind falls again to regenerate the foreign matter and The aggregate will be separated.

On the other hand, the lower conveyor 4 is installed in the lower portion of the ultra-high molecular weight PE screen 1 is installed inclined to transport the waste of a predetermined size or less falling through the ultra-high molecular weight PE screen (1).

The lower conveyor 4 separates the foreign matter (vinyl, styro product, etc.) contained in the small-sized wastes falling, and then moves the waste (soils, etc.) from one side of the eccentric cyclone 5 from the side from which the wastes (soil, etc.) are dropped to recycle high-quality soil. When the suction nozzle 52 suctioned through the suction port is installed and the suction force is provided by the operation of the blower 51, the moving speed of the conveyor belt of the lower conveyor 4 is accelerated (high speed). ) Is transferred to the upper side through the lower conveyor (4) and is discharged to the lower side, foreign substances (vinyl, styro product, etc.) that are relatively light in weight are not discharged and the eccentric type through the suction nozzle (52) by the suction force of the blower (51). It is configured to be sucked into the cyclone (5).

In this case, a blower (not shown) having a wind power of about the fan level is installed on the upper part of the lower conveyor to prevent foreign substances (styrofoam, vinyl, etc.) that are light in weight from being discharged through the lower conveyor. The load is prevented, and the suction power of the suction nozzle is too strong to prevent suction to the recycled aggregate.

On the other hand, the eccentric cyclone (5) is a device for inhaling and discharging fine foreign matter in the waste dropped to the lower conveyor lower part of the lower garbage box (6) in which the vacuum is maintained while rotating downward by the rotational force of the eccentric cyclone (5) After being separated and stored in the air), the air is sent to a trash storage, and the air from which foreign substances have been removed is sent to the suction part of the blower 51 through the upper passage, and then discharged through the discharge nozzle 53 of the blower 51 to obtain ultra high molecular weight. After passing through the PE screen (1) to be discharged to the discharge conveyor 1 (2) is configured to blow the waste falling from the end to separate the foreign matter.
Hereinafter, the operation and connection relationship between the suction nozzle 52, the blower 51, the discharge nozzle 53, and the eccentric cyclone 5 will be described in detail.
The suction force is generated on one side and the earth output is generated on the other side by the rotational force generated by the motor of the blower 51. The suction nozzle 52 line is installed on the side where the suction force is generated, and the earth output is generated. A discharge nozzle 53 line is installed on the side, but an eccentric cyclone 5 is installed between the blower 51 and the suction nozzle 52 so that the suction force of the blower 51 is sucked through the eccentric cyclone 5. It is generated in the nozzle 52.
Due to this structure, the suction force of the blower 51 is generated in the suction nozzle 52 through the eccentric cyclone 5, and the foreign matter (vinyl, styro product, etc.) having a relatively light weight sucked through the suction nozzle is eccentric cyclone. Air is sucked into the one-way inlet of (5) and separated and stored in the lower garbage box 6 which is kept vacuum while being rotated downward by the rotational force of the eccentric cyclone 5, and sent to the waste storage, and the foreign matter is removed. Is sent to the inlet of the blower 51 through the upper passage, it is then discharged through the discharge nozzle 53 is dropped into the discharge conveyor 1 (2) and transported to separate the foreign matter by blowing the waste falling from the end thereof. .
The air from which the foreign matter is removed is sucked into the blower through the upper passage, and as shown in FIGS. 1 and 2, it can be seen that the air is eccentrically installed at the center of the eccentric cyclone. In addition, the connection from the upper passage to the blower in the city is omitted, but this structure is a natural structure that must be from the suction nozzle to the blower providing the suction force through the eccentric cyclone, which is obvious to those skilled in the art. to be.

The construction waste of large size passed through the ultra high molecular weight PE screen (1) is removed from the foreign matter by the wind and then recycled with the waste of small size, and then recycled to cover, or put into the crushing sorting process through the discharge conveyor (3). It can be configured to produce aggregate.

