KR101106801B1 - Contaminated soil washing apparatus loaded in the vehicle - Google Patents

Abstract

PURPOSE: A polluted soil washing apparatus loaded on a vehicle is provided to control the power consumption of an electric magnet by controlling the magnetic strength of the electric magnet according to the content of iron in polluted soil. CONSTITUTION: A polluted soil washing apparatus loaded on a vehicle(100) includes an iron detecting part, a controlling part, a temperature detecting part, and a hot wind generating part. The iron detecting part detects iron from polluted soil which is transferred on a first conveyor belt. The content of the iron in the polluted soil is calculated according to an iron detecting signal. The magnetic strength of an electric magnet is controlled according to the content of the iron in the polluted soil. The controlling part controls the hot wind generating part according to the temperature information of washed soil.

Description

Contaminated soil washing apparatus loaded in the vehicle}

The present invention relates to a contaminated soil washing apparatus mounted on a vehicle, and in particular, a device for washing contaminated soil is mounted on a vehicle to quickly move to a corresponding site and arrive at the corresponding site, and according to the iron content in the contaminated soil. The present invention relates to a contaminated soil washing apparatus mounted on a vehicle for controlling the magnetic strength of a magnet to remove iron from the contaminated soil.

In general, environmental pollution can be classified into air pollution, water pollution, and soil pollution. Among them, soil pollution can be a very serious threat to daily life, and it causes pollution of drinking water sources through surface water as well as groundwater pollution. Contaminated soil needs to be cleaned up early.

In recent years, soil pollution in Korea is mainly caused by unauthorized landfill or leakage accident of liquid waste. In addition, it is caused by underground diffusion of ground stocks left over long periods of industrial activities. It is caused by several kinds of chemical species rather than a single compound, and representative compound pollution occurs in most industrial areas in the form of oils and heavy metals.

On the other hand, the soil of elementary school, middle school, high school playground, sand field, etc., where relatively young students live, is very important.

Recently, methods for restoring contaminated soils include physicochemical methods such as soil washing, incineration, solidification, stabilization and solvent extraction, and biological methods such as soil cultivation, composting, bioventing, and plant restoration. Among these methods, the soil washing method is relatively easy and can quickly restore the polluted soil.

The method of washing contaminated soil is a technique to reduce the surface tension of harmful organic pollutants bound to soil particles by using an appropriate cleaning agent or to separate heavy metals into liquid phase to separate them from soil particles. On the other hand, there is an advantage that can be applied regardless of the type of contaminants.

Soil washing method is divided into in-situ method and ex-situ method, and in-situ treatment method does not excavate contaminated soil, does not excavate contaminated soil, wash solution discharge well, wash Effluent treatment facility, pump and instrumentation facility, volatile material treatment facility, etc. are installed in the contaminated site to circulate the washing water in the contaminated soil to be treated directly to clean the contaminated soil. Of course, because of the lack of mobility, the soil washing method is mainly applied off-site treatment.

The off-site treatment method identifies the distribution of contaminants in the soil and the physical and chemical characteristics of the soil, excavates the contaminated soil in the range to be treated, and then cleans the excavated contaminated soil with a cleaning device using an appropriate cleaning solution. As a method of washing, it is used as a recently generalized soil washing method.

It is a technology to restore soil by removing various contaminants including oil and heavy metals attached to contaminated soil by selecting and washing soil contaminated by the conventional soil washing method in multiple stages. Domestic Patent No. 10-0534067 (Restoration of polluted soil) Soil washing methods and apparatuses for water treatment and screening) have been proposed.

The prior art is to screen the contaminated soil through a dry sorting step, a high pressure sprinkling sorting step, and then washed in a primary washing tank and discharged into a floating soil containing a large amount of contaminants and a sedimented soil containing a small amount of contaminants. In addition, the sedimented soil is washed in the secondary washing tank and discharged into fine soil and granulated soil at the same time, and the granulated soil is dehydrated and reduced to restoration soil. And it is a technology to make the contaminated sludge for disposal through the dehydration process, the contaminated washing water to neutralize and recycle.

The conventional prior art is to sort the soil particles with a large particle size in the dry sorter, high pressure sprinkler, washing process in the primary and secondary washing tanks, and then discard the fine soil and flotation soil produced in the washing process Since the waste is made of wastewater sludge and disposed of, the waste disposal costs are excessive, as well as a second environmental pollution caused by the waste.

The present invention has been made in order to solve the above-mentioned problems, the vehicle is equipped with a device for cleaning the contaminated soil to move quickly to the site and arrive at the site, the magnetic of the electric magnet according to the iron content in the contaminated soil It is an object of the present invention to provide a polluted soil washing apparatus mounted on a vehicle for controlling the strength to separate the iron in the polluted soil.

