KR100471665B1 - sorting equipment of constructional wastes - Google Patents

Abstract

The present invention relates to a sorting device for sorting recycled aggregates from building wastes, and blows a strong wind to the soil generated when crushing the building waste generated at the time of demolition of the existing building to a certain size to remove foreign substances mixed with the soil. Since it is selected by the difference in specific gravity, there is a characteristic that can obtain a good recycled aggregate.

Looking at the configuration of the present invention through the operation process, the soil (6) mixed with the foreign matter conveyed by the conveyor (50a) is freely dropped into the sorting device, the relative gravity by the blower 10 provided on the rear side The high soil 6 is deposited in the first hopper 40, the foreign matter having a low specific gravity is deposited in the second hopper 41, and then the soil sand 6 is transported by the conveyor 50b to the storage site, foreign matter The silver is stored in the first bag 34 attached to the lower portion of the second hopper 41 and then transported to the combustible waste stockpile, and the scattered soil is transferred to the blower tube 11 by the blower 10, the blower 20 Is sucked into the cyclone dust collector 30 through the exhaust pipe 21, and when the swirl flow occurs inside the dust collector 30 by the tangential inlet 31, fine soil powder is discharged by the centrifugal force and gravity. Air collected in the bag 35 and filtered and treated is a swirl flow damper 37. And a series of operating procedures that flow out through the chimney 36.

As described above, the present invention collects the earth and sand generated during the shredding process of the various processes that are processed to use the construction waste generated during the demolition of the existing building as recycled aggregate, and then mixed with the earth and sand using a strong wind power Since the foreign substances are sorted by the difference in specific gravity, it is possible to obtain high quality recycled soil.

In addition, fine soil powder generated during the screening process is installed with a cyclone dust collector to prevent scattering into the air to prevent environmental pollution, and does not use the wash water to separate the soil and foreign matter, another effect is less environmental constraints have.

Description

Sorting equipment of constructional wastes}

The present invention relates to a sorting device for sorting recycled aggregates from building wastes, and more particularly, by blowing strong winds to the soils generated when crushing the building wastes generated at the time of demolition of existing buildings to a certain size. The present invention relates to a sorting device for construction waste, which can provide high quality recycled aggregates by selecting mixed foreign matters by the difference in specific gravity.

Recently, as urban redevelopment apartments and large-scale apartments are being rebuilt, more than 20 million tons of construction wastes are generated annually, and more construction wastes are expected in the future.

However, the construction wastes generated every year are extremely infrequent, and only a very small amount is recycled as roadbed or fill composition of road construction, and most of the remaining landfills are disposed of in the ground, or a considerable amount of unauthorized dumping. The situation is causing serious soil pollution.

Conventional techniques generally used for recycling aggregates or other by-products from civil engineering and construction wastes, as shown in the production process diagram shown in FIG. After removing the foreign matter such as wood and vinyl through the step (S1), after separating the soil (6) generated through the primary crushing process (S2) by a crusher such as jaw crasher (2), the remaining construction waste (5) is transferred through the belt conveyor (1) is moved to the primary magnetic screening process (S3), during which the scrap metal (7) is separated by the magnetic screen separator (3).

Then, foreign matters such as garbage and vinyl are removed through the secondary sorting process (S4) by manual labor, and transferred to the primary screen process (S5). After removing the foreign matter through the third sorting process (S6) by the naked eye, and then the building waste (5) shredded through the second shredding process (S7) is a secondary magnetic sorting process such as a magnet ( S8) is separated from the scrap metal (7), such as the reinforcing bars remaining in the primary magnetic screening process (S3), and then passed through the secondary screen process (S9) through a vibrating screen (4) consisting of a grid mesh sand (9a) ), Fine aggregate (9b) and coarse aggregate (9c) are sequentially separated to obtain a recycled aggregate.

In the process, the soil sand 6 obtained in the primary crushing process (S2) is difficult to use as recycled aggregate because foreign materials such as vinyl, styrofoam, fiber, etc. are mixed, and the wet sorter, which is a device for sorting it, is a domestic utility model It is proposed in the registered publication 136229.

Looking at the configuration, when the soil 6 obtained after the first crushing process (S2) continuously introduced into the water collecting tank 60 through the hopper 61, the soil sand 6 is submerged in water and various foreign substances having a specific gravity of 1 or less. Has a configuration that floats on the water surface in the sump (60).