The foreign matter separation method of the present invention having the device configuration as described above,

Ultra-high-molecular PE screen sorting step by receiving the waste that is pre-selected to a certain size and put into ultra-high-molecular-PE screen to set the interval between the rotating disks. Wow;

Separating the foreign matter by wind from waste falling from the end after transferring the waste of a predetermined size or more discharged toward the end in the screening step of the ultra-high molecular PE screen;

The ultra-high molecular PE screen is driven at a high speed by feeding the lower conveyor which discharges the waste below a certain size dropped in the sorting step at high speed to prevent the discharge of light weight foreign materials (vinyl, styrofoam, etc.) Easy. Soil, which is heavy in waste, is transported to the end of the lower conveyor and discharged, and the fine foreign matter in the waste is sucked into the eccentric cyclone through the suction nozzle, and is separated while rotating downward. It consists of; fine foreign matter removal step of separating into a box.

In addition, when removing the fine foreign substances sucked into the eccentric cyclone through the suction nozzle, a blower having a wind power of the fan level is installed on the lower conveyor to prevent the light foreign substances (styrofoam, vinyl, etc.) from being discharged through the lower conveyor. And blowing toward the cyclone suction nozzle.

4 to 6 show an embodiment in which the apparatus of the present invention is installed in various waste sorting processes, through which embodiments of the present invention are applied.

Figure 4 is a plan view showing the configuration of the fine foreign matter separation device of the present invention is configured to the intermediate treatment of construction waste is applied to the inclination angle adjustable rubber net trommel in one embodiment, the rubber net trommel (selection device) In the process of sorting waste into the first stage (less than 40mm) and separating the foreign matter by wind from the waste that passed through the sorting device (more than 40mm), the foreign matter from the waste that is discharged by the first sorting (less than 40mm) The high molecular weight PE drive body, which can sort out construction waste without clogging and damage even with the input of construction waste, which has a high moisture content and foreign matter content, is separated into any one of various blade shapes by using a laser processing device. After processing, a plurality of shafts are installed in a plurality of shafts, each having a high molecular weight PE screen (1). After sorting again, the foreign matter (vinyl, styro product, etc.) contained in the small-sized waste falling down from the ultra-high molecular weight PE screen (1) is separated and the waste (soil, etc.) is discharged to recycle high quality soil. If the suction nozzle is installed on the lower conveyor side toward the eccentric cyclone inlet, the suction fan provides suction power to the suction nozzle, and the moving speed of the lower conveyor is accelerated (high speed). Foreign substances (vinyl, styro product, etc.) that are discharged and are relatively light in weight are not discharged and are sucked through the eccentric cyclone by the suction wind of the blower, and the foreign substances are separated into the lower garbage box which is maintained in vacuum while rotating downward by the rotational force of the cyclone. Stored and decontaminated air is sent to the blower through the upper Is generated from a wind blower will remove the foreign matter from the waste that has passed through an ultra-high molecular weight PE screen 1 through the discharge nozzle.

Large-sized construction wastes passed through the ultra high molecular weight PE screen (1) are removed from foreign matters by wind and then combined with small-sized wastes for recycling to cover soil, or put into shredding through the discharge conveyor 1 and discharge conveyor 2 It will produce recycled aggregates.

5 is a plan view showing another embodiment to which the fine foreign matter separating apparatus of the present invention is applied, and FIG. 6 is a plan view showing another embodiment to which the fine foreign matter separating apparatus of the present invention is applied. When sediment and foreign matter are separated from wastes with high foreign matter content, it is put into the crushing sorting process and installed as a pretreatment process to produce circulating aggregates. Waste pretreatment technology

The present invention is not limited to the above-described specific preferred embodiments, and various modifications can be made by any person having ordinary skill in the art without departing from the gist of the present invention claimed in the claims. Of course, such changes will fall within the scope of the claims.

The present invention as described above has the advantage that it is applicable to the separation of fine foreign matter from small-sized waste that is difficult to handle in household waste or construction waste by using ultra high molecular weight PE screen having strength and elasticity.

It is made of ultra high molecular weight PE screen, and the weight of the driving body is light, so that the load of the motor is small.

