KR102343383B1 - Screening Method and Screening System for Fueling Flammable Wastes and Recycling of Earth Stone in Landfill Waste - Google Patents

Abstract

The present invention relates to a sorting method and sorting system for converting combustible waste from landfill waste into fuel and recycling debris, and more preferably, household waste discharged from home and large-scale unsanitary landfills generated from residential land development projects or trunk SOC projects. Alternatively, non-combustible waste (earthstone) and combustible waste (waste vinyl) can be recovered as much as possible from landfill waste that has been illegally landfilled in the past, and combustible waste can be recycled. After installing the sorting line into two lines so that the Continuous quantitative supply through a quantitative supply device consisting of a hopper-type conveyor belt and a mixed-type conveyor belt, and reduce the amount of the sorted combustible waste, crush it, and put it into the impact dry sorter. Recycling from landfill to improve the quality of combustible waste and compress and pack it by separating combustible waste that dries and sticks together with frictional heat generated by the rotor drive of This is a technology related to the sorting method and sorting system for sorting the possible debris and combustible waste.

Description

Screening Method and Screening System for Fueling Flammable Wastes and Recycling of Earth Stone in Landfill Waste

The present invention relates to a sorting method and sorting system for converting combustible waste from landfill waste into fuel and recycling debris, and more preferably, household waste discharged from home and large-scale unsanitary landfills generated from residential land development projects or trunk SOC projects. Alternatively, non-combustible waste (earthstone) and combustible waste (waste vinyl) can be recovered as much as possible from landfill waste that has been illegally landfilled in the past, and combustible waste can be recycled. After forming a smart system by installing two sorting lines to ensure Through a quantitative supply device consisting of a mixed conveyor belt without idling or slipping, a continuous quantitative supply goes through a sorting process to sort soil and non-combustible, and earth and stone and combustible waste so that they can be recycled, respectively, and then select combustible When garbage is crushed into 200-300mm or less of a certain size in the crushing process and put into the impact dry sorter, the wind that flows into the impact dry sorter and the dry air flow generated by the rotation of the rotary blades installed on a pair of rotors installed inside each Combustible wastes are dried by frictional heat generated by colliding with each other, and foreign substances attached to the combustible are separated and discharged through the lower screen network. It is a technology related to a sorting method and sorting system for turning combustible waste into fuel and recycling debris from landfill waste.

In recent years, technologies and policies for securing energy using waste resources are actively being promoted globally to reduce greenhouse gas emissions due to resource depletion and climate change. The expansion of fuel, that is, SRF (Solid Refuse Fuels) production technology (Mechanical Biological Treatment) or MBT (Mechanical Biological Treatment) facilities, is increasing.

In Korea, the “Resources Conservation and Recycling Promotion Act” has been revised and implemented in terms of solid fuel quality standards, manufacturing facilities, and storage facilities.

Among the fuels that can be recycled as such, among the wastes that are buried in unsanitary landfills or recycling-type landfills, recyclable combustible wastes and construction wastes such as earth and sand and aggregates are buried without sorting them. The cost increases and the water content of waste waste is high, so the proportion of waste waste is high even after sorting. While it causes pollution, recyclable resources are wasted.

In addition, when combustible waste mixed with waste is incinerated, combustible gas is emitted. Although this combustible gas can be reused as fuel, it is impossible to recover and reuse useful combustible gas in a conventional incineration method, so resources are wasted results in

Therefore, waste waste is separated into recyclable resources, combustible incineration waste, and landfill waste, and only non-recyclable waste is incinerated or landfilled to treat waste, greatly reducing the amount of waste and re-using the sorted waste in the dry sorting separator. There is a need for efficient treatment by inputting, drying, and reducing the amount of incineration or landfill by removing foreign substances.

As movements to solve these problems become active, technologies such as extracting industrial oil or combustible gas using combustible wastes that have been incinerated or reclaimed or producing alternative fuels such as solid fuels (SRF) are being developed.

However, combustible waste is not only pure combustible waste, it contains various foreign substances. In particular, the buried waste contains a large amount of ash, such as soil, stone, fine powder, and a large amount of moisture.

Therefore, the conventional landfill waste treatment technology requires a pretreatment process of removing various foreign substances and moisture before producing gas or fuel using combustible waste as well as recycling technology such as earth and sand.

Conventional techniques for removing foreign substances mixed with combustible waste are mostly water treatment, and mixed waste (a mixture of combustible waste and foreign substances) is put into a water tank and the combustible waste is washed with washing water to remove various foreign substances, Then, the combustible waste is dried using a dryer.

Therefore, the conventional removal technology of various foreign substances mixed with combustible waste requires large facilities such as a water tank and a dryer, so it requires a lot of energy and power, not only requires a large site, but also requires a lot of manpower, and also requires a lot of work time. There is a problem with this lengthening.

In addition, the water treatment method removes foreign substances by removing the adhesion between the combustible waste and foreign substances, so the removal efficiency of foreign substances is lowered, and the washing water used to remove the foreign substances can be reused. In the method of removing foreign substances from washing water, there is a problem that requires a large-scale facility for recycling washing water because it usually undergoes processes such as precipitation and aggregation of foreign substances.

Thus, the "mass fuel conversion system for landfilled combustible wastes applied with natural drying process" of Korean Patent Laid-Open Patent Publication No. 10-2015-0145726 was disclosed, but the above configuration was dried in a drying plant to remove only the moisture content contained in combustible wastes and then combustible. When the garbage is transported to the combustible fuel sorting system, since quantitative supply is not made, the combustible fuel sorting system is overloaded, so it was not possible to prevent the loss of repair costs and operating time due to malfunction.

In addition, since the combustible waste collected from the landfill is transferred directly to the combustible fuel sorting system without first sorting and reducing the earth and sand in the pretreatment process, the reduction and sorting of the combustible waste is not efficient, making it unsuitable for use as a high-quality fuel.

In addition, since the selected combustible waste is dried only with the heat of 120~200℃ generated by the heater even when drying the reduced-weighted combustible waste, it is difficult to completely remove the fine powder or soil remaining attached to or mixed with the combustible waste being dried. Therefore, there was a problem in that it was not suitable to use the reduced waste as a high-quality fuel that meets the specifications of Fluff's SRF (non-formed solid fuel).

And, as disclosed in Republic of Korea Utility Model Registration No. 20-0447204, when the reduced combustible waste is directly put into the hopper of the drying device and dried, air is filled between the combustible wastes put into the hopper, so the hopper input is performed automatically. Because the input is not done manually or as an input device to put combustible waste into the hopper, manual input causes waste of labor costs or safety accidents. As it had to be spent, a factor of cost increase occurred.

