KR200353106Y1 - The screening machine for physical separation of washing fluid and soil - Google Patents

Abstract

The present invention relates to a vibrating screen for screening reconstructed soil from a wash solution containing soil that is contaminated and washed.

The vibrating screen device for separating contaminated soil washing liquid and restored soil of the present invention includes an input hopper 21 having an upper screen 21A therein; Removably coupled to the lower end of the input hopper 21, the restoration soil discharge port (D ₁ ) and the washing liquid discharge port (D ₂ ) is provided on the side, the lower screen 22A and the inclined plate 22B is installed on the enclosure A main body 22; Is connected to the main body 22 and a plurality of springs (S), it is composed of a support 23 provided with a motor (M) for flowing the main body.

The vibrating screen device of the present invention has an advantage that it can be used irrespective of the type of contaminated soil because the installation cost and operating cost of the present invention can be adjusted freely and the particle size of the detachable restored soil can be freely adjusted by properly selecting the eye of the screen.

Description

The screening machine for physical separation of washing fluid and soil

The present invention relates to a vibrating screen for screening reconstructed soil from a washing liquid containing soil being contaminated and washed. More specifically, the present invention relates to a washing liquid in which contaminated soil is being washed to restore soil contaminated by arsenic, heavy metals, tailings, and the like. After being fed, the multi-stage screen vibrated by the motor separates and discharges the washing liquid containing fine soil which cannot be used as restoration soil and granular soil which can be used as restoration soil with a relatively large particle size. It relates to a contaminated soil washing solution and a vibrating screen for separating reconstructed soil.

Since the Industrial Revolution, today's industries have been developed almost entirely based on petroleum energy, and today's living standards have improved to a level comparable to before the Industrial Revolution. It is a serious problem that threatens life.

Environmental pollution can be classified into air pollution, water pollution, and soil pollution. Among them, soil pollution can be a very serious threat to food production, and it can cause pollution of drinking water sources through surface water and groundwater pollution. Therefore, contaminated soil must be cleaned up quickly.

However, today's industry is based on the mechanical industry, and almost all machines need oil directly, such as lubricating oils and fuels, and in particular, oil consumed by various vehicles, one of the most essential in modern life. The amount of oil is consumed so much that it cannot be measured, and due to the carelessness and inevitability of oil during transportation, storage and use, a large amount of oil is leaked to the outside and polluting the soil.

In addition, the soil is contaminated by various organic or inorganic compounds and heavy metals contained in the tailings flowing out of the mine, in addition to the oil as described above, various methods have been researched and developed to restore the contaminated soil.

Methods for restoring contaminated soil 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. As can be distinguished, it is relatively easy among the various methods as described above, and because of the short treatment time, it is the soil washing that can quickly restore the contaminated soil.

Soil cleaning is a technique that reduces the surface tension of harmful organic pollutants bound to soil particles by using an appropriate cleaning agent, or converts heavy metals into liquid phase to separate them from soil particles, which can remove a wide range of organic and inorganic pollutants. Bar, there is an advantage that can be applied regardless of the type of contaminants.

The soil washing technique was first developed in the United States in the late 1970s, but is now more developed and used in Europe than the United States, and is one of the most widely used methods for restoring contaminated soil. It is suitable for the current situation in which a large amount of various organic and inorganic pollutants are discharged, and is recognized as one of the methods of purifying relatively economically and efficiently.

The soil washing method can be divided into field treatment (In-situ method) and off-site treatment (Ex-situ method), the field treatment method does not excavate contaminated soil, washing solution injection well, washing solution discharge well, washing Effluent treatment facility, pump and instrumentation facility, and volatile material treatment facility are installed in the contaminated site to circulate the wash water in the contaminated soil to treat the contaminated soil directly. Because of this, if you want to wash the soil mainly the off-site treatment method is applied.

The off-site treatment method detects the distribution of contaminants in soil and physical / chemical characteristics of the soil, excavates the contaminated soil in the range to be treated, and then removes the contaminated soil excavated using an appropriate cleaning solution at As a method of washing, generally referred to as soil washing.

As a facility for washing soil as an off-site treatment method as described above, the domestic registration utility model publication Nos. 20-0304970 and 20-0317747 disclose a soil washing apparatus and a large-scale soil washing system, respectively.

The restored soil washed through the soil washing facility as described above is separated from the washing liquid discharged from the washing tub, and the washing liquid contains not only granular soil that can be used as the restoring soil but also a large amount of fine soil that cannot be used as the restoring soil. Therefore, the restored soil must be separated from the washing liquid.

As a conventional general apparatus used to separate the restored soil from the washing liquid discharged from the washing tub as described above, there are a centrifuge or a filter press. In addition to the high utility costs required to operate the same equipment, there is a problem that the separation of fine soil is difficult.

The present invention was devised to solve all the problems of the conventional washing liquid sorting apparatuses that separates the restored soil from the washing liquid discharged from the washing tanks of the conventional soil washing facilities to purify the contaminated soil. In addition, the object of the present invention is to provide a device for separating contaminated soil washing liquid and reclaimed soil, which is not only relatively inexpensive but also efficiently divides the restored soil from the washing liquid.

