KR101489713B1 - Washing water dehydrator for separating system recycled gravel from wastebuilding products - Google Patents

Abstract

The present invention relates to a device for dehydrating soil powder mixed with washing water for a waste construction aggregate reproducing system. More specifically, soil powder and washing water are firstly separated by a precipitating method in a precipitating tank, wherein the soil powder and washing water are discharged from a step of reproducing a waste construction aggregate through washing, floater separation, metal separation, and pulverizing. The soil powder separated from the precipitating tank can be reproduced by being dehydrated by a dehydrating device (100). The dehydrating device (100) has a dehydrating plate (30) installed to be tilted and vibrated by means of a vibrator in a dehydrating tank (20) so that the soil powder (including washing powder) can be flowed to be tilted from the one side top to the other side bottom of the dehydrating plate, and the washing water included in the soil powder is separated by a plurality of dehydrating holes (31) formed in the dehydrating plate (30) so that a pure soil powder can be obtained.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a dehydrator for separating waste water from a waste water,

The present invention relates to a method for separating waste soil and waste water discharged from a waste water tank in a sedimentation tank by a sedimentation method in the process of recycling waste construction aggregate into aggregate by washing, float separation, metal separation and crushing process, The present invention relates to a dewatering apparatus for soil mixture cleaning water for a waste construction aggregate recycling system for dehydrating and reusing dewatered water. More specifically, (Including washing water) to the bottom of the other side by separating the washing water contained in the soil from the soil by the dewatering ball to obtain pure soils, will be.

Generally, when building is demolished, waste construction aggregate (concrete waste) is generated. Such waste construction aggregate is produced as construction aggregate by waste reclamation aggregate recycling system.

More specifically, the waste construction aggregate is collected, put into a hopper and subjected to a primary crushing operation. The crushed primary aggregate is transported by a conveying conveyor to partially remove the soil from the vibration screen after the metal separation operation. Perform work to separate suspended matter (foreign matter).

The pulverized construction aggregate washed in the washing tank is further divided into a multi-stage crushing operation and a metal separation operation to produce recycled aggregate while transferring the pulverized construction aggregate in a state of separating the soil from the pulverized construction aggregate by the discharge conveyor and the separating conveyor. will be.

During this process, the washing tank, the discharge conveyor, and the storage tank are provided under the separation conveyor to collect and wash the wash water discharged from the washing tank, the washing water and the soil discharged from the separation conveyor, and only the washing water is separated from the storage tank And was recycled to the washing tank.

However, the conventional storage tank has a problem in that it can not effectively reuse the washing water of the storage tank because the soil water is precipitated much in addition to the washing water and the floating water (foreign matter) is also present.

In order to solve these problems, the present applicant has disclosed a technique capable of effectively reusing washing water in Patent Application Laid-Open No. 10-2006-0027737. In this method, a sedimentation tank is provided instead of a storage tank, The water was overflowed by the sedimentation method and recycled, and the soil was separated from the sediment, and discharged to the outside by the discharge screw to be recycled.

However, during the process of discharging the soil particles settled in the settling tank to the outside, the washing water is discharged to the outside together with the soil, and since the spinal fluid is contained in the soil, the recyclability of the soil is lowered. It is not recycled and is drained to cause various water quality pollution.

Published Patent No. 10-2006-0027737 Registration Practical Utility Model No. 20-264696

Disclosure of Invention Technical Problem [8] Accordingly, the present invention has been made to solve the above problems of the prior art, and it is an object of the present invention to provide a method of recovering waste aggregate, And separating the soil from the sedimentation tank to obtain deionized water again to obtain pure soil.

Particularly, a dewatering plate vibrating by a vibrator is inclined inside the dewatering tank, so that the soil water (inclusive of washing water) is sloped from the upper side of one side of the dewatering plate to the lower side of the dewatering plate and the washing water contained in the soil is separated So that it can provide reusability.