In order to achieve this object,

According to one embodiment of the present invention,

As a device for washing the contaminated soil mounted on the vehicle 100,

Iron separation device 30 for separating the iron using an electric magnet from the soil contaminated provided from the hopper 10 is carried on the first conveyor belt (20);

Washing screen device for high-pressure spraying the washing water supplied from the treatment tank storage tank 40 to the contaminated soil provided through the second conveyor belt 21 and separates the primary washing selected soil (90) 50;

Primary storage tank 60 for storing by stirring the washing water discharged from the washing screen device 50 by centrifugation;

A secondary storage tank 61 which receives the washing water stored in the primary storage tank 60 through a venturi tube 70 and stirs and stores the mixture by stirring by centrifugation; And

A dewatering screen (80) for secondary washing and dewatering of the primary wash-selected soil (90) with washing water stored in the secondary storage tank (61), and separating the secondary wash-selected soil (91);

Provided with

An iron detecting unit 200 for detecting iron in the contaminated soil transported on the first conveyor belt 20; And

The iron content of the contaminated soil transported on the first conveyor belt 20 is calculated according to the iron detection signal provided from the iron detection unit 200, and the magnetic strength of the electric magnet is controlled according to the calculated iron content. A control unit 300;

Characterized in that it comprises a.

Further, characterized in that it further comprises an ultraviolet generating unit 310 for generating ultraviolet rays to the secondary washing selected soil 91 under the control of the control unit 300 to sterilize the secondary washing selected soil (91). do.

A temperature sensing unit 320 for sensing a temperature of the secondary washing-selected soil 91; And

The hot air generating unit 330 for sterilizing the secondary washing-selected soil 91 by generating hot air to the secondary washing-selected soil 91 under the control of the controller 300,

The controller 300 controls the hot air generator 330 according to temperature information of the secondary washing-selected soil 91 provided by the temperature detector 320 so that the hot air generator 330 corresponds to the hot air generator 330. It is characterized in that to generate hot air at an intensity corresponding to the temperature.

The present invention is equipped with a device for washing contaminated soil in a vehicle to quickly move to the site to arrive at the site to control the magnetic strength of the electric magnet according to the iron content in the contaminated soil to separate the iron in the contaminated soil In order to achieve this, there is an effect that the power consumption of the electric magnet can be properly controlled.

In addition, since the ultraviolet generating unit 310 sterilizes the secondary washing-selected soil 91 by generating ultraviolet rays to the secondary washing-selected soil 91 under the control of the controller 300, the contaminated soil becomes safe. There is an advantage.

In addition, since the hot air generating unit 330 sterilizes the secondary washing-selected soil 91 by generating hot air to the secondary washing-selected soil 91 under the control of the controller 300, the contaminated soil is more secure. Become.

In this way, by removing iron, two washings, ultraviolet rays, and hot air generation, the polluted soils are almost eliminated by applying iron to soils. If applied to the back soil, you can get a greater effect.

1 is a view schematically showing an embodiment of a contaminated soil washing apparatus mounted on a vehicle according to the present invention.
Figure 2 is a view showing an embodiment of the contaminated soil washing apparatus shown in FIG.
Figure 3 is a block diagram showing an example added to the soil cleaning device shown in FIG.

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

1 is a view schematically showing an embodiment of the contaminated soil washing apparatus mounted on the vehicle 100 according to the present invention.

The present invention configured as described above will be described with reference to FIGS. 2 and 3.

2 is a view showing an embodiment of the contaminated soil washing apparatus shown in FIG. 1 in detail, the hopper 10, the first and second conveyor belts 20 and 21, the iron separator 30, and the treatment tank Storage tank 40, washing screen device 50, screens 51 and 52, primary and secondary storage tanks 60 and 61, venturi tube 70, dehydration screen 80, soil 90 and 91 ), A motor 190, a rotating shaft 191, and the stirring blade 192.

3 is a block diagram illustrating an example added to the contaminated soil washing apparatus shown in FIG. 2, and includes an iron detector 200, a controller 300, an ultraviolet ray generator 310, a temperature detector 320, and hot air generation. It is composed of a portion 330.

1 to 3, the present invention relates to a device for cleaning the soil contaminated by being mounted on the vehicle 100, as shown in Figure 1, each part except the soil (90, 91) is to the vehicle 100 Mounted.

The iron separator 30 is provided from the hopper 10 to separate the iron using an electric magnet in the contaminated soil transported on the first conveyor belt 20. At this time, the iron detecting unit 200 detects iron in the contaminated soil transported on the first conveyor belt 20 and provides the corresponding iron detecting signal to the control unit 300. The control unit 300 calculates the iron content in the contaminated soil transported on the first conveyor belt 20 according to the iron detection signal provided from the iron detection unit 200 and according to the calculated iron content, the magnetic strength of the electric magnet. Control the electrical magnets to properly separate the iron from the contaminated soil. Here, the metal detecting unit 200 rides on the first conveyor belt 20 before the iron separator 30 separates the iron using an electric magnet from the soil contaminated by the first conveyor belt 20. It should be installed to detect iron in the contaminated soil being transported.

The washing screen device 50 has two screens 51 and 52 installed in two stages, and washes water supplied from the treatment tank storage tank 40 to the contaminated soil provided through the second conveyor belt 21. High pressure spraying and primary wash screened soil 90 are separated.

