KR20200126615A - A metal separating device installed between the settling tank and the dewatering screen of the aggregate water treatment apparatus - Google Patents

Abstract

The present invention relates to a metal separation device installed between the sedimentation tank and the dewatering screen of an aggregate water treatment device, and more particularly, to a sedimentation tank while sedimenting in the sedimentation tank in the process of sorting recycled aggregate of construction waste and water treatment of sand and aggregate. Aggregate that is supplied to the metal separation device in the process of supplying the dehydration screen with a pump to select and extract minerals (gold, silver, copper, non-metals, etc.) by centrifugation through a hopper-shaped recovery protrusion in a cyclone metal separation device. It relates to a metal separation device installed between the sedimentation tank and the dewatering screen of the water treatment device.
In the present invention, in the process of sorting recycled aggregate of construction waste and water treatment of sand and aggregate, dewatering in the dehydration screen 12 and sedimenting in the sedimentation tank 13, some of which is supplied to the filter press 14, and the precipitated sludge is pumped. In the metal separation device installed in the process of supplying the furnace dehydration screen 12,
Minerals (gold, silver, copper, and minerals (gold, silver, copper) are formed below the cyclone 22 having an inlet 21 through which sludge is supplied from the sedimentation tank 13 and an outlet 23 through which the dewatering screen 12 is discharged. Non-metals) selected by centrifugation and extracted with a rubber coating member 25,
A recovery screw 32 is installed in the discharge port 24 formed from the center of the rubber coating member 25 downward to form a discharge port 33 downward from the tip in the discharge direction,
It is characterized in that a recovery tank 40 for storing the recovered metal 41 is installed under the discharge port 33.

Description

A metal separating device installed between the settling tank and the dewatering screen of the aggregate water treatment apparatus

The present invention relates to a metal separation device installed between the sedimentation tank and the dewatering screen of an aggregate water treatment device, and more particularly, to sediment in the sedimentation tank in the process of sorting recycled aggregate of construction waste and water treatment of sand and aggregate. Aggregate that is supplied to the metal separation device in the process of supplying the dehydration screen with a pump to select and extract minerals (gold, silver, copper, non-metals, etc.) by centrifugation through a hopper-shaped recovery protrusion in a cyclone metal separation device. It relates to a metal separation device installed between the sedimentation tank and the dewatering screen of the water treatment device.

Various concrete structures created in the process of urbanization and industrialization, such as bridges and apartments, are inevitable for dismantling or large-scale repairs due to deterioration and deterioration of function over time. Is occurring. Moreover, in recent years, as reconstruction and redevelopment have been actively promoted to improve the residential environment, mainly in large cities, the amount of construction waste generated is increasing.

Most of these construction wastes were being landfilled, but construction wastes contain soil, concrete, metal, glass, and various kinds of waste, so if they are landfilled as they are, it causes serious environmental problems such as contamination of soil and groundwater, as well as a great difficulty in securing a landfill. Follows.

In particular, the demand for aggregates, which is a finite resource, is increasing rapidly due to the increase in new construction, but it is a result of unilateral consumption, which can lead to a shortage of aggregates, as well as the cause of further encouraging environmental destruction by quarrying/mining for collecting aggregates. Became.

Accordingly, in terms of efficient reuse of scarce resources as well as protecting the natural environment, measures to treat construction waste have been actively devised, and in recent years, there is a trend to recycle most of construction waste.

The process of a general waste recycling treatment system is to first put construction waste into a hopper.

After arrival, it is transferred to a scalping screen by a conveyor to remove soil dust. The construction waste from which the soil powder has been removed is first crushed to an appropriate size by a jaw crusher, and the rebar is removed by an electromagnet separator while being transferred to a vibration feeder. Subsequently, only aggregates having a predetermined particle diameter (about 25 mm or less) are sorted by a vibrating screen, and then various wastes mixed in the waste aggregate mass are first separated by a specific gravity separation method using a blower. Next, the first crushed aggregate lump is put in a water tank to wash the cement powder and foreign substances buried or mixed therein, dehydrated with a vibrating screen, etc., and then crushed to a smaller size with a cone crusher. Subsequently, after removing the reinforcing bar from the secondary crushed aggregate by an electromagnet separator, only aggregates having a predetermined particle diameter or less are selected again. Then, the garbage mixed in the secondary crushed aggregate is secondarily separated by a blower (S12), and then the aggregate lump is thirdly crushed to a smaller size by a cone crusher, and the aggregate is recycled into an aggregate having a required particle size or less.