Therefore, the earth and sand 6 submerged in the water can be discharged to the outside by the earth and sand discharge means 62 installed in the water collecting tank 60 under the hopper 61, the foreign matter floating on the water surface of the water collecting tank 60 is It has a structure which discharges to the outer side of the collection tank 60 by the foreign substance discharge means 63 installed in the outer side of the collection tank 60 on the water surface of 60.

In addition, sediment, such as sludge precipitated on the bottom of the sump tank 60 can be discharged to the outside of the sump tank 60 by the sediment discharge means 64 installed on the outside of the sump tank 60 at the bottom of the sump tank 60. Has a configuration.

The prior art has been secured to some extent that the production of aggregates by pure waste concrete can be effectively achieved by separating impurities contained in various building wastes, but it includes the following problems.

First of all, it is followed by a subsequent treatment process such as water purification treatment of the discharged water discharged in the process of removing impurities, and if the wastewater treatment is not smooth, secondary environmental pollution by the discharge water occurs. In addition, the efficiency of separating the floating impurities in the inside of the sump is lower than expected, and in the process of classifying foreign matters, sand is not collected and recycled.

In addition, there is a disadvantage that the water inside the sump can not be used in the winter season, which can not be used, there is a problem that must be deposited after drying the recycled aggregate in the wet state, there is a high risk of causing corrosion or failure by installing various mechanical devices in the sump I have another problem.

Therefore, the present invention was invented to solve the problems as described above, and after collecting the earth and sand obtained during the first shredding process, among the various processes that are processed to use the construction waste generated during the demolition of the existing building as recycled aggregate, The purpose is to obtain high-quality recycled aggregates by using the strong wind to sort the foreign matter mixed with the soil by the difference in specific gravity.

In addition, to prevent environmental pollution by installing a cyclone dust collector to prevent the fine soil, etc. generated during the screening process to be scattered to the atmosphere, and environmental restrictions are not used by using the washing water to separate the recycled aggregate and foreign matter as in the prior art Less is another purpose.

The present invention relates to a sorting device for sorting recycled aggregates from building wastes, and blows a strong wind to the soil generated when crushing the building waste generated at the time of demolition of the existing building to a certain size to remove foreign substances mixed with the soil. Since it is selected by the difference in specific gravity, there is a characteristic that can obtain a good recycled aggregate.

In the existing process for producing recycled aggregates, the earth and sand 6 obtained during the first crushing process (S2) is mixed with foreign substances such as vinyl, styrofoam, and various fibers, and a dry sorting device for effectively removing them is shown in FIG. 3. Is shown.

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

The dry sorting device of the present invention is composed of a blower 10, a blower 20, a cyclone dust collector 30, a hopper 40 and the like.

Looking at the configuration, first, the blower 10 is a mechanical device for compressing the outside air to increase the pressure, and then supplies the air into the sorting device, the soil 6 obtained in the primary crushing process (S2) is a conveyor When it is conveyed by 50a and supplied into the sorting device, free fall occurs, and when the wind generated from the blower 10 is blown into the free-falling soil 6, the soil 6 and the foreign matter are sorted by the difference in specific gravity. Has a configuration that can be

The first hopper 40 and the second hopper 41 are installed at the lower end of the blower 10. The first hopper 40 has a relatively high specific gravity soil 6 loaded therein, and the second hopper 41 is loaded. ), Foreign matters such as vinyl, styrofoam, and fiber having a relatively low specific gravity are stacked and transferred to the storage of the earth and sand 6 through a conveyor 50b provided under the first hopper 40 of the earth and sand, and the foreign matter. Is stored in the first bag 34 provided in the lower portion of the second hopper 41, and has a configuration that is transported to the combustible garbage storage.

The height-adjustable partition 42 between the first hopper 40 and the second hopper 41 is provided with a predetermined multi-stage hole, so that the amount of earth and sand 6 to be introduced and the wind generated from the blower 10. By adjusting the height of the partition wall 42 through fixing bolts in consideration of the strength of the soil, it is easier to distribute the soil 6 and foreign matter.

In addition, in the case of fine soil powder having a very low specific gravity, it is not accumulated in the hoppers 40 and 41, but is scattered by the wind and is directed to the exhaust fan 20 through the blower pipe 11. The exhaust fan 20 sucks air in the first hopper 40 and the second hopper 41 to vent the air into the exhaust pipe 21. The interior of the cyclone dust collector 30 is provided through the exhaust pipe 21. It has a configuration that flows into.

