KR20120062132A - Environmentally friendly wasted asphalt concrete recycle plant - Google Patents

Abstract

PURPOSE: An environmentally-friendly waste asphalt concrete recycling plant is provided to simultaneously and selectively operate a new aggregate treatment unit and a waste asphalt concrete treatment unit. CONSTITUTION: An environmentally-friendly waste asphalt concrete recycling plant comprises a new aggregate treatment unit(10), a waste asphalt concrete treatment unit(20), an asphalt pitch silo(30), a mixing unit(40), and a common back filter dust collector(50). The new aggregate treatment unit treats new aggregate mixed with waste asphalt concrete recycled from the waste asphalt concrete treatment unit. The waste asphalt concrete treatment unit pulverizes, dries, and recycles waste asphalt concrete. The asphalt pitch silo stores asphalt to be mixed with the new aggregate. The mixing unit mixes the new aggregate, the waste asphalt concrete, and the asphalt pitch and discharges the mixture to the outside. The common back filter dust collector is connected to first and second cyclone dust collectors(16,26) and collects fine dust and oil.

Description

Eco-Friendly Waste Ascon Recycling Facility {ENVIRONMENTALLY FRIENDLY WASTED ASPHALT CONCRETE RECYCLE PLANT}

The present invention relates to an eco-friendly waste asphalt recycling facility, and more specifically, to recycle waste asphalt concrete (hereinafter referred to as "waste asphalt)" collected by repaving work on asphalt pavement or repairing underground facilities. The present invention relates to an eco-friendly waste ascon recycling facility for recycling.

In general, asphalt pavement refers to a road paved with asphalt concrete (hereinafter referred to as "ascon") heated by mixing aggregates such as gravel and crushed stone with asphalt.

Such asphalt pavement is accompanied by deformations such as cracks, breakage or irregularities due to frequent vehicle traffic requires continuous maintenance and repair for safe vehicle traffic.

When repairing asphalt pavement roads, waste asphalt is inevitably generated after the process of resurfacing by adding new ascon (new ascon) to the part after crushing and removing road pavement. Is required.

In addition, when repairing underground facilities such as water / sewage pipes, gas pipes, electric power and communication cables buried underground in asphalt pavements, the road pavement in the relevant area is crushed and removed before repairing the underground facilities. Since repackaging works, waste ascon will inevitably occur and post-treatment is required.

When discarding and discarding used ascone collected by asphalt pavement or underground facility repair, it causes waste of resources and environmental pollution due to landfill treatment. Waste ascon recycling method that is recycled to the pavement by heating and drying by putting into a mounted dryer is widely used.

1 is a schematic structural diagram of a conventional waste ascon recycling facility.

As shown in FIG. 1, the conventional waste ascon regeneration facility 100 includes a first hopper 111 for storing and supplying new aggregates and a lower portion of the first hopper 111 for transferring new aggregates. 1st conveyer 112, the 1st dryer 113 which heats and drys the new aggregate conveyed by the 1st conveyor 112, and the 1st conveyance which conveys the new aggregate discharged | emitted from the 1st dryer 113 uplifting. The new aggregate processing unit including an elevator 114 and a first silo 115 installed under the upper end of the first transfer elevator 114 and storing and supplying new aggregate transferred through the first transfer elevator 114. 110, a second hopper 121 for storing and supplying waste ascon crushed after collection, a second conveyor 122 installed at a lower portion of the second hopper 121 to convey waste ascon, and a second Second dryer 123 for heating and drying the waste ascone conveyed by the conveyor 122 ), A second transfer elevator 124 for upwardly transferring the waste ascon discharged from the second dryer 123, and a second transfer elevator 124 installed below the upper end of the second transfer elevator 124 and transferred through the second transfer elevator 124. The waste ascon processing unit 120 including a second silo 125 for storing and discharging the waste ascon, the third silo 130 for storing and discharging the asphalt pitch, and discharged from the first silo 115 The mixing unit 140 and the first dryer 113 connected to the mixing unit 140 for discharging the asphalt aggregate discharged from the new aggregate and the second silo 125 and the asphalt pitch discharged from the third silo 130 are connected to the first dryer. The first dust collecting unit 150 for collecting the dust contained in the exhaust gas of the 113 and the second dust collecting dust and oil contained in the exhaust gas of the second dryer 123 and connected to the second dryer 123 2 comprises a dust collecting unit 160.