On the other hand, for the quality of recycled aggregate obtained from construction waste through such a regeneration process, it is more important to remove foreign substances such as soil or cement dust on the aggregate and remove unnecessary waste such as waste wood or waste cloth. It is important.

To this end, a cleaning process is given during a series of regeneration treatment processes, and conventional cleaning devices include, for example, Korean Patent Publication No. 2002-0000186 and Utility Model Registration No. 0301994.

Republic of Korea Patent Publication No. 2002-0000186 is installed in a water tank to create a water flow by spraying water at a certain pressure to clean the aggregate and at the same time, a plurality of water spray nozzles to float the aggregate and separated waste on the water surface, In order to discharge suspended substances to the outside of the tank, a screw that induces a continuous flow of water in one direction is provided, and the garbage is forcibly discharged and only aggregates are mounted in an inclined belt conveyor in the opposite direction of garbage discharge. It is supposed to be transported.

In addition to the aggregate water treatment device, various treatment devices have been proposed, and in the present invention, the part referred to as sludge may be construction and construction waste, and the raw stone material or waste material may all belong to the same category.

Although it contains many minerals (gold, silver, copper, non-metals, etc.) from the process of treatment in such an aggregate water treatment device, there is a problem in that these minerals cannot be collected and are included as they are or discharged with water as they are and cannot be recycled. .

[Document 1] Patent registration number 0878841 (2009. 01. 08. registration) [Document 2] Patent Registration No. 1685025 (Registered on Dec. 05, 2018) [Document 3] Patent Registration No. 0525357 (registered on October 25, 2005) [Document 4] Utility model registration number 0440959 (2008. 07. 04. registration)

Therefore, it was conceived to solve these conventional shortcomings, and the problem of the present invention is to install a metal separation device in the process of resupplying through a pump from the sedimentation tank to the dehydration screen in the water treatment process of the recycled aggregate. It aims to select (gold, silver, copper, non-metal, etc.).

Another problem of the present invention is to quickly select minerals (gold, silver, copper, non-metal, etc.) in the process of rotating by installing an uneven-shaped recovery protrusion in the circumferential direction under the cyclone of the metal separation device to move downward. The purpose is to collect the transferred minerals in the recovery tank through the recovery screw.

The present invention is installed in the process of dewatering from a dehydration screen and sedimentation in a sedimentation tank in the process of sorting recycled aggregate of construction waste and water treatment of sand and aggregate, and some of which is supplied by a filter press and the sedimented sludge is supplied to the dewatering screen by a pump. In the metal separation device,

It is coated with a rubber coating member that selects and extracts minerals (gold, silver, copper, and non-metals) by centrifugation by forming a cone under the cyclone having an inlet for supplying sludge from the sedimentation tank and an outlet for discharging to the dewatering screen. Including that,

A recovery screw is installed in a discharge port formed from the center to the lower side of the rubber coating member to form a discharge port from the tip in the discharge direction downward,

It is characterized in that a recovery tank for storing the recovered metal is installed under the discharge port.

The present invention is a high value-added device for re-supplying through a pump from a sedimentation tank to a dehydration screen during water treatment of recycled aggregate to select and recycle minerals (gold, silver, copper, non-metal, etc.) contained in recycled aggregate. It is effective to provide.

In the present invention, in the process of rotating by installing an uneven recovery protrusion in the circumferential direction under the cyclone of a metal separation device, minerals (gold, silver, copper, non-metal, etc.) are quickly selected and moved downward through the recovery protrusion, The transferred mineral is discharged to the lower side through the recovery port and then quickly collected in the recovery tank by the recovery screw.