The front side of the blower pipe 11 is provided with a filter net 11a formed in an oblique lattice net form, so that relatively large particles of dust or light wastes scattered by the wind are filtered by the filter net 11a and the second hopper It is to be collected in the (41), the approximate grid spacing of the filter net (11a) is 1 ~ 2 mm using a mesh of about 15 mesh (mesh).

On the other hand, the cyclone dust collector 30 is a device for collecting the solid particles suspended in the gas, the dust collector used in the present invention is introduced into the cyclone dust collector 30 tangential inlet 31 to form a swirl flow As a result, the fine soil powder in the inflow air can be collected by the centrifugal force to escape from the swirl flow and collide on the inner wall of the cyclone dust collector 30.

Looking at the configuration, the fine soil powder introduced through the exhaust pipe 21 is first introduced through the tangential inlet 31 to form a swirl flow, and the fine soil powder collides with the centrifugal force and is connected to the cone portion 32. . The cone part 32 serves as a turning point of the swirl flow, and the diameter thereof becomes narrower toward the lower side, so that the speed of the swirl flow increases, so that the fine soil powder can be easily collected because a sufficient centrifugal force can be obtained.

At this time, the impact sedimented soil powder is collected by descending to the second bag (35) side, and the air dust removed is purified to clean air, and the swirl flow is removed by passing through the swirl flow weakener (37). Emissions into the atmosphere through 36) have no environmental pollution.

In addition, looking at the operating process of the present invention having the configuration as described above, the earth and sand (6) mixed with the foreign matter conveyed by the conveyor (50a) is freely dropped into the sorting device, the blower 10 provided on the rear side Soil 6 having a relatively high specific gravity is deposited in the first hopper 40, foreign matter having a low specific gravity is deposited in the second hopper 41, and then transferred to the soil 6 or the combustible waste storage, respectively. When the fine soil powder is scattered and transferred to the blower tube 11 by the blower 10, it is sucked by the blower 20 and introduced into the cyclone dust collector 30 through the blower tube 21, and the tangential inlet ( 31) and the conical portion 32, the fine soil powder is collected mostly in the second bag 35 by centrifugal force and gravity, and clean air flows out through the swirl flow damper 37 and the chimney 36 Has a series of working processes.

As described above, the present invention collects the earth and sand generated during the shredding process of the various processes that are processed to use the construction waste generated during the demolition of the existing building as recycled aggregate, and then mixed with the earth and sand using a strong wind power Since the foreign substances are sorted by the difference in specific gravity, it is possible to obtain high quality recycled soil.

In addition, the fine soil generated during the screening process to prevent dust from being scattered into the air to prevent environmental pollution, and there is another effect less environmental constraints because it does not use the washing water to separate the soil and foreign matter.

1 is a production process of the conventional recycled aggregate

Figure 2 is a front view of the conventional wet sorting device

Figure 3 is a front view of the dry sorting device of the present invention

[Explanation of symbols on the main parts of the drawings]

10 blower 11: blower

20: blower 21: blower

30 cyclone dust collector 31 tangential inlet

32: cone part 33: trunk part

34: 100 bags 35: 200 bags

36: chimney 37: swirl flow weakener

40: first hopper 41: second hopper

50a, 50b: conveyor

Claims (2)

delete In the sorting device for producing recycled aggregate using construction waste, The soil 6 mixed with foreign matters generated after the first crushing process S2 is freely dropped into the sorting device through the conveyor 50a, and the wind is strongly blown to the dropped soil 6 by using the blower 10. Soil (6) having a high specific gravity is blown into the first hopper 40 and then transferred to the storage yard by the lower conveyor (50b), foreign matter having a low specific gravity is deposited in the second hopper 41 and the lower first The bag is collected in the bag 34, the partition wall 42 is adjustable between the first and second hoppers 40, 41, the scattering dust is filtered on one side of the second hopper (41) 11a) passes through the blower tube 11, the blower 20, and the blower tube 21 into the cyclone dust collector 30 and is filtered, wherein the cyclone dust collector 30 has a tangential inlet port having centrifugal force in the fine soil powder ( 31) and the trunk portion 33, the cone portion 32 narrower toward the lower portion, and fine with centrifugal force It is characterized by consisting of a second bag 35 to collect the soil powder, a swirl flow weakener 37 to remove the swirl flow before the discharged purified air, and a chimney 36 to discharge the purified air Sorting equipment for building waste.