In addition, when the reduced combustible waste is put into the hopper of the drying device, the combustible waste is not uniform in length and is formed long in the longitudinal direction. this will happen

In addition, as disclosed in Korean Patent Registration No. 10-1561611, when the reduced combustible waste is sorted and packed using a packaging device, a hydraulic motor is applied to simplify the conveyor system and the good appearance design has the advantage of However, when all processes were applied with a hydraulic motor, there was a problem in that the production cost of wrapping and packaging products increased due to an increase in production cost and an increase in power cost.

In addition, the above prior art is a simple sorting machine for general landfill waste, and it is not possible to increase the production per hour, and at the same time, it is impossible to sort at the same time because the large-sized bulky waste is overloaded and clogged in the mechanical equipment.

In addition, the sorted combustible waste has a high moisture content and is thickly sorted because it sticks like a sandwich to each other. there were difficulties.

Republic of Korea Patent Publication No. 10-2015-0145726[0017] Republic of Korea Patent Publication No. 10-2014-0098352 Republic of Korea Patent No. 10-1373117 Republic of Korea Patent Registration No. 10-1142140 Republic of Korea Registered Utility Model No. 20-0447204 Republic of Korea Patent Registration No. 10-1561611

The present invention was created to solve the above problems, and it recovers combustible waste (waste vinyl) as much as possible from landfill waste in large-scale unsanitary landfills or in unsanitary landfills that have been illegally landfilled in the past, and recycles them into fuel (SRF). Non-combustible wastes (sorted soil, earth and gravel) are recycled as fill and cover materials, and those that cannot be recycled are completely burned with combustible fuel and incinerated. The purpose of this is to prevent overload or blockage of the sorting facility and increase the sorting output by installing a smart sorting device formed of two sorting lines so that large coarse waste can be supplied and sorted at the same time (line 2).

In addition, the present invention improves the problems that the sorting ability is lowered because the landfill waste is not continuously supplied while supplying the landfill waste to the sorting device and a certain amount is not continuously supplied, and a load is generated on the conveyor belt and subsequent equipment supplied to the sorting device. The purpose of this is to increase the processing capacity of landfill waste and increase the operation rate of the input equipment by continuously supplying it in a certain amount using a fixed-quantity supply device formed with a mixed conveyor belt for this purpose.

In addition, the present invention enables drying by frictional heat generated by the rotation of the rotary blades installed on a pair of rotors and the inflowing wind and combustible wastes collide with each other when drying the reduced-weight selected combustible waste. In order to increase the incineration rate, since a number of rotor blades installed in the rotor are rotated, the non-combustible ash stuck in multiple layers in a sandwich type is removed and the combustible waste is separated and discharged, so that it is completely combusted into combustible fuel and incinerated. There is a purpose.

As described above, the present invention reduces and sorts waste plastics of non-combustible waste and combustible waste as much as possible through a smart sorting device, recycles combustible waste as fuel, and minimizes waste that cannot be recycled. The purpose is to select to be able to.

The configuration of the present invention for achieving the above object will be described in detail based on the accompanying drawings as follows.

The sorting method for sorting debris and combustible waste into fuel so that it can be recycled from landfill waste according to the present invention,

It is composed of two lines to sort landfill waste to increase the hourly output, and the 1-line sorting device 10 has a relatively small size and volume of general landfill waste, and the 2-line sorting device 20 has the size and volume. Quantitative supply process (S 10) (S 10A) of supplying each of the fixed quantity supply devices 11 and 21 formed of the mixed type conveyor belt 110 and the input hopper conveyor belt 70 so that large coarse waste can be continuously supplied in fixed quantity );

The general landfill waste that is quantitatively supplied through the quantitative supply device 11 installed in the 1-line sorting device 10 is general landfill waste that sorts the sorted soil (V) and combustible waste through the trommel sorter 12 formed in a double layer. screening process (S 20);

The sorted soil is transferred to the precision sand sorter 13, and the precision sorting process (S 30) of precisely sorting the sorted soil and combustible waste and the sorted combustible waste are separated by metal through a magnetic sorter (14a) to reduce combustibles a combustible material reduction sorting process (S40) of transporting to the sorter 15 and sorting earth and stone and combustible waste;

The earth and stones selected through the combustible reduction separator 15 are separated by the combustible waste mixed in the earth and stone through the blower sorter 16, and the selected combustible waste is returned to the combustible reduction separator 15, A non-combustible reduction screening process (S50) of sorting the earth and stones of different sizes through the non-combustible reduction sorting machine (17);

The coarse garbage supplied quantitatively through the quantitative supply device 21 installed in the two-line sorting device 20 is sorted into soil + combustible + soil and the like through the coarse trommel sorter 22 with a large hole (V) Coarse waste sorting process of sorting and combustible waste (S 20A);

The sorted soil (V) selected in the coarse trommel sorter 22 is a garbage/soil sorting process (S 30A) of sorting the sorted soil (V) and combustible waste (Z) through the trommel sorter 23 formed in a double layer );

The sorted sand (V) is transferred to a precision sorting process (S 30) connected to a precision sorting machine (13) installed in a one-line sorting device (10), and the sorted combustible waste (Z) is transferred to a magnetic sorter ( After separating the metal through 14b), the combustible material reduction screening process (S 40A) of sorting the earth and stone (S) and the combustible waste (Z) through the combustible material reduction separator 24;

The earth and stone (S) selected in the combustible reduction reduction screening process (S 40A) is transferred to the non-combustible reduction separator 17 installed in the 1-line sorting device 10, and the incombustible reduction reduction screening process of sorting the earth and rocks (S) of different sizes (S 50);

The one-line sorting device 10 and the two-line sorting device 20 are operated at the same time to sort the sorted soil (V), soil (S), and combustible waste (Z), respectively, and the one-line sorting device (10) and A crushing process (S60) of crushing the combustible waste (Z) sorted by the two-line sorting device (20) with a shear type crusher (30);

Impact dry sorting process (S70) of transporting the crushed combustible waste to the shear crusher 30 and drying the earth and stone and combustible waste by the impact dry sorting machine 40;

a compression process (S80) of compressing and binding the combustible waste (Z) dried in the impact dry sorter (40) with a compression and bundling device (50);

a packaging process (S90) of packaging the combustible waste compressed and bound by the compression and binding device 50 in a wrapping device 60;

It is characterized in that it comprises a.