1 is a block diagram showing an installation state of an embodiment of the present invention
2 is a front cross-sectional view of the metal separation device of the present invention
Figure 3 is a plan sectional view of the installation state of the main part of the present invention
Figure 4 is an enlarged cross-sectional view of the main part of the present invention

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

1 is a block diagram showing the installation state of an embodiment of the present invention, a common name of any one of construction waste, raw stone material, and waste material is stored and stored in a mixture storage tank 10, and the mixture is supplied to the stone. It is connected to the removal device 11 for removing the stones, and supplies the aggregate from which the stones have been removed to the dewatering screen 12 to wash the sand.

The sedimentation tank 13 receiving the liquid flow from the dehydration screen 12 is installed to pass through the metal separation device 20 in the process of resupplying the sediment to the dehydration screen 12 by a pump, and in the sedimentation tank 13 The discharged liquid stream performs a process of removing moisture from the filter press 14.

The metal separation device 20 installed in the process of resupplying the sediment generated in the sedimentation tank 13 to the dewatering screen 12 through a pump is to select and recycle minerals (gold, silver, copper, non-metals, etc.) .

Figure 2 is a front cross-sectional view of the metal separating device of the present invention, Figure 3 is a cross-sectional view showing the main part of the installation state of the present invention, Figure 4 is an enlarged cross-sectional view showing the main part of the main part of the present invention.

In the metal separation device 20, an inlet 21 through which the sediment supplied from the pump of the settling tank 13 is supplied to the cyclone 22 is installed on one side of the cylinder, and an outlet 23 is installed upward in the center of the cylinder. After being discharged, it is installed to be resupplied to the dewatering screen 12, and a hopper shape is formed below the cylindrical cyclone 22, and a recovery port 24 is installed in the center.

The inner diameter of the cyclone 22 and the outer diameter of the outlet 23 and the lower hopper shape are coated with a rubber coating member 25 having a predetermined thickness of a rubber material to a predetermined thickness.

Minerals (gold, silver, copper, non-metal, etc.) contained in the sediment through the central recovery port 24 by protruding recovery protrusions 26 along the hopper shape at regular intervals outside the hopper-shaped rubber coating member 25 It is installed so that it can be easily moved to the lower side by separating it by centrifugation while rotating.

A recovery screw 32 is installed on the lower side of the recovery port 24 in a horizontal direction to be connected to the recovery motor 30 through a recovery belt 31 to rotate at a predetermined speed, and the tip of the recovery screw 32 The outlet 33 is installed downward.

It is connected to the lower side of the discharge port 33 and consists of a recovery screw 32 and a recovery tank 40 in which the recovery metal 41 is discharged and stored under the recovery motor 30.

The metal separating device installed between the sedimentation tank and the dewatering screen of the aggregate water treatment device of the present invention having such a configuration comprises storing and storing a mixture consisting of any one of construction waste, raw stone materials, and waste materials in the mixture storage tank 10, and , The mixture is supplied to the removal device 11 to perform the process of removing stones, and the aggregate from which the stones have been removed is supplied to the dewatering screen 12 to supply water to wash the sand.

The liquid generated in the dehydration screen 12 is supplied to the sedimentation tank 13 to be precipitated, and the sediment is supplied to the metal separation device 20 in the process of resupplying the sediment to the dehydration screen 12 by a pump.

The metal separating device 20 is introduced into the interior through the inlet 21 and then re-supplied to the dehydration screen 12 through the outlet 23, and then undergoes a process of being washed again by supplying water, and the sedimentation tank 13 The liquid flow that is discharged without being precipitated in the filter press 14 performs a process of removing moisture.

The sediment generated in the sedimentation tank 13 is supplied to the inside of the cyclone 22 through the inlet 21 while the sediment is spread to the metal separation device 20 installed in the process of being resupplied to the dehydration screen 12 through the pump. Then, the sediment containing light water is discharged through the outlet 23, and metals with heavy specific gravity are circulated (rotated) through the round protrusion 25 installed like a hopper in a conical shape through the rubber coating member 25. It is moved to the lower side quickly and is selectively discharged through the central recovery port 24.