It is composed of ultra high molecular weight PE screen, which can reduce the damage of the driving body by the waste which is supplied to the high speed rotating driving body, so that it is possible to continuously work and easily produce high quality recycled aggregate after removing the fine foreign matter contained in the small sized waste. It is a useful invention with the invention is expected to be greatly used in the industry.

Claims (8)

In the device for separating the fine foreign matter contained in the waste generated at the workplace or construction site, Ultra-high molecular PE screen (1) into which small-sized wastes firstly sorted (selecting device) are introduced; A discharge conveyor 1 (2) installed to cross the lower portion of the ultra high molecular PE screen (1) to transfer and discharge waste of a predetermined size or more passing through the ultra high molecular PE screen (1); A discharge conveyor 2 (3) installed to cross the end of the discharge conveyor 1 (2) to transfer and discharge the waste from which foreign substances have been removed; A lower conveyor (4) installed at the lower portion of the ultra high molecular PE screen (1) to transfer wastes having a predetermined size or less dropped to the lower high molecular PE screen (1); Suction and separating fine foreign matter from the waste dropped into the lower conveyor by installing a suction nozzle 52 of the blower, and sucks the separation of foreign matter from the waste falling through the ultra-high molecular PE screen to the end of the discharge conveyor 1 (2). Eccentric cyclone (5) to be mixed through the nozzle is rotated downward and separated into the waste box (6), the remaining air to separate the foreign matter while circulating the blower 51 through the upper passage through the discharge nozzle (53). Including; The lower conveyor 4 sets the moving speed of the conveyor to accelerate (high speed) when the suction nozzle 52 inhales fine foreign matter so that heavy wastes (soil, etc.) are transferred upward through the lower conveyor 4. After the discharge, the light weight foreign matter (vinyl, styro product, etc.) is configured to suck the eccentric cyclone (5) through the suction nozzle (52), The upper part of the lower conveyor fine particle separation device, characterized in that configured to blow to the eccentric cyclone suction nozzle by installing a blower having a wind power of the fan so that light foreign matter (styrofoam, vinyl, etc.) is not discharged through the lower conveyor . delete delete The method of claim 1, The garbage box 6 is configured to be integrally formed under the eccentric cyclone 5 for combustible (vinyl, paper, fibers, etc.) waste treatment, characterized in that the vacuum is maintained so that a large amount of foreign matter can be stored Fine foreign material separator. The method of claim 1, The ultra high molecular PE screen (1) is installed on one side is inclined high and the other side is low, and after arranging a plurality of shafts rotated by a drive motor on the same surface, a plurality of ultra high molecular PE drive body 11 on each shaft It is installed by adjusting the interval according to the size of the waste to be supplied, fine foreign matter separating apparatus applied to the ultra-high molecular PE screen, characterized in that the ultra-high molecular PE drive body 11 is composed of a plurality of blades having a spiral shape. delete In the method of separating fine foreign matter contained in the waste generated at the workplace or construction site, After the apparatus according to any one selected from the above 1, 4, 5, the predetermined waste of a predetermined size is supplied to the ultra-high molecular PE screen and put into the ultra-high molecular PE screen by setting the interval between the rotating disk or more Waste is discharged from the screen end, and ultra-high molecular PE screen screening step of discharging below a certain size; Separating the foreign matter by wind from waste falling from the end after transferring the waste of a predetermined size or more discharged toward the end in the screening step of the ultra-high molecular PE screen; The ultra-high molecular PE screen is driven at a high speed by feeding the lower conveyer which discharges waste below a certain size dropped in the screening step at high speed to prevent the discharge of light foreign materials (vinyl, styrofoam, etc.) to prevent suction. The soil and the heavy weight of the wastes are transported to the end of the lower conveyor and discharged.The fine foreign matters in the wastes are sucked into the eccentric cyclone through the suction nozzle and separated while rotating downward. It is made of; fine foreign matters removing step of separating into a maintained waste box; When removing the foreign matter inhaled by the eccentric cyclone through the suction nozzle, an air blower having a wind power of about the fan is installed on the upper eccentric cyclone to prevent the light foreign matter (styrofoam, vinyl, etc.) from being discharged through the lower conveyor. Fine foreign matter separation method characterized in that it further comprises the step of blowing toward the suction nozzle. delete

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