The present invention relates to a method for separating waste soil and waste water discharged from a waste water tank in a sedimentation tank by a sedimentation method in the course of regeneration of waste construction aggregate by aggregation by washing, float separation, metal separation and crushing process, The dehydration treatment is performed again by the dewatering device,

The dewatering device may include a dewatering device in which a dewatering plate vibrating by a vibrator is installed in a dehydrating tank so as to be inclined from the upper side to the lower side of the other side and at least one dewatering hole is repeatedly formed in the dewatering plate from the upper side to the lower side, The washing water contained in the soil is separated and discharged during the process of flowing from one side of the upper side to the lower side of the other side.

The dewatering holes may be arranged such that the left and right dewatering holes in the form of a long hole overlap each other in the upward and downward directions from left and right sides of the dewatering plate. The left and right dewatering holes may be formed in a horizontal direction or in an oblique direction As shown in FIG.

The present invention is characterized in that the washing water is guided along the drainage hole so that the guide step protrudes along the drainage hole at a position below the drainage hole in order to increase the efficiency of the washing water.

The present invention relates to a method for separating waste soil and waste water discharged from a waste water tank in a sedimentation tank by a sedimentation method in the course of regeneration of waste construction aggregate by aggregation by washing, float separation, metal separation and crushing process, (Including wash water) from one side of the dewatering plate to the other side of the dewatering plate at an oblique rate while the dewatering plate is inclined, The deionized water contained in the washing water is separated by a dehydrating hole to obtain a pure soot, thereby having an excellent reusability.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a general view showing a waste building aggregate recycling system to which the present invention apparatus is applied. Fig.
2 is a side cross-sectional view showing the device of the present invention.
3 is a plan view showing the dewatering plate of Fig.
Fig. 4 is a perspective view of Fig. 3; Fig.
5 is a perspective view showing another embodiment of Fig.
FIG. 6 is a plan view showing another embodiment of FIG. 3; FIG.
FIG. 7 is a plan view showing another embodiment of FIG. 3; FIG.
8 is a use state view of the apparatus of the present invention.

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

As shown in FIGS. 1 to 6, the dehydrating apparatus for the soil mixture washing water for the waste construction aggregate recycling system according to the present invention is constructed such that the waste building aggregate is introduced into the washing tank 2 to separate washing and suspended matters, The waste water discharged from the washing tank 2 and the conveyor 3 is stored in the settling tank 10 during the regeneration of the aggregate by the metal separation and crushing process and the pulverized construction aggregate regeneration The dewatering device 100 is further connected to the sedimentation tank 10 of the system in order to rehydrate the soil water separated from the drain water.

In particular, the dewatering device 100 includes a dewatering plate 30, which is vibrated by a vibrator in the dewatering tank 20,

At least one dewatering hole (31) is repeatedly formed in the dewatering plate (30) from the upper side to the lower side of the other side so that the soil water is separated and discharged from the dewatering plate .

At this time, the soil water from which the washing water is separated from the dewatering plate (30) is separated and discharged to the lower side of the other side of the dewatering plate (30).

The dewatering holes 31 are arranged such that the left and right dewatering holes 31a and 31b in the form of elongated holes are overlapped in the upward and downward directions from left and right sides of the dewatering plate 30. The left and right dewatering holes 31a, 3, 4, and 6, it is formed in an oblique direction inclining downward from the outside to the inside.

3 and 4, the left and right dewatering holes 31a and 31b are arranged so as to overlap with each other by two thirds or more. In the case of FIG. 6, the left and right dewatering holes 31a and 31b, And 1/3 or less of the lengths are arranged so as to overlap with each other.

The left and right dewatering holes 31a and 31b are arranged so as to be overlapped with the left and right dewatering plates 30 in the upward and downward directions as shown in FIG. And is formed in a horizontal direction.

In addition, the dewatering hole 31 is provided with a guide step 35 protruding along the dewatering hole 31 at a lower position of the dewatering hole 31 in order to increase the separation efficiency of the washing water while the washing water is guided along the dewatering hole Respectively.

21 denotes a washing water discharging hole, 22 denotes a soot outlet, and 50 denotes a vibrator.

Hereinafter, the operation and operation of the present invention will be described.