Figure 1 is a partial configuration of the soil washing equipment used in one embodiment of the present invention.

2 is a front view of an embodiment of the present invention.

Figure 3 is a partial separation cross-sectional view of one embodiment of the present invention.

Figure 4 is a graph of the cumulative weight ratio by soil particle diameter of contaminated soil.

5 is a graph of contaminated metal concentrations of contaminated soils and restored soils and particulate soils.

((Explanation of symbols for main part of drawing))

11. Wash Tank 12. Storage Tank

21. Input Hopper 22. Main Body

23. Support

21A. Top screen 22A. Bottom screen

22B. Inclined Plate 22C. Bottom plate

22D. Lower barrel 22E. Suspension

22F. Upper cylinder B. Fastening band

D ₁ . Restored soil drain D ₂ . Cleaning liquid outlet

S. spring

The above object of the present invention is achieved by a plurality of screens and a motor for vibration of the screens.

The vibrating screen device for separating contaminated soil washing liquid and the restored soil of the present invention includes granulated soil, which is granulated soil contained in the washing liquid supplied from the top to the bottom by a multi-stage screen vibrated by a motor. An apparatus for separating from a washing liquid, in which at least two or more screens are provided in up and down positions.

The device of the present invention having a plurality of screens as described above is composed of an input hopper, a main body on the enclosure connected to the lower end of the input hopper, and a support on which the main body is placed. By being connected to the upper portion has a structure capable of elastically flowing relative to the support.

In addition, a motor is installed in the support to automatically vibrate the main body, and the rotating shaft of the motor is connected to the lower part of the main body so as to elastically flow the main body with respect to the support in a state where the spring is interposed therebetween.

In the device of the present invention configured as described above, the number of screens may be added or subtracted as necessary, but the minimum wood screen through which particles of soil introduced into the main washing tank of a general soil cleaning facility can pass, for example, the first When the soil consisting of particles of 10 mm or less in diameter is introduced into the main washing tank after the contaminated soil is screened, a screen with a 10 mm × 10 mm eye, which is the minimum size through which soil particles of the largest diameter can pass, is screened. As the lower screen, a two-stage screening system that selects granular soils to be separated into reconstructed soils and fine soils to be sludged as a lower screen is most preferable in a washing facility currently operating.

In addition, the roles of the two screens in the apparatus of the present invention are different from each other, and the upper screen directly impinges on the lower screen while the granular soil contained in the washing liquid discharged from the washing tank is introduced into the apparatus of the present invention together with the washing liquid. This serves as a buffer to prevent damage to the fine lower screen, the role of separating the soil contained in the washing liquid into the fine soil that is sludged through the restoration soil and the post-process is the lower screen.

At this time, the carpenter (目 數) of the lower screen may vary depending on the particle size of the screening criteria of the granulated soil to be separated into the restored soil and the fine soil to be sludged, but it is most preferable to set the boundary particle diameter to separate the silt and sand Bar, also called Siltran silt, forms soil with sand and clay, and its particle size standard varies depending on the field, but it is in the range of 0.002 ~ 0.02mm according to the agreement of international soil society.

In addition, sand is a larger particle than silt, and clay is a smaller soil particle than silt. Soil particles having a particle size of silt or less have a high surface area to volume and have high activity. In addition to the very large, since the effect of reducing the pollution by the washing is very small, it is preferable to sludge because it can not be used as a restored soil after washing.

In other words, in the case of contaminated soil, the pollution degree increases as the particle size decreases, and when it becomes smaller than a certain size, the pollution degree rises rapidly, and the effect of lowering the pollution degree by washing is very low. Although it is preferable to increase the particle size of the fine soil to be sludged, the post-treatment cost is rapidly increased due to the increase of the sludge, and the carpenter of the lower screen is dependent on the condition of the soil, that is, the weight ratio and pollution degree of the soil particle size. Choose the appropriate carpenter.

The details of the purpose and technical constitution according to the present invention, including the effect thereof, will be clearly understood by the following description with reference to the drawings showing preferred embodiments of the present invention.

1 is a partial configuration diagram of a soil washing facility in which an embodiment of the present invention is used, FIG. 2 is a front view of an embodiment of the present invention, and FIG. 3 is a partial cross-sectional view of the embodiment of the present invention.