The primary storage tank 60 agitates and stores the washing water discharged from the washing screen device 50 by centrifugation. At this time, the primary storage tank 60 is configured to continuously run the aeration process while stirring the wash water while rotating the stirring blade 192 coupled to the rotating shaft 191 to receive the power of the motor 190 is rotated It is provided.

The secondary storage tank 61 receives the washing water stored in the primary storage tank 60 through the venturi tube 70 and stores the secondary agitation by centrifugation followed by the primary agitation in the primary storage tank 60. do.

The dewatering screen 80 washes and dehydrates the first washing-selected soil 90 with washing water stored in the secondary storage tank 61, and separates the second-washing-selected soil 91.

The ultraviolet generating unit 310 generates ultraviolet rays to the final secondary washing-selected soil 91 under the control of the controller 300 to sterilize the final secondary washing-selected soil 91.

As described above, the process of sterilizing the final secondary washing-selected soil 91 is performed once again by another method.

First, the temperature sensing unit 320 detects the temperature of the final secondary washing-selected soil 91 and provides corresponding temperature information to the control unit 300.

The controller 300 controls the hot air generating unit 330 according to the temperature information of the final secondary washing-selected soil 91 provided by the temperature detecting unit 320 so that the hot air generating unit 330 corresponds to the corresponding temperature. Hot air is generated in the final secondary washing-selected soil 91 by the intensity so that the final secondary washing-selected soil 91 is sterilized once more after ultraviolet rays.

In this way, the present invention is equipped with a device for cleaning the contaminated soil in a vehicle to quickly move to the site to arrive at the site to control the magnetic strength of the electric magnet according to the iron content in the contaminated soil to remove the iron in the contaminated soil Since the separation, the power consumption of the electric magnet can be properly controlled.

In addition, since the ultraviolet generating unit 310 sterilizes the secondary washing-selected soil 91 by generating ultraviolet rays to the secondary washing-selected soil 91 under the control of the controller 300, the contaminated soil becomes safe. There is also an advantage.

In addition, since the hot air generating unit 330 sterilizes the secondary washing-selected soil 91 by generating hot air to the secondary washing-selected soil 91 under the control of the controller 300, the contaminated soil is more secure. Become.

In this way, by removing iron, two washings, ultraviolet rays, and hot air generation, the polluted soils are almost eliminated by applying iron to soils. If applied to the back soil, you can get a greater effect.

Although the preferred embodiments of the present invention have been disclosed for illustrative purposes, those skilled in the art will appreciate that various modifications, additions and substitutions are possible, without departing from the scope and spirit of the invention as disclosed in the accompanying claims. In addition, it is obvious that any person skilled in the art can make various modifications and imitations without departing from the scope of the technical idea of the present invention.

10: Hopper
20, 21: 1st, 2nd conveyor belt
30: iron separator
40: treatment tank storage tank
50: washing screen device
51, 52: screen
60, 61: Primary and secondary storage tanks
70: Venturi tube
80: dewatering screen
90, 91: Soil
100: vehicle
190: motor
191: axis of rotation
192: stirring blade
200: iron detector
300:
310: ultraviolet generation unit
320: temperature sensing unit
330: hot air generating unit

Claims (3)

As a device for washing the contaminated soil mounted on the vehicle 100,
Iron separation device 30 for separating the iron using an electric magnet from the soil contaminated provided from the hopper 10 is carried on the first conveyor belt (20);
Washing screen device for high-pressure spraying the washing water supplied from the treatment tank storage tank 40 to the contaminated soil provided through the second conveyor belt 21 and separates the primary washing selected soil (90) 50;
Primary storage tank 60 for storing by stirring the washing water discharged from the washing screen device 50 by centrifugation;
A secondary storage tank 61 which receives the washing water stored in the primary storage tank 60 through a venturi tube 70 and stirs and stores the mixture by stirring by centrifugation; And
A dewatering screen (80) for secondary washing and dewatering of the primary wash-selected soil (90) with washing water stored in the secondary storage tank (61), and separating the secondary wash-selected soil (91); Provided with
An iron detecting unit 200 for detecting iron in the contaminated soil transported on the first conveyor belt 20; And
The iron content of the contaminated soil transported on the first conveyor belt 20 is calculated according to the iron detection signal provided from the iron detection unit 200, and the magnetic strength of the electric magnet is controlled according to the calculated iron content. A control unit 300; Including;
A temperature sensing unit 320 for sensing a temperature of the secondary washing-selected soil 91; And
The hot air generating unit 330 for sterilizing the secondary washing-selected soil 91 by generating hot air to the secondary washing-selected soil 91 under the control of the controller 300,
The controller 300 controls the hot air generator 330 according to temperature information of the secondary washing-selected soil 91 provided by the temperature detector 320 so that the hot air generator 330 corresponds to the hot air generator 330. Polluted soil washing apparatus mounted on a vehicle, characterized in that to generate hot air at an intensity corresponding to the temperature.
The method according to claim 1,
Further, characterized in that it further comprises an ultraviolet generating unit 310 for generating ultraviolet rays to the secondary washing selected soil 91 under the control of the control unit 300 to sterilize the secondary washing selected soil (91). Soil cleaning equipment mounted on the vehicle.
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