On the other hand, in the conventional waste ascon recycling facility 100 having the above-described structure, the first dust collecting unit 150 and the second dust collecting unit 160, respectively, cyclone dust collectors 151 and 161 for collecting dust using centrifugal force. a cyclone dust collector and a bag filter dust collector (153, 163) for collecting fine dust by using a bag filter, in the case of exhaust gas discharged from the second dryer (123); In addition, since a large amount of oil is contained, as the oil contained in the exhaust gas discharged from the second dryer 123 closes the pores of the bag filter, dust collection efficiency is lowered, and the replacement cycle of the bag filter is shortened and maintained. There was a problem that the cost is greatly increased.

Therefore, an object of the present invention can be effectively prevented from lowering the dust collection efficiency of the bag filter by the oil contained in the exhaust gas discharged from the dryer, as well as by the oil contained in the exhaust gas discharged from the dryer. It is to provide an eco-friendly waste ascon regeneration facility that can effectively prevent the replacement cycle.

An object of the present invention described above is a first hopper for storing and supplying new aggregate, a first conveyor installed at a lower portion of the first hopper and transferring new aggregate, and a new aggregate conveyed by the first conveyor. A first dryer for heating and drying, a first transfer elevator for transferring new aggregate discharged from the first dryer, and a new aggregate installed at an upper end of the first transfer elevator and transferred through the first transfer elevator A new aggregate processing unit including a first silo for storing and discharging, and a first cyclone dust collector connected to the first dryer and collecting dust contained in exhaust gas of the first dryer; A second hopper for storing and supplying the crushed waste ascon, a second conveyor installed under the second hopper and transferring the waste ascon, and drying and heating the waste ascon conveyed by the second conveyor. A second dryer, a second conveying elevator for transporting the waste ascon discharged from the second dryer, and installed in the lower end of the second conveying elevator to store and discharge the waste ascon conveyed through the second conveying elevator A waste ascon processing unit including a second silo and a second cyclone dust collector connected to the second dryer and collecting dust contained in exhaust gas of the second dryer; Asphalt pitch silos for storing and discharging asphalt pitches; A mixing unit configured to discharge the new aggregate discharged from the first silo of the new aggregate processing unit and the asphalt pitch discharged from the asphalt pitch silo and the waste ascon discharged from the second silo of the waste ascon processing unit; And fine dust discharged through the second cyclone dust collector connected to the first cyclone dust collector of the new aggregate treatment unit to collect the fine dust discharged through the first cyclone dust collector and to the second cyclone dust collector of the waste ascon treatment unit. It is achieved by providing an environmentally friendly waste ascon regeneration facility comprising a common bag filter dust collector for collecting and oil.

According to a preferred feature of the present invention, the fine aggregate storage silo is installed between the first cyclone dust collector and the common bag filter dust collector of the new aggregate treatment unit for storing the fine dust discharged through the first cyclone dust collector; And a fine dust injector installed between the fine dust storage silo and the common bag filter dust collector and spraying the fine dust in the fine dust storage silo to the common bag filter dust collector when the waste ascon processing unit is operated.

According to a preferred feature of the present invention, the fine dust and oil collected by the common bag filter dust collector are separately collected and then supplied to the mixing unit.

According to the environment-friendly waste ascon recycling facility according to the present invention, it is connected to the first cyclone dust collector of the new aggregate treatment unit to collect the fine dust discharged through the first cyclone dust collector and at the same time connected to the second cyclone dust collector of the waste ascon treatment unit As the common bag filter dust collector that collects the fine dust discharged through the 2 cyclone dust collector and the oil is applied, the oil discharged through the second cyclone dust collector is collected by the fine dust discharged through the first cyclone dust collector, Since clogging pores by blocking the pores may be fundamentally blocked, the reduction in the dust collecting efficiency of the bag filter by the oil contained in the exhaust gas discharged from the second dryer can be effectively prevented, as well as the second dryer. Replacement cycle of bag filter by oil contained in exhaust gas discharged from To be reduced has an excellent effect can be effectively prevented.