As shown, the contaminated soil washing liquid and vibrating screen device for restoring soil separation of the present invention is an inlet receiving the washing liquid containing the washing soil from the drum type washing tank 11 of the contaminated soil washing facility, the upper screen ( A funnel-shaped input hopper 21 provided with 21A);

The upper center portion is detachably coupled to the lower end of the input hopper 21, and the restoring soil discharge port D ₁ and the washing liquid discharge port D ₂ including fine soil are respectively provided on the upper and lower sides of the hopper 21, A main body 22 on the bottom of which a lower screen 22A and a conical inclined plate 22B are provided, respectively;

An upper surface is connected to the bottom of the main body 22 by a plurality of springs S, and a support 23 having a motor M for flowing the main body 22 by being detachably coupled to the bottom of the main body 22. It is composed of

And, the main body 22 is a structure that can be separated and combined in three stages using the fastening band (B) for smooth maintenance management, the bottom surface of the upper end of the plurality of springs (S) coupled to the upper surface of the support (23) A bottom plate (22C) coupled to the motor (M), the center plate coupled to the motor (M), and having a conical inclined plate (22B) having a downward slope from the center portion to the edge side;

A cylindrical lower cylinder 22D which is detachably erectly coupled along an edge of the bottom plate 22C and provided with a washing liquid discharge port D ₂ on a side thereof;

A cylindrical stopper 22E which is detachably erectly coupled to an upper end of the lower barrel 22D, the restoration soil outlet D ₁ is provided on a side thereof, and a lower screen 22A is installed therein;

The upper end portion and the lower end portion of the interruption hopper 22E and the lower end of the input hopper 21 is composed of a conical upper end cylinder 22F which is detachably coupled to each other.

The device of the present invention configured as described above is to restore the recovery soil of the granules filtered by the lower screen while the washing soil-containing washing liquid supplied from the main washing tank 11 proceeds from the top of the main body vibrated by the motor through the input hopper The soil is separated into the outside of the main body through the soil outlet (D ₁ ), and the highly contaminated fine soil is washed with the washing liquid along the inclined plate (22B) through the washing liquid outlet (D ₂ ) to the reservoir 12 of the contaminated soil washing facility. After being discharged and slurried, the pollution reduction degree of the restored soil which is easily separated through the apparatus of the present invention in a washing facility for restoring contaminated soil will be described through the following examples.

Example

The eye size of the upper screen and the lower screen was selected as 10mm × 10mm and 0.063m × 0.063mm, respectively, and the cumulative weight ratios of the contaminated soils before washing were shown in FIG. 3, before washing, contaminated soil, restored soil and fine soil. Figure 4 shows the concentration of each contaminated metal.

As shown, it can be seen that the fine soil having a particle diameter of 0.063 mm or less discharged to the storage tank 12 of the washing facility together with the washing liquid has a higher degree of contamination than the average contamination concentration of the first contaminated soil after washing. As shown, it means that sludge has to be recovered because it is difficult to restore the particulate soil by washing.

In addition, the eye of the upper screen is selected as 10mm × 10mm, because the soil particles of 10mm in diameter or less through the screening step before being introduced into the washing tank during the washing of the contaminated soil is generally introduced into the washing tank, The size of the screen eye should be appropriately selected according to the soil contamination, particle size distribution, etc., since the difference in the concentration of each soil is different depending on the size of the snow.

The eye of the lower screen is preferably selected to separate the soil particles having a particle size in the range of 0.02 ~ 0.1mm bar, the amount of sludge generated when the particle diameter to be separated exceeds 0.1mm to increase the amount of sludge If the treatment cost rises significantly and it does not reach 0.02mm, the amount of sludge decreases sharply, but as the highly contaminated fine soil is restored soil, not only the deterioration effect of the restored soil by washing is reduced, but also in some cases Restoration soils may not be suitable for use keys.

As described above, the vibrating screen device for separating contaminated soil washing liquid and restored soil of the present invention has a simple structure, and the manufacturing cost and operating cost required for operation management are cheaper than those of a conventional centrifuge or filter press, and the screen eye is removed. Since the particle size of the detachable restored soil can be freely adjusted by appropriate selection, there is an advantage that it can be used regardless of the type of contaminated soil.

Claims (3)

An apparatus for separating the restored soil from the washing liquid containing the washing soil discharged from the drum type washing tank, comprising: a funnel-shaped input hopper 21 having an upper screen 21A installed therein; The upper center portion is detachably coupled to the lower end of the input hopper 21, and the restoration soil discharge port D ₁ and the washing liquid discharge port D ₂ are respectively provided on the upper and lower sides of the hopper 21, and the lower screen on the inner center and the bottom surface. A main body 22 on a housing in which 22A and a conical inclined plate 22B are provided; A support 23 having an upper surface connected to the bottom of the main body 22 by a plurality of springs S, and having a motor M for flowing the main body 22; Vibration screen device for separating contaminated soil washing liquid and restored soil comprising a. According to claim 1, wherein the main body (22) and the bottom plate (22C) is coupled to the bottom surface of the upper end of the plurality of springs (S) coupled to the upper surface of the support (23); A cylindrical lower cylinder 22D which is detachably erectly coupled along the edge of the bottom plate 22C; A cylindrical suspension barrel 22E detachably erectly coupled to an upper end of the lower barrel 22D; Vibrating screen device for separating contaminated soil washing liquid and reclaimed soil, characterized in that consisting of a conical upper cylinder (22F) that the lower end and the upper end are separably coupled to the upper end and the lower end of the input hopper (21) of the stopper (22E). . 2. The vibrating screen device for separating soil and contaminated soil according to claim 1, wherein the lower screen (22A) is provided with snow for separating soil particles having a particle size in the range of 0.02 to 0.1 mm.