In addition, the configuration of the sorting system for sorting combustible wastes as much as possible so that they can be recycled from landfill wastes according to the present invention and turning them into fuels and recycling soil and soil is,

A one-line sorting device 10 for sorting general landfill waste and a two-line sorting device 20 for sorting large and bulky bulky waste are operated simultaneously to increase the production of landfill waste per hour, and the sorted soil (V) and Smart sorting device (SM) formed in two lines to separate and separate the earth and stone (S) and combustible waste (Z);

a shear type shredder 30 for cutting and crushing the combustible waste (Z) that has been sorted and transported from the smart sorting device (SM) into the input hopper 311;

an impact dry sorter (40) for drying the combustible wastes crushed by the shear shredder (30) by dry airflow and friction and sorting the earth and rocks;

a compression and binding device 50 for compressing and binding the combustible waste (Z) dried in the impact dry sorter (40);

a wrapping device (60) for packaging the combustible waste (Z) compressed and bound in the compression and bundling device (50);

It is characterized in that it comprises a.

The present invention, having the above characteristics, collects combustible waste (waste vinyl) from landfill waste as much as possible, recycles it as combustible fuel (STF), and minimizes (zero) reclaimed waste by recycling soil and soil, and By installing two smart sorting devices in the sorting device line so that the bulky and bulky waste can be simultaneously sorted combustible waste, soil, earth, and iron, the sorted soil is precisely sorted and combustible waste is maximally separated. Since it can be sorted by reducing the amount of waste, it has the effect of increasing the sorting output per hour by preventing the overload of mechanical equipment and removing the clogging phenomenon caused by coarse garbage in advance.

In addition, according to the present invention, the combustible waste mixed in the earth and gravel discharged from the combustible material reduction sorter is sorted and recovered by the blower sorter the combustible waste remaining in the earth and stone, and the combustible waste selected by the earth and sand precision sorter is sorted and recovered, In addition, there is an effect of increasing the purity of combustible waste and reducing resource wastage by finally sorting debris mixed with combustible material in the impact dry sorting machine and discharging it through the lower screen network.

In addition, according to the present invention, the fixed-quantity supply device for supplying general landfill waste or coarse waste in a fixed quantity is composed of a mixed conveyor belt in which a chain conveyor belt and a rubber conveyor belt are closely coupled to each other, so that heavy landfill waste is converted into a mixed conveyor. When seated on the belt and transported, it is possible to continuously supply landfill waste in fixed quantity by transmitting accurate power without swaying down, idling due to slippage, or flowing down between the chain conveyor belts. It has the effect of increasing the operation rate and selection efficiency of equipment in proportion to time.

In addition, according to the present invention, when the impact dry sorting machine finally sorts earth and rocks, the combustible wastes attached to each other in a sandwich manner are separated by the rotation of the rotary blades mounted on the rotor, and foreign substances and moisture attached to the combustibles are separated. Incineration efficiency is high because high-quality combustible fuel is produced by discharging it through the screen net mounted on the bottom and completely combusted during incineration. Drying is achieved by friction generated when garbage contacts or rubs against each other, so it has the effect of completely drying moisture and ash on combustible garbage.

1 is a block diagram of a sorting method for sorting debris and combustible waste into fuel so that they can be recycled from landfill waste according to the present invention.
FIG. 2 is a plan layout view of a sorting system for sorting debris and combustible waste into fuel so that they can be recycled from landfill waste according to the present invention.
3 is a perspective view showing a quantitative supply device according to the present invention.
Figure 4 is an enlarged perspective view of the mixed-type conveyor belt of the fixed-quantity supply device according to the present invention.
5 is a perspective view and a side view showing a trommel sorting machine formed in double according to the present invention.
6 is a perspective view and a side view showing a coarse trommel sorter formed with a large diameter (Ø200-300mm) according to the present invention.
7 is a perspective view showing a blower sorter according to the present invention.
8 and 9 are a perspective view and a plan view showing a shear type crusher according to the present invention.
10 is a perspective view showing an impact dry sorting machine according to the present invention.
11 is an exploded perspective view and a side view showing the impact dry sorting machine according to the present invention.
12 is a perspective view showing a wrapping apparatus according to the present invention.
13 is a perspective view illustrating a state in which combustible waste is wrapped with combustible compressed material using the lapping device according to the present invention.

Hereinafter, with reference to the accompanying drawings, embodiments of the present invention will be described in detail so that those of ordinary skill in the art can easily implement them. However, the present invention may be implemented in several different forms and is not limited to the embodiments described herein.

The overall main configuration of the sorting system for sorting debris and combustible waste from landfill waste according to the present invention is as shown in FIG. ), earth and stone (S) and combustible waste (Z) are connected to form a smart sorting device (SM) so that the two sorting lines are connected and driven as one in order to sort the production amount per hour at a high rate, and the one-line sorting device (10) is The general landfill waste and the two-line sorting device 20 continuously supply the bulky waste with large volumes and sizes through the quantitative supply devices 11 and 21 in a fixed quantity, and sort the soil (V), earth and stone (S) and combustible waste. Garbage (Z) is sorted, and the sorted combustible waste (Z) is crushed to about 200-300 mm in the shear type crusher 30, and the crushed combustible garbage is put into the impact dry sorter 40, dried and combustible. At the same time as sorting and discharging debris, which are foreign substances, the combustible wastes attached to each other in a sandwich type are separated individually, and the separated and dried combustible wastes are compressed and bound in the compression and binding device 50, and the compressed and bound The combustible waste is packaged using the wrapping device (60).

The main configuration of the sorting method and sorting system for sorting debris and combustible waste from the landfill waste according to the present invention configured as described above will be described in detail with respect to each configuration with reference to the drawings.

As shown in FIG. 2, the present invention is a non-combustible waste (earths and stones) in a large-scale unsanitary landfill generated from household waste and residential land development projects or trunk SOC projects, or illegally landfilled in the past. ) and combustible waste (waste vinyl) to be collected and recycled as much as possible, or non-recyclable waste to be reclaimed or incinerated to minimize the social problem of waste disposal. The smart sorting device (SM) for sorting is formed of two sorting lines, and the input hopper conveyor is installed in the quantitative supply devices 11 and 21 installed in the 1-line sorting device 10 and the 2-line sorting device 20, respectively. It is put through the belt (70).