In addition, according to the eco-friendly waste ascon recycling facility according to the present invention, the fine dust discharged from the first cyclone dust collector of the new aggregate treatment unit is separately stored in the fine dust storage silo and supplied to the common bag filter dust collector when the waste ascon treatment unit is operated. In order to solve the problems such as reduction of dust collection efficiency of the bag filter due to oil and shortening of replacement cycle, it is possible to operate only the waste ascon processing unit separately without the need to operate the new aggregate processing unit and the waste ascon processing unit at the same time. Simultaneous operation of the aggregate processing unit and the waste ascon treatment unit, as well as selective operation is possible.

In addition, according to the eco-friendly waste ascon recycling facility according to the present invention, when the fine dust and oil collected by the common bag filter dust collector are separately collected and supplied to the mixing unit, no waste is generated, thereby causing environmental pollution. There is no outstanding effect at all.

1 is a schematic structural diagram of a conventional waste ascon recycling facility.
Figure 2 is a schematic structural diagram of an eco-friendly waste ascon recycling facility according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Reference will now be made in detail to the preferred embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the like elements throughout. , And this does not mean that the technical idea and scope of the present invention are limited.

Environment-friendly waste ascon recycling facility (1) according to the present invention is a facility for recycling the waste ascon collected by the repaving work on the asphalt pavement or underground facility repair work for recycling for road paving, shown in Figure 2 As described above, the first hopper 11 for storing and supplying new aggregates, the first conveyor 12 installed under the first hopper 11 and transferring new aggregates, and the first conveyor 12 The first dryer 13 for heating and drying the new aggregate transferred by the first, the first transfer elevator 14 for transferring the new aggregate discharged from the first dryer 13, and the upper end of the first transfer elevator 14. Installed in the lower portion and connected to the first silo 15 for storing and discharging new aggregates transferred through the first transfer elevator 14 and the first dryer 13 and included in the exhaust gas of the first dryer 13. The first cyclone dust collector (16) to collect the collected dust New aggregate processing unit 10 including; After the collection, the second hopper 21 for storing and supplying the crushed waste ascon, the second conveyor 22 installed under the second hopper 21 and conveying the waste ascon, and the second conveyor 22 The upper end of the second dryer 23 for heating and drying the waste ascon transferred, the second conveying elevator 24 for conveying the waste ascon discharged from the second dryer 23, and the second conveying elevator 24. The second silo 25, which is installed at the lower side and stores and discharges the waste ascon which is transferred through the second transfer elevator 24, is connected to the second dryer 23 and included in the exhaust gas of the second dryer 23. Waste ascon processing unit 20 including a second cyclone dust collector 26 for collecting the collected dust; Asphalt pitch silos 30 for storing and discharging asphalt pitches; Asphalt pitch discharged from the new aggregate discharged from the first silo 15 of the new aggregate processing unit 10 and from the second silo 25 of the waste ascon processing unit 20 and the asphalt pitch silo 30 Mixing unit 40 for discharging by mixing; And it is connected to the first cyclone dust collector 16 of the new aggregate processing unit 10 to collect the fine dust discharged through the first cyclone dust collector 16 and also connected to the second cyclone dust collector 25 of the waste ascon processing unit 20 And comprises a common bag filter dust collector 50 for collecting fine dust and oil discharged through the second cyclone dust collector 25.