First, as shown in FIG. 1, the pulverized construction aggregate is poured into a washing tank 2, washed and suspended, separated and transported by the conveyor 3, and the aggregate is regenerated by a metal separation and crushing process.

At this time, the wash water is discharged together with the soil from the washing tank 2 and the conveyor 3, which is stored in the sedimentation tank 10 and is firstly separated from the soil and washing water by the sedimentation method.

Then, the washing water is recycled to the washing tank 2 to be recycled, and the soil is also reused. Since the washing water is still contained in the soil, the water is dehydrated by the dehydrating apparatus 100 of the present invention, It is to be rehabilitated.

That is, the soil (including washing water) supplied to the dewatering unit 20 of the dewatering unit 100 is supplied to the upper portion of one side of the dewatering plate 30 which is inclined from the upper side to the lower side of the other side.

Thus, the soil (including the washing water) supplied to the upper portion of the dewatering plate 30 flows obliquely to the other side from the upper side of one side by the inclination of the dewatering plate 30 and the vibration of the vibrator 50.

During this process, the wash water contained in the soil is separated and discharged to the lower part by the dewatering hole 31 repeatedly formed at least one side from the upper side to the lower side of the other side of the dewatering plate 30.

The dewatering holes 31 of the dewatering plate 30 are arranged in such a manner that the left and right dewatering holes 31a and 31b are overlapped in the upward and downward directions from the left and right sides of the dewatering plate 30, The washing water contained in the soil water is effectively separated and discharged while repeatedly passing through the dewatering hole 31 while flowing from the upper side to the lower side of the other side of the dewatering tank 30.

At this time, the left and right dewatering holes 31a and 31b may be formed in an inclined direction or a horizontal direction, which is inclined downward from the outside of the dewatering plate 30, and may be formed in various shapes in addition to the dewatering plate 30, It is possible to increase the efficiency and efficiency of the washing water contained in the soil, because the number or probability of passing through the hole 31 is further increased.

In addition, the left and right dewatering holes 31a and 31b are formed by projecting a guide step 35 along the dewatering hole at a position below each dewatering hole so that the soil (including washing water) 35 to guide the washing water through the left and right dewatering holes 31a, 31b while being guided by the jig jig, it is possible to further increase the efficiency of the washing water contained in the soil water.

In this way, the washing water separated and discharged from the soil is supplied to the washing tank 2 through the washing water discharge hole 21 under the dewatering tank 20 to be reused, and the soil water is discharged into the soil discharge port (22).

2: Washing tank 3: Conveyor
10: settling tank 100: dehydrator
20: Dewatering tank 30: Dewatering plate
31, 31a, 31b: Dewatering hole 35:

Claims (4)

The soil and washing water discharged from the process of recycling asphalt-aggregate aggregate into aggregate by washing, float separation, metal separation and crushing processes are firstly separated by a precipitation method in a sedimentation tank, and the soil particles separated from the sedimentation tank are re- 100 to dehydrate and reuse it,
The dewatering device 100 includes a dewatering plate 30 which is vibrated by a vibrator in a dewatering tank 20,
At least one dewatering hole 31 is repeatedly formed in the dewatering plate 30 from the upper side to the lower side of the other side and a guide step 35 is formed to protrude along the dewatering hole 31 at a lower position of the dewatering hole 31 Wherein the soil water is separated and discharged from the soil water during the process of flowing from the one side of the dehydration plate to the other side of the dehydration plate.
The method according to claim 1,
The dewatering holes 31 are arranged in such a manner that the left and right dewatering holes 31a and 31b in the form of elongated holes are overlapped in the upward and downward directions from the left and right sides of the dewatering plate 30. The left and right dewatering holes 31a and 31b ) Is formed in the horizontal direction. The dehydration apparatus of the soil mixture washing water for the reclaimed aggregate aggregate regeneration system.
The method according to claim 1,
The dewatering holes 31 are arranged in such a manner that the left and right dewatering holes 31a and 31b in the form of elongated holes are overlapped in the upward and downward directions from the left and right sides of the dewatering plate 30. The left and right dewatering holes 31a and 31b ) Is formed in an oblique direction inclining downward from the outside to the inside.
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