The quantitative supply devices 11 and 21 continuously supply landfill waste in a certain amount to the sorting line at the same time, thereby increasing the processing efficiency of the landfill waste and increasing the operation rate of the input equipment, thereby greatly reducing the treatment cost and adding the waste to the landfill. The operation does not stop even under heavy loads such as mixed stones, garbage, and metal, and continuous, quantitative supply of landfill waste prevents overload and clogging of the sorting facility, thereby preventing loss of repair costs and operating time due to breakdown.

The configuration of the smart sorting device (SM) for sorting the landfill waste that is quantitatively supplied to the quantitative supply devices 11 and 21 in this way will be described in detail with reference to FIG. 2 .

1) 1-line sorting device (10)

A) Quantitative supply device (quantitative supply process (S 10), general landfill waste)

The general landfill waste transported to the fixed quantity supply device 11 installed in the 1-line sorting device 10 on the input hopper conveyor belt 70 is continuously supplied in fixed quantity by the rotation of the mixed type conveyor belt 110 .

3 and 4, by installing the input hopper conveyor belt 70 and the mixed type conveyor belt 110 for transferring the landfill waste separately from each other, a space is created in the lower part of the mixed type conveyor belt 110 will be.

Therefore, the general landfill waste that overflows when transported on the mixed conveyor belt 110 is collected.

In addition, the mixed conveyor belt 110 prevents the rubber conveyor belt 111 from sagging or idling by being struck down even if a heavy weight such as metal or large waste rock contained in general landfill waste is introduced and seated, and a chain that withstands a large weight It is a configuration devised to prevent general landfill waste from falling into the space between the conveyor belts 112,

As such, the chain conveyor belt 112 formed on the lower part of the mixed type conveyor belt 110 prevents sagging and idling so as to withstand a heavy weight, and a rubber formed by coupling to the upper portion of the chain conveyor belt 112 . The conveyor belt 111 is configured to prevent landfill waste from falling down.

And the configuration of the mixed-type conveyor belt 110 is formed to be fixed by inserting a U-shaped jersey angle channel 113 between the left and right of the chain conveyor belt 112 installed in the lower portion, and the U-shaped jersey angle channel 113 is fixed. The rubber conveyor belt 111 is formed by bonding the rubber conveyor belts 111 to each other in close contact with each other. Therefore, the mixed type conveyor belt 110 is configured by coupling the chain conveyor belt 112 and the rubber conveyor belt 111 in close contact with each other.

In addition, the L-shaped hopper angle 114 is seated on the upper portion of the rubber conveyor belt 111, and the rubber conveyor belt 111 and the U-shaped jersey angle channel 113 are integrated with each other by coupling bolts 115. When fastened and fixed, the chain conveyor belt 112 and the rubber conveyor belt 111 are integrated and rotate.

In addition, the surface of the hopper angle 114 is configured such that the hopper rubber plate 116 is vertically connected by the fasteners 115a at intervals so that general landfill waste can be continuously and uniformly supplied in a fixed quantity without flowing out. do.

And when the driving shafts 118 and 118a driven by receiving the power of the driving motor 117 are driven, the mixed type conveyor belt 110 coupled to both ends of the driving shaft rotates.

In this way, when general landfill waste is seated on each hopper rubber plate 116 installed at intervals on the rubber conveyor belt 111 of the mixed type conveyor belt 110 and transported at an angle, more general landfill waste is seated than the fixed quantity supplied. When this occurs, each hopper rubber plate 116 overflows and is discharged into the lower space of the mixed conveyor belt 110, so that it is always supplied continuously in a fixed quantity. In addition, since the large stone ingots overflow the hopper rubber plate 116 and are discharged into the lower space, an overload does not occur in the fixed quantity supply device 11 .

And the general landfill waste that is continuously supplied in a fixed quantity on the mixed conveyor belt 110 is supplied to the inside through the supply conveyor 120 installed at the inlet side of the trommel sorter 12 formed in a double layer to be sorted.

B) General landfill waste sorting (sorting soil and combustible waste, general landfill waste sorting process (S 20))

① Trommel sorting machine

The trommel sorter 12 is composed of a double screen, and as shown in FIG. 5, the general landfill garbage continuously introduced in a fixed amount is sorted through a hole by the rotation of the trommel sorter 12 through a hole (V). is discharged to the lower part and sorted, and the unsorted combustible waste (Z) is transferred to the front.

At this time, the size of the perforation of the trommel sorter 12 is that the inner screen is 50 mm to 80 mm and the outer screen is 20 mm or less.

The sorted selected soil (V) is transferred to a supply conveyor in order to be precisely sorted while being transported on a transfer conveyor belt equipped with a magnetic separator 14 . The sorted soil supplied by the supply conveyor is introduced into the soil precision sorter 13, and foreign substances contained in the soil are removed with a screen (18 mm or less) to precisely sort the sorted soil (V).

C) Precision Soil Sorting Machine (Precision Soil Sorting Process (S 30))

At this time, the soil precision sorter 13 is also formed as a trommel sorter with a screen of 18 mm or less. The sorted soil (V) precisely selected by the rotation of the precision soil sorter (13) is discharged to the lower part and loaded on the conveying conveyor belt.

In addition, the combustible waste (Z) sorted and removed by the precision sand sorter 13 is recovered on the recovery conveyor belt 18 and merged with the transport conveyor belt that transports the combustible waste selected by the trommel sorter 12 described above. will be transported

The earth and combustible waste Z separated from the sorted soil V in the trommel sorter 12 and the soil precision sorter 13 is separated by separating the metal through the magnetic sorter 14a, after which the separated Earth and stone and combustible waste (Z) is introduced into the inside of the combustible material reduction sorter (15) to reduce the weight on the conveying conveyor belt.

D) Combustible material reduction sorting machine (Combustible material reduction screening process (S 40))

The combustibles reduction sorter 15 is for reducing the weight by sorting and reducing the earth and stone (S) that is not finally attached to or mixed with the combustible waste (Z). it will be formed

The specific gravity of the combustible material reduction sorter (15) and the earth and stone (S) selected by trommel rotation are discharged to the lower part and transferred to the non-combustible reduction separator 17 on a conveying conveyor belt, and are reduced and sorted forward and discharged The combustible waste (Z) is transferred to the shear-type crusher (30) on a conveying conveyor belt.

Earth and stone (S) transported on the conveying conveyor belt is mixed with the earth and rocks and finally generates a dry air stream to sort the combustible waste (Z) that has not been sorted by using the wind power of the blower (FAN) sorter (16). The combustible waste (Z) mixed in (S) is returned to the combustible material reduction sorter (15) and sorted.