Here, the new aggregate processing unit 10 is a portion for processing and transporting new aggregates that are mixed with the waste ascon recycled by the waste ascon processing unit 20 to form a road paving material, the first hopper for storing and supplying new aggregates ( 11), a first conveyor 12 installed below the first hopper 11 to transfer new aggregates, and a first dryer 13 for heating and drying new aggregates transferred by the first conveyor 12. ), A first transfer elevator 14 for transferring new aggregates discharged from the first dryer 13, and a lower end of the first transfer elevator 14 and installed through the first transfer elevator 14. Including a first silo (15) for storing and discharging fresh aggregate, and a first cyclone dust collector (16) connected to the first dryer (13) and collecting dust contained in the exhaust gas of the first dryer (13). Is done.

The first conveyor 12 is formed in the form of a horizontal conveyer belt, the first dryer 13 is formed in the form of a horizontal conveying furnace in which the burner is integrally installed, the first conveying elevator 14 is a first It is formed in the form of a known bucket elevator, skip hoist or inclined screw conveyor to ascend the new aggregate discharged from the dryer 13 to the first silo 15, and the first cyclone dust collector 16 is rotated inside the cylinder. A device for generating current and applying dust to a gas containing dust by centrifugal force to separate and collect the dust. The dust collected by the first cyclone dust collector 16 is provided to the mixing unit 40 which will be described later. It is preferable.

In addition, between the first transfer elevator 14 and the first silo 15, a first screen 17 for the selective storage of new aggregate is installed, between the first silo 15 and the mixing unit 40 to be described later. The first meter 18 is provided to adjust the amount of new aggregate to provide to the mixing unit 40.

As described above, the new aggregate processing unit 10 is not significantly different from the conventional waste ascon recycling facility 100 (refer to FIG. 1), and thus, a detailed description thereof will be omitted for simplicity.

The waste ascon processing unit 20 is a part for crushing and drying waste ascon collected by repaving work on asphalt pavement or repairing underground facilities, and recycling and recycling the waste ascon. 21, a second conveyor 22 disposed below the second hopper 21 and transferring waste ascon, and a second dryer 23 for heating and drying the waste ascon conveyed by the second conveyor 22. ), A second transfer elevator 24 for transferring the waste ascon discharged from the second dryer 23, and a lower transfer upper end of the second transfer elevator 24 and are transferred through the second transfer elevator 24. A second silo 25 for storing and discharging waste ascon and a second cyclone dust collector 26 connected to the second dryer 23 and collecting dust contained in the exhaust gas of the second dryer 23. Is done.

The second conveyor 22 is formed in the form of a horizontal conveying belt, the second dryer 23 is formed in the form of a horizontal conveying furnace in which the burner is integrally installed, the second conveying elevator 24 is a second It is formed in the form of a known bucket elevator, skip hoist, or inclined screw conveyor to ascend the waste ascon discharged from the dryer 23 to the second silo 25, and the second cyclone dust collector 26 is a rotary flow inside the cylinder. A device for generating dust and applying dust by applying centrifugal force to a gas containing dust, wherein the dust collected by the second cyclone dust collector 26 is provided to the mixing unit 40 which will be described later. desirable.

In addition, between the second transfer elevator 24 and the second silo 25 is provided a second screen 27 for the selective storage of waste ascon, between the second silo 25 and the mixing unit 40 to be described later. The second meter 28 is provided to adjust the amount of new aggregate to provide to the mixing unit 40.

The above-mentioned waste ascon processing unit 20 is not significantly different from the conventional waste ascon recycling facility 100 (refer to FIG. 1), and thus, a detailed description thereof will be omitted for simplicity.

Asphalt pitch silo 30 is to separate and discharge from the refinery to store and discharge the asphalt pitch to be mixed in the new aggregate, it has the structure of a conventional general silo.

The new aggregate discharged from the first silo 15 of the new aggregate processing unit 10 described above and the waste ascon discharged from the second silo 25 of the waste ascon processing unit 20 described above and the asphalt pitch silo 30 described above. Asphalt pitch discharged from the mixture is mixed by the mixing unit 40 and discharged to the final transport vehicle 3, the mixing unit 40 is formed in the form of a storage tank having a stirrer therein.