The inner diameter of the cyclone 22 and the outer diameter of the outlet 23 and the conical shape of the lower side are coated with a certain thickness like the rubber coating member 25 so that they are not easily worn and can be used for a long time, and the recovery protrusion 26 on the lower side Is formed in a conical shape at a constant height at regular intervals along the hopper shape, and is discharged and recovered through the recovery port 24 so that minerals (gold, silver, copper, non-metals, etc.) can be selected and recycled from among metals with heavy specific gravity.

The recovered minerals are discharged to the recovery port 24 and the power of the recovery motor 30 is rapidly discharged to the right side in the drawing through the recovery screen 32 rotating at a predetermined speed through the recovery belt 31, and the recovered mineral is discharged to the right side of the drawing. ), so it can be discharged quickly.

The minerals that have fallen from the discharge port 33 are stored as a recovered metal 41 in the recovery tank 40 on the lower side to be recycled.

The above description is merely illustrative of the technical idea of the present invention, and those of ordinary skill in the art to which the present invention pertains can make various modifications without departing from the essential characteristics of the present invention. Accordingly, the embodiments disclosed in the present invention are not intended to limit the technical idea of the present invention, but to explain the technical idea, and the scope of the technical idea of the present invention is not limited by these embodiments. The scope of protection of the present invention should be interpreted by the following claims, and all technical ideas within the scope equivalent thereto should be construed as being included in the scope of the present invention.

The present invention supplies the sludge generated by sedimentation in a sedimentation tank in the process of sorting recycled aggregate of construction waste and water treatment of sand and aggregate to a dewatering screen with a pump to coat the inner diameter of a metal separation device made of a cyclone It is to provide a very useful invention in which minerals (gold, silver, copper, non-metals, etc.) can be easily selected and extracted by centrifugation by forming a conical recovery protrusion on one rubber coating member.

10: mixture storage tank 11: stone removal device
12: dehydration screen 13: settling tank
14: filter press 20: metal separator
21: entrance 22: cyclone
23: exit 24: recovery port
25: rubber coating member 26: recovery protrusion
30: recovery motor 31: recovery belt
32: recovery screw 33: outlet
40: recovery tank 41: recovered metal

Claims (3)

In the process of sorting recycled aggregate of construction waste and water treatment equipment of sand and aggregate, dewatering from the dewatering screen 12 is dehydrated and settled in the sedimentation tank 13, while some are supplied to the filter press 14, and the precipitated sludge is pumped to the dewatering screen In the metal separation device installed in the process of supplying to 12),
Minerals (gold, silver, copper, and minerals (gold, silver, copper) are formed below the cyclone 22 having an inlet 21 through which sludge is supplied from the sedimentation tank 13 and an outlet 23 through which the dewatering screen 12 is discharged. Non-metals) selected by centrifugation and extracted with a rubber coating member 25,
A recovery screw 32 is installed in the discharge port 24 formed from the center of the rubber coating member 25 downward to form a discharge port 33 downward from the tip in the discharge direction,
A metal separating device installed between a settling tank and a dewatering screen of an aggregate water treatment device, characterized in that a recovery tank 40 for storing the recovered metal 41 is installed under the discharge port 33.
The method of claim 1,
The rubber coating member 25 is coated on the inner diameter of the cyclone 22 and the outer diameter of the outlet 23 and then coated on a lower cone, and recovery protrusions 26 are formed on the cone at regular intervals by centrifugation. A metal separation device installed between the sedimentation tank and the dewatering screen of the aggregate water treatment device, characterized in that it is installed to separate minerals.
The method of claim 1,
The recovery screen 32 is installed in the horizontal direction under the recovery port 24, and rotates through the recovery motor 30 and the recovery belt 31, and the discharge port 33 is located below the tip from which minerals are discharged. A metal separation device installed between the sedimentation tank and the dewatering screen of the aggregate water treatment device, characterized in that formed.

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