As shown in FIG. 7, the configuration of the blower sorter 16 is formed on one end of the conveying conveyor belt for transporting earth and stone, and at the same time, to prevent the earth and stone from being scattered by the blower (SAN) wind. A fan selection box 161 is formed on the end side.

Accordingly, the earth and rocks falling into the fan sorting box 161 are separated and sorted by the wind generated by the blower sorter 16 to separate earth and rocks from combustible waste.

The combustible waste sorted by the blower sorter 16 is connected to the fan sorting box 161 on the upper side of the circulating conveyor belt 19 to be transported by being seated on the circulating conveyor belt 19 installed in front of the blower sorting machine 16. A transfer tunnel 162 is formed.

The combustible waste (Z) sorted by the blower sorter (16) is recovered and transported to a magnetic sorter (14a) that separates the metal buried in the combustible waste (Z) by riding the circulation conveyor belt (19) again, and the remaining metal After sorting, it is returned and transported to the smoke reduction reduction sorter 15 .

E) Non-combustible reduction-selection machine (non-combustible reduction reduction screening process (S 50))

The earth and stone (S) separated and sorted through the blower sorter (16) is introduced into the non-combustible reduced reduction sorter (17) that precisely reduces and separates the earth and rocks (S) on a conveying conveyor belt.

The non-combustible reduction sorter 17 is formed as a trommel sorter, and selects and transports the sorted soil (V) of 100 mm or more and the unsorted soil (S) of 100 mm or less according to the hole size.

2) 2-line sorting device

A) Quantitative supply device (quantitative supply process (S 10A), coarse waste)

The bulky waste with large volume and size transferred to the quantitative supply device 21 installed in the 2-line sorting device 20 on the input hopper conveyor belt 70 is continuously quantified by the rotation of the mixed type conveyor belt 110 . supplied with

3 and 4, by installing the input hopper conveyor belt 70 and the mixed type conveyor belt 110 for transferring the landfill waste separately from each other, a space is created in the lower part of the mixed type conveyor belt 110 will be.

Therefore, when transported on the mixed type conveyor belt 110, the overburdened coarse garbage is collected.

In addition, the mixed conveyor belt 110 prevents the rubber conveyor belt 111 from sagging or idling by being sagged or idling even when a heavy weight such as metal or large waste rock included in the coarse garbage is introduced and seated, and a chain conveyor that withstands a large weight It is a configuration devised to prevent bulky garbage from falling into the space between the belts 112 .

As such, the mixed type conveyor belt 110 prevents the chain conveyor belt 112 formed at the lower part from sagging and idling so as to withstand a heavy weight, and a rubber formed by coupling to the upper portion of the chain conveyor belt 112 . The conveyor belt 111 is configured to prevent landfill waste from falling down.

And the configuration of the mixed-type conveyor belt 110 is formed to be fixed by inserting a U-shaped jersey angle channel 113 between the left and right of the chain conveyor belt 112 installed in the lower portion, and the U-shaped jersey angle channel 113 is fixed. The rubber conveyor belt 111 is formed by bonding the rubber conveyor belts 111 to each other in close contact with each other. Therefore, the mixed type conveyor belt 110 is configured by coupling the chain conveyor belt 112 and the rubber conveyor belt 111 in close contact with each other.

In addition, the L-shaped hopper angle 114 is seated on the upper portion of the rubber conveyor belt 111, and the rubber conveyor belt 111 and the U-shaped jersey angle channel 113 are integrated with each other by coupling bolts 115. When fastened and fixed, the chain conveyor belt 112 and the rubber conveyor belt 111 are integrated and rotate.

In addition, on the surface of the hopper angle 114, the hopper rubber plate 116 is vertically connected by a fastener 115a at intervals so that coarse waste can be continuously and uniformly supplied in a fixed quantity without flowing. .

And when the driving shafts 118 and 118a driven by receiving the power of the driving motor 117 are driven, the mixed conveyor belt 110 coupled to both ends of the driving shafts 118 and 118a rotates.

In this way, when coarse garbage is seated on each hopper rubber plate 116 installed at intervals on the rubber conveyor belt 111 of the mixed type conveyor belt 110 and transported in an inclined manner, when the coarse garbage is seated more than the quantity supplied Since each hopper rubber plate 116 overflows and is discharged to the lower space of the mixed conveyor belt 110, it is always supplied continuously and quantitatively as much as the height of the hopper rubber plate 116. In addition, since the large stone ingots have a large volume, the hopper rubber plate 116 overflows and is discharged into the lower space, so that an overload does not occur in the quantitative supply device 21 .

And the coarse garbage, which is continuously supplied in a fixed quantity on the mixed conveyor belt 110, has a large diameter (Ø200 ~ Ø300mm) and is installed on the inlet side of the coarse trommel sorter 22 formed in double through the supply conveyor 220 to the inside. supplied and selected.

B) Coarse waste sorting (Coarse waste sorting process (S 20A), Coarse waste and combustible waste sorting)

① Coarse trommel sorting machine

As shown in FIG. 6, the coarse garbage continuously introduced into the coarse trommel sorter 22 in a fixed quantity through the quantitative supply device 21 is punched ((Ø200~Ø300mm) by the rotation of the coarse trommel sorter 22. ) through which the waste is discharged to the lower part, sorted, and supplied to the trommel sorter 23 formed in a double layer, and the unsorted combustible waste (Z) is transferred to the front.

At this time, the perforation of the coarse trommel sorter 22 can be selected by adjusting the size of the coarse waste according to the site conditions, and generally within Ø200 to Ø300mm is suitable.

② Trommel sorter (soil sorting process (S 30A))

The coarse garbage selected by the coarse trommel sorter 22 is supplied to the supply conveyor belt 230 on a transport conveyor belt and flows into the trommel sorter 23 formed in a double layer.

At this time, the trommel sorter 23 is the same as the trommel sorter 12 installed in the 1-line sorting device 10, is formed in a double, and the sorted soil V is discharged to the lower part by rotation and cannot be sorted. The combustible waste Z is transferred to the combustible material reduction sorter 24 installed in front.

③ Precision Soil Sorting Machine (Precision Soil Sorting Process (S 30))

The sorted soil (V) selected by the trommel sorter 23 is transported on the transfer conveyor belt 25, and through the discharge conveyor belt 25-1 of the 1-line sorting device 10, the soil precision sorter 13 It will flow into the soil and precision sorting of the soil will be carried out again.