As described above, the asphalt pitch silo 30 and the mixing unit 40 are also not significantly different from the conventional waste ascon recycling facility 100 (see FIG. 1), and thus, detailed descriptions thereof will be omitted for simplicity.

The common bag filter precipitator 50 is simultaneously connected to the first cyclone dust collector 16 of the new aggregate processing unit 10 and the second cyclone dust collector 25 of the waste ascon processing unit 20 described above. The dust collector 50 collects fine dust that is not collected by the first cyclone dust collector 16 under less influence of the centrifugal force and is discharged without being collected by the second cyclone dust collector 26 under the influence of centrifugal force. A device that collects fine dust and oil contained in waste ascon at the same time, and includes a bag filter and an exciter that shakes out the fine dust stuck to the bag filter by applying external force or vibration to the bag filter. .

In the case of the eco-friendly waste ascon regeneration facility 1 according to the present invention, before the oil discharged from the second cyclone dust collector 26 adheres to the bag filter of the common bag filter dust collector 50 to close the pores, When the dust is collected in the cyclone dust collector 16, a large amount of fine dust discharged from the cyclone dust collector 16 is provided to the bag filter, so that the dust containing the oil can be effectively separated when the bag filter is shaken off by the exciter. The oil contained in the ascon may not only prevent the dust collecting efficiency of the bag filter from being lowered, but also shorten the replacement cycle of the bag filter.

In addition, the fine dust and oil collected by the common bag filter precipitator 50 is preferably separated from the bag filter by the exciter and then supplied to the mixing unit 40 described above, and thus to the common bag filter precipitator 50. As the fine dust and oil collected by the recycled ascon material is also utilized as a whole, the eco-friendly waste ascon regeneration facility 1 according to the present invention can recycle waste ascon eco-friendly since no waste is discharged at all.

In the case of the environment-friendly waste ascon regeneration facility 1 according to the present invention having the configuration as described above, in order to solve problems such as reduction of dust collection efficiency of the bag filter due to oil content and shortening of replacement cycle, the first cyclone dust collector 16 Since a large amount of fine dust discharged from the dust collection must be always provided to the common bag filter dust collector 50, the new aggregate processing unit 10 and the waste ascon processing unit 20 should be operated at the same time all the time. As a solution for this, by separately storing the fine dust discharged from the first cyclone dust collector 15 of the new aggregate processing unit 10 and sprayed and supplied to the common bag filter dust collector 50 when the waste ascon processing unit 20 operates. It is preferable that the ascon processing unit 20 is configured to be operated separately.

To this end, the environmentally friendly waste ascon recycling facility 1 according to the present invention is installed between the first cyclone dust collector 15 and the common bag filter dust collector 50 of the new aggregate processing unit 10 described above, and the first cyclone dust collector 10 is installed. Fine dust storage silo 60 for storing the fine dust discharged through the), and is installed between the fine dust storage silo 60 and the common bag filter dust collector 50, the fine dust during operation of the waste ascon processing unit 20 It is preferable to further comprise a fine dust injector 70 for forcibly spraying the fine dust in the storage silo 60 to the common bag filter dust collector (50).

The fine dust storage silo 60 is formed as a small silo or a storage tank, and the fine dust sprayer 70 is installed on the compressor and the common bag filter dust collector 50 forcibly pressing the fine dust in the fine dust storage silo 60. It may be made including a spray nozzle.

Therefore, in the case of recycling waste ascon with the environmentally friendly waste ascon recycling facility 1 according to the present invention, the common bag filter dust collector 50 is connected to the first cyclone dust collector 16 of the new aggregate processing unit 10 to be the first. The fine dust discharged through the cyclone dust collector 16 is collected, and at the same time, it is connected to the second cyclone dust collector 26 of the waste ascon processing unit 20 to collect the fine dust and oil discharged through the second cyclone dust collector 26. As a result, the oil discharged through the second cyclone dust collector 26 is collected by the fine dust discharged through the first cyclone dust collector 16, and is stuck to the bag filter to close the pores. Therefore, the deterioration of the dust collecting efficiency of the bag filter due to the oil contained in the exhaust gas discharged from the second dryer 23 can be effectively prevented and discharged from the second dryer 23. Shortening the replacement cycle of the bag filter by the oil contained in the exhaust gas can be effectively prevented.