In addition, the combustible waste separated from the sorted soil and sand and transferred to the front of the trommel sorter 23 is separated for metal through the magnetic sorter 14b, and the combustible waste from which the metal has been sorted is sent to the combustible material reduction sorter 24 in the front. are transported

C) Combustible waste sorting (combustible reduction reduction sorting process (S 40A))

The combustible waste sorted and transported by the combustible waste reduction sorter 24 is finally attached to or mixed with the combustible waste (Z) to sort the unsorted earth and stone (S). It is formed by a trollmel sorter, and is the same as the combustible material reduction sorter 15 of one line.

The earth and stone (S) selected by the specific gravity screening and rotation of the combustible material reduction separator 24 is discharged to the lower part and transported to the lower part of the combustible material reduction separator 15 installed in the 1-line sorting device 10 on a conveying conveyor belt and is non-combustible. It is transferred to the reduction sorting machine 17, and the sorting operation for each standard is performed.

And the combustible waste (Z) that is reduced and discharged to the front is transported to the shear shredder (30) on the combustible transport conveyor belt (80).

3) Shear type crusher (shredding process (S 60))

The combustible waste (Z) sorted by the combustible material reduction sorter (15) of the 1-line sorting device (10) and the combustible waste sorted by the coarse trommel sorter (22) of the 2-line sorting device (20) and a two-line sorting device ( 20), the combustible waste (Z) selected by the combustible reduction sorter 24 is transferred to the combustible transport conveyor belt 80, respectively, and is put into the input hopper 311 of the shear shredder 30 to be crushed.

The purpose of crushing the combustible waste (Z) is to prevent overload of the accurate impact dry sorter (40) and further adjust the standard of combustible fuel (SRF) in advance. Looking at the configuration of the shear type crusher (30), 8 and 9, the input formed on the upper front side of the main body 300 in order to put the combustible waste (Z) reduced and sorted by the 1-line sorting device 10 and the 2-line sorting device 20 A hopper 311 and a pair of rotors 312 and 312a rotating by receiving power from the motor 310 to cut and crush the combustible waste Z put into the input hopper 311, and the rotor ( It is configured to include shredding blades 313 and 313a for cutting and shredding combustible waste by being alternately inserted between the intervals at the 312 and 312a, respectively.

At this time, the shredding blade 313 formed in the front rotates forward at a low speed and the two blades formed opposite to each other to cut the combustible waste introduced into the input hopper 311 into the center rotates forward, and the shredding blade 313a formed in the rear is The three blades formed 120 degrees apart to cut and crush the infiltrated combustible waste are configured to rotate in reverse at high speed.

The shear shredder 30 configured as described above receives the power of the motor 310 when the sorted and transported combustible waste is put into the input hopper 311 formed in the upper front of the main body 300, and a pair of rotors 312 ) 312a rotates, and at the same time, the crushing blades 313 and 313a respectively mounted on the pair of rotors 312 and 312a rotate forward and reverse alternately. At this time, the shredding blade 313 installed in the front and rotating forward at low speed cuts the combustible waste introduced into the input hopper 311 at the same time as it feeds into the center, and the shredding blade 313a installed at the rear rotates in reverse at high speed while The combustible waste that has entered the center is cut and crushed to a predetermined size (Ø200 ~ Ø300mm) or less, discharged to the outlet 314 at the bottom, and then transferred to the impact dry sorter 40 on a conveying conveyor belt.

The shredding blade 313 formed in the front of the shear type shredder 30 introduces the combustible waste fed into the input hopper 311 into the center of the forward and reverse shredding blade 313 and the shredding blade 313a to cut it. Two blades are formed so as to rotate at a low speed, and the crushing blade 313a formed at the rear is formed of three blades to cut and crush the combustible waste introduced into the center and rotate at a high speed.

4) Impact dry sorting machine (Impact dry sorting process (S70))

The combustible waste (Z) crushed and transported by the shear crusher 30 is dried in the impact dry sorter 40, and at the same time, earth and stone, which is a foreign material attached to the combustible waste, is separated and sorted.

Looking at the configuration of the impact dry sorter 40, as shown in FIGS. 10 and 11, an input hopper 411 formed on the upper front side of the main body 400 to put in the cut and crushed combustible waste (Z). ) and a pair of rotors (412) (412a) that receive power from a motor (not shown) and rotate in the forward direction at intervals to dry the combustible waste (Z) put into the input hopper 411 while moving forward. ) and the rotors 412 and 412a at intervals to form a plurality of circular plates 413 and 413a facing each other in all directions by fasteners 414 and 414a, respectively. In order to discharge the earth and stone separated from the combustible waste that is dried by the rotation of the rotor blades 415 and 415a generating A screen network 416 with a plurality of perforations and an outlet 417 for discharging dry combustible waste while being transported forward by the rotary blades 315 and 315a inside the body 400 are configured to be included. .

In the impact dry sorter 40 configured as described above, when the cut and crushed and transported combustible waste is put into the input hopper 411 formed in the upper front of the main body 400, the power of the motor is transmitted to the pair of rotors 412 ) (412a) rotates forward, respectively, and transports the crushed combustible waste to the front. At this time, the combustible waste is dried with the wind introduced into the input hopper 411 and the drying airflow generated while the rotor blades 415 and 415a mounted on the rotors 412 and 412a rotate. In addition, the combustible waste that is transported and rotated forward by the rotation of the rotor blades 415 and 415a is dried by friction rubbed against each other as well as the combustible wastes attached to each other in a sandwich manner are separated into individual pieces. Since foreign substances (soil, soil, etc.) are separated and discharged, when used as a combustible fuel, it is incinerated while complete combustion.

In addition, the debris attached to the combustible waste is separated by the rotation of the rotor blades 415 and 415a and the friction of the combustible waste is discharged through the screen net 416 formed at the bottom, and the dried combustible waste is discharged through the outlet 417 ) is discharged and transferred to the compression and binding device 50 .

5) Compression and binding device (compression and binding process (S 80))

The combustible waste crushed and dried to a high purity as described above is passed through a known compression and binding device 50 and compressed into a rectangular parallelepiped shape, and then processed into combustible fuel (SRF) by binding it with an iron wire or PP wire, and then processing the combustible waste. It is to be transferred to the lapping device 60 for packaging the fuel.

The compression and bundling device 50 according to the present invention is a device for extruding and binding the combustible waste (Z), and it is sufficient to use a technique disclosed in the market.

7) Lapping device (packaging process (S 90))

As described above, the combustible fuel (SRF) compressed and bound by the compression and binding device 50 is packaged in the wrapping device 60, and then shipped as a combustible compressed product.

The wrapping device 60 is as shown in FIGS. 12 and 13 . That is, the combustible waste Z first compressed and bound by the compression and binding device is transported to the lapping device 60 on the conveyor belt 61 . The transported combustible waste forms a cross-wrapped object 63 on the cross-wrap conveyor 62, and the cross-wrapped material 63 continuously forms a horizontal wrapping material 65 on the horizontal wrap conveyor 64. , the PP bending wrapping material 67 is automatically formed in 5-stage bundles by the PP automatic bending machine 66 and transferred to the forklift truck conveyor so that it can be shipped as a combustible compressed material.

At this time, the lapping device 60 drives all power transmission by using an electric motor, thereby lowering the manufacturing cost and requiring less power cost due to partial operation. In addition, it may be considered that the device may be more complicated than that of a hydraulic motor by using ready-made products for all electric motors, but there is an advantage in that the manufacturing cost is low.

Although the technical idea of the present invention has been described above, the preferred embodiment of the present invention is exemplarily described, and the present invention is not limited thereto. In addition, it is a clear fact that anyone with ordinary skill in the art can make various modifications and imitations within the scope of the technical idea of the present invention.

10. 1-line sorting device 11. Quantitative supply device
12. Trommel sorter 13. Precision soil sorter
14a, 14b. Magnetic sorting machine 15. Combustible material reduction sorting machine
16. Blower sorting machine 17. Non-combustible reducing burner sorting machine
18. Recovery conveyor belt 19. Circulating conveyor belt
20. 2-line sorting device 21. Quantitative supply device
22. Coarse trommel sorter 23. Trommel sorter
24. Combustible material reduction sorter 30. Shear type crusher
40. Impact dry sorting machine 50. Compression and binding device
60. Lapping device 61. Conveyor belt
62. Cross wrap conveyor 63. Cross wraps
64. Horizontal wrap conveyor 65. Horizontal wrap
66. PP automatic banding machine 67. PP banding and wrapping material
70. Feeding hopper conveyor belt 80. Combustible conveying conveyor belt
110. Mixed Conveyor Belt 111. Rubber Conveyor Belt
112. Chain conveyor belt 113. U-shaped jersey angle channel
114. Hopper angle 115. Combination bolt
115a. Fastener 116. Hopper rubber plate
117. Drive motors 118, 118a. driving axle
300. Body 310. Motor
311. Feeding hoppers 312, 312a. rotor
313, 313a. Crushing blade 400. Main body
411. Feeding hoppers 412, 412a. rotor
413, 413. Round plates 414, 414a. fasteners
415, 415a. Rotor blade 416. Screen mesh
417. Outlet

Claims (10)