In addition, in the case of recycling waste ascon with the environmentally friendly waste ascon recycling facility 1 according to the present invention, the fine dust discharged from the first cyclone dust collector 16 of the new aggregate processing unit 10 is stored in the fine dust storage silo 60. By storing separately and spraying and supplying to the common bag filter dust collector 50 when the waste ascon processing unit 20 operates, the new aggregate processing unit to solve problems such as dust collection efficiency reduction and shortening replacement cycle of the bag filter by oil. It is possible to separately operate only the waste ascon processing unit 20 without the need to simultaneously operate the 10 and the waste ascon processing unit 20 at the same time.

In addition, in the case of recycling waste ascon with the environmentally friendly waste ascon regeneration facility 1 according to the present invention, the fine dust and oil collected by the common bag filter dust collector 50 are separately collected and supplied to the mixing unit 40. As a result, no waste is generated, and as a result, it is possible to operate eco-friendly facilities without any concern about environmental pollution.

1: Eco-friendly waste ascon recycling facility according to the present invention
10: new aggregate processing unit
11: first hopper
12: first conveyor
13: first dryer
14: first transfer elevator
15: the first silo
16: first cyclone dust collector
20: waste ascon processing unit
21: the second hopper
22: second conveyor
23: second dryer
24: second transfer elevator
25: second silo
26: second cyclone dust collector
30: asphalt pitch silo
40: mixing unit
50: common ball filter dust collector
60: fine dust storage silo
70: fine dust sprayer
100: conventional waste ascon recycling facility

Claims (3)

A first hopper for storing and supplying new aggregates, a first conveyor installed under the first hopper and transferring new aggregates, a first dryer for heating and drying the new aggregates transferred by the first conveyor; A first silo for transferring the new aggregate discharged from the first dryer, a first silo installed under the upper end of the first conveying elevator, and storing and discharging the new aggregate conveyed through the first conveying elevator; A new aggregate processing unit connected to the first dryer and including a first cyclone dust collector configured to collect dust contained in the exhaust gas of the first dryer;
A second hopper for storing and supplying the crushed waste ascon, a second conveyor installed under the second hopper and transferring the waste ascon, and drying and heating the waste ascon conveyed by the second conveyor. A second dryer, a second conveying elevator for transporting the waste ascon discharged from the second dryer, and installed in the lower end of the second conveying elevator to store and discharge the waste ascon conveyed through the second conveying elevator A waste ascon processing unit including a second silo and a second cyclone dust collector connected to the second dryer and collecting dust contained in exhaust gas of the second dryer;
Asphalt pitch silos for storing and discharging asphalt pitches;
A mixing unit configured to discharge the new aggregate discharged from the first silo of the new aggregate processing unit and the asphalt pitch discharged from the asphalt pitch silo and the waste ascon discharged from the second silo of the waste ascon processing unit; And
Fine dust is connected to the first cyclone dust collector of the new aggregate treatment unit to collect the fine dust discharged through the first cyclone dust collector, and also connected to the second cyclone dust collector of the waste ascon treatment unit and discharged through the second cyclone dust collector; Eco-friendly waste ascon recycling facility including common bag filter dust collector which collects oil. The method according to claim 1,
A fine dust storage silo installed between the first cyclone dust collector and the common bag filter dust collector of the new aggregate processing unit and storing fine dust discharged through the first cyclone dust collector; And
It is installed between the fine dust storage silo and the common bag filter dust collector and further comprises a fine dust sprayer for injecting the fine dust in the fine dust storage silo to the common bag filter dust collector when the waste ascon processing unit is operated. Eco-friendly waste ascon recycling facility. The method according to claim 1 or 2,
Eco-friendly waste ascon recycling facility, characterized in that the fine dust and oil collected by the common bag filter dust collector is separated and collected and supplied to the mixing unit.

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