In order to increase the hourly output of landfill waste and to sort excellent combustible waste and earth and soil, the 1-line sorting device 10 is equipped with general landfill waste and the 2-line sorting device 20 has a A sorting device is configured, and a fixed quantity supply process (S 10) (S 10A) of supplying each of the fixed quantity supply units 11 and 21 formed of the mixed type conveyor belt 110 so as to continuously supply waste;
The general landfill waste that is quantitatively supplied through the quantitative supply device 11 installed in the 1-line sorting device 10 is general landfill waste that sorts the sorted soil (V) and combustible waste through the trommel sorter 12 formed in a double layer. screening process (S 20);
The sorted soil is transferred to the precision sand sorter 13, and the precision sorting process (S30) of precisely sorting the sorted soil and combustible waste and the sorted combustible waste are separated by metal through a magnetic sorter (14a) to reduce combustibles a combustible material reduction sorting process (S40) of transporting to the sorter 15 and sorting earth and stone and combustible waste;
The earth and stone selected through the combustible reduction separator 15 are separated and separated from the earth and stone and combustible waste through the blower sorter 16, and the selected combustible waste is returned to the combustible reduction separator 15, and at the same time the selected earth and stone is non-combustible. a non-combustible reduction screening process (S50) of sorting rocks of different sizes through a reduction separator 17;
A coarse waste sorting process (S 20A) in which the coarse waste quantitatively supplied through the fixed quantity supply device 21 installed in the two-line sorting device 20 is separated from the coarse waste through the coarse trommel sorter 22 with a large perforation );
The sorted soil (V) is a soil selection process (S 30A) of sorting the sorted soil (V) and combustible waste (Z) through the trommel separator 23 formed in a double;
The sorted sand (V) is transferred to the precision sand sorting process (S 30) for transferring and sorting to the precision sorting machine 13 installed in the 1-line sorting device 10, and the sorted combustible waste (Z) is a magnetic sorter After separating the metal through (14b), the combustible material reduction screening process (S 40A) of sorting the earth and stone (S) and the combustible waste (Z) through the combustible material reduction separator 24;
Earth and stone (S) selected in the combustible reduction reduction screening process (S 40A) is transferred to the non-combustible reduction separator 17 installed in the 1-line screening device 10, and the incombustible reduction reduction screening process of sorting into different sizes of soil and stones (S) (S 50);
The one-line sorting device 10 and the two-line sorting device 20 are operated at the same time to sort the sorted soil (V), soil (S), and combustible waste (Z), respectively, and the one-line sorting device (10) and A crushing process (S60) of crushing the combustible waste (Z) sorted by the two-line sorting device (20) with a shear type crusher (30);
Impact dry sorting process (S70) of transporting the crushed combustible waste to the shear crusher 30 and drying the earth and stone and combustible waste by the impact dry sorting machine 40;
a compression process (S80) of compressing and binding the combustible waste (Z) dried in the impact dry sorter (40) with a compression and bundling device (50);
a packaging process (S90) of packaging the combustible waste compressed and bound by the compression and binding device 50 in a wrapping device 60;
A sorting method for sorting debris and combustible waste from landfill waste, characterized in that it comprises a. A one-line sorting device 10 for sorting general landfill waste and a two-line sorting device 20 for sorting large and bulky bulky waste are operated simultaneously to increase the production of landfill waste per hour, and the sorted soil (V) and Smart sorting device (SM) formed in two lines to sort the earth and stone (S) and combustible waste (Z);
a shear type shredder 30 for cutting and crushing the combustible waste (Z) that has been sorted and transported from the smart sorting device (SM) into the input hopper 311;
an impact dry sorter (40) for drying the combustible wastes crushed by the shear shredder (30) by dry airflow and friction and sorting out foreign substances from combustible wastes;
a compression and binding device 50 for compressing and binding the combustible waste (Z) dried in the impact dry sorter (40);
a wrapping device (60) for packaging the combustible waste (Z) compressed and bound in the compression and bundling device (50);
A sorting system for sorting debris and combustible waste from landfill waste, characterized in that it comprises a. 3. The method of claim 2,
The 1-line sorting device 10 is
a quantitative supply device 11 for continuously supplying a fixed quantity of general landfill waste with a relatively small size and volume so as to be sorted;
a trommel sorter 12 formed in a double layer to sort the general landfill waste supplied and transported in a fixed quantity from the fixed quantity supply device 11 into sorting soil and combustible waste;
The sorted soil selected by the trommel sorter 12 is transferred after separating the metal through a magnetic sorter 14a, and finally a precision sorting machine 13 formed of a trommel to precisely sort the sorted soil and combustible waste;
The combustible waste selected by the trommel sorter 12 is transported after separating the metal through the magnetic sorter 14a, and a combustible material reduction sorter 15 for sorting the earth and the combustible waste in order to reduce the weight;
a non-combustible reduction sorter (17) for reducing and sorting the earth and stones selected in the combustible material reduction sorter (15) to different sizes;
A sorting system for sorting debris and combustible waste from landfill waste, characterized in that it comprises a. 4. The method of claim 3,
Earth and stone separated and transported by the combustible material reduction sorter 15 is transferred to the blower sorter 16 to separate and sort the earth and stone and combustible waste, and the magnetic sorter in the process of returning the sorted combustible waste to the combustible material reduction sorter 15 A sorting system for sorting debris and combustible waste from landfill waste, characterized in that it passes through (14a) to separate the metal and circulate to the combustible reduction separator (15). 3. The method of claim 2,
The two-line sorting device 20 is
a quantitative supply device 21 for continuously supplying bulky wastes with large sizes and volumes in a fixed quantity;
a coarse trommel sorter 22 formed with a large diameter (Ø200 to Ø300mm) to sort the coarse garbage supplied and transferred in a fixed quantity from the quantitative supply device 21 into sorting soil and combustible waste;
a trommel sorter 23 formed double to sort the garbage of 300 mm or less selected by the coarse trommel sorter 22 to sort soil and combustible waste;
The sorted soil selected by the trommel sorter 23 is transferred to the trommel sorter 12 discharge conveyor belt 25-1 of the 1-line sorting device 10, and the sorted combustible waste is transferred to the magnetic sorter 14a. a combustible material reduction sorter 24 that separates metal through and transports and sorts earth and rocks and combustible waste to reduce weight;
is made, including
The earth and stone selected in the combustible reduction reduction separator 24 is transferred to the discharge conveyor under the incombustible reduction reduction separator 17 of the 1-line screening device 10 and put into the incombustible reduction reduction separator 17, and the combustible waste is transferred to the inflammable material transport conveyor belt ( 80), a sorting system for sorting debris and combustible waste from landfill waste, characterized in that it is transferred to. 4. The method of claim 3,
The quantitative supply device 11 is connected to the drive shafts 118 and 118a, and receives the power of the drive motor 117 to drive the chain conveyor belt 112 inclinedly;
a U-shaped jersey angle channel 113 installed between the chain conveyor belts 112 on both sides to support the load while maintaining the distance between the chain conveyor belts 112;
a rubber conveyor belt 111 driven in close contact with the upper surface of the U-shaped jersey angle channel 113;
Hopper angle 114 installed at regular intervals on the upper surface of the rubber conveyor belt 111;
The U-shaped jersey angle channel 113, the rubber conveyor belt 111, and the hopper angle 114 are fastened with a fastener 115a so as to be integrally driven, and vertically coupled to each of the hopper angles 114. a hopper rubber plate 116 formed to continuously supply landfill waste in a fixed quantity;
A sorting system for sorting debris and combustible waste from landfill waste, characterized in that it comprises a. 3. The method of claim 2,
The shear type shredder 30 includes an input hopper 311 for putting in combustible waste on the upper front side of the main body 300, and a motor to cut and crush the combustible waste (Z) put into the input hopper 311. A pair of rotors 312 and 312a rotated by receiving the power of 310, and a shredding blade inserted between the rotors 312 and 312a at a space apart from each other to cut and crush combustible waste ( 313) A sorting system for sorting debris and combustible waste from landfill waste, characterized in that it includes (313a). 8. The method of claim 7,
The shredding blade 313 has two blades opposite to each other to feed and cut the combustible waste introduced into the input hopper and rotate forward at a low speed, and the crushing blade 313a 120 cuts and crushes the combustible waste that has entered the input hopper. A sorting system for sorting debris and combustible waste from landfill waste, characterized in that three blades formed with an interval between them rotate in reverse at high speed. 3. The method of claim 2,
The impact dry sorter 40 includes an input hopper 411 formed on the upper front side of the main body 400 to put in the cut and crushed combustible waste (Z);
A pair of rotors 412 and 412a that receive power from a motor and rotate in the forward direction at intervals to dry the combustible waste Z put into the input hopper 411 while moving forward;
The rotors 412 and 412a are respectively fixedly mounted by fasteners 414 and 414a in all directions inside the facing circular plates 413 and 413a so that a plurality of them are formed at intervals to generate a dry airflow. Rotor blades (415) (415a) and,
On the lower surface of the pair of rotors 412 and 412a, a plurality of perforated screen nets 416 for discharging the earth and stone separated from the combustible waste dried by the rotation of the rotary blades 315 and 315a;
A sorting system for sorting debris and combustible waste from landfill waste, characterized in that it includes an outlet (417) for discharging dry combustible waste while being transported forward by the rotary blades (315, 315a).

6. The method of claim 5,
The quantitative supply device 21 is connected to the drive shafts 118 and 118a, and receives the power of the drive motor 117 to drive the chain conveyor belt 112 inclinedly;
a U-shaped jersey angle channel 113 installed between the chain conveyor belts 112 on both sides to support the load while maintaining the distance between the chain conveyor belts 112;
a rubber conveyor belt 111 driven in close contact with the upper surface of the U-shaped jersey angle channel 113;
Hopper angle 114 installed at regular intervals on the upper surface of the rubber conveyor belt 111;
The U-shaped jersey angle channel 113, the rubber conveyor belt 111, and the hopper angle 114 are fastened with a fastener 115a so as to be integrally driven, and vertically coupled to each of the hopper angles 114. a hopper rubber plate 116 formed to continuously supply landfill waste in a fixed quantity;
A sorting system for sorting debris and combustible waste from landfill waste, characterized in that it comprises a.

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