KR102129123B1 - Non-ferrous metal sorting device for producing aggregate - Google Patents

Abstract

The present invention relates to a metal sorting apparatus for generating an aggregate. The non-ferrous metal sorting apparatus according to one embodiment of the present invention sorts and discharges ferrous metals and non-ferrous metals mixed in a construction waste during a process of generating recycled aggregate from the construction waste. The metal sorting apparatus for generating the aggregate includes a transfer conveyor unit, a plurality of support frames, a sorting unit, and a discharge guide unit.

Description

{Non-ferrous metal sorting device for producing aggregate}

The present invention relates to a metal sorting device for generating aggregate, and more particularly, to a non-ferrous metal sorting device for generating aggregate that separates and separates ferrous and non-ferrous metals contained in a waste building from aggregate.

In general, construction wastes, such as earth and sand, waste concrete, waste paper, waste fibers, metals, waste plastics, waste wood, glass and ceramics, are generated at the construction or demolition site of buildings. As the recent urban redevelopment and reconstruction of large-scale apartments become active, the amount of construction waste generated is increasing, and efficient treatment of construction waste is requested from the economic and environmental aspects.

However, at present, most of the construction wastes generated in our country are simply landfilled along with general wastes, so there is a problem that recyclable aggregates are lost and soil and groundwater are contaminated. In particular, while aggregates, a finite resource, are being unilaterally consumed, demand for aggregates is rapidly increasing every year due to new construction, and it is expected to suffer from a shortage of aggregates in the near future.

Accordingly, a construction waste recycling system has been developed that collects, crushes, and sorts construction wastes to regenerate and recycle aggregates from construction wastes. This construction waste regeneration system is to separate and regenerate sediments, rebars, and wastes that are immersed in or mixed with waste concrete by pulverizing and separating them into aggregates having desired particle diameters, and soil and stone powder. The recycled aggregates are used again at the construction site to make up for the scarce resources and minimize the destruction of the environment by quarrying and mining.

This construction waste regeneration system is made by properly combining a plurality of crushing devices for crushing waste concrete, a plurality of separation devices for separating rebar and garbage, and a sorting device for sorting recycled aggregates of a desired size.

However, the conventional construction waste recycling system is focused on a metal sorting system such as a steel structure, and is a technology for sorting non-ferrous metals (Al, Mg, Sn, Cu, Pb) that do not adhere to magnets among metals included in construction waste. Is still insignificant.

On the other hand, the above-mentioned background technology is the technical information acquired by the inventor for the derivation of the present invention or acquired in the derivation process of the present invention, and is not necessarily a known technology disclosed to the general public before filing the present invention. .

Korean Registered Patent No. 10-2050101 Korean Registered Patent No. 10-0643655

One aspect of the present invention provides a non-ferrous metal sorting device capable of easily sorting and separating non-ferrous metals from waste structures.

The technical problems of the present invention are not limited to the technical problems mentioned above, and other technical problems not mentioned will be clearly understood by those skilled in the art from the following description.

The metal sorting apparatus for generating aggregate according to an embodiment of the present invention sequentially selects and discharges ferrous metal and non-ferrous metal mixed with the building waste in the process of producing recycled aggregate from building waste.

The metal sorting device for generating the aggregate,

A transport conveyor unit to which construction waste is moved;

A plurality of support frames supporting the isomerized conveyor part from the ground and increasing the height from one side to the other so that the transfer conveyor part forms a predetermined angle with the ground to form an inclined surface;

A sorting unit for filtering ferrous metals and non-ferrous metals contained in construction wastes in the process of being transferred through the transport conveyor; And

It is installed at a position where the sorting unit is formed and includes a discharge guide part separating the non-ferrous metal sorted by the sorting unit from the transport conveyor part,

The transport conveyor unit,

A first transfer roller unit installed to form an angle with the ground;

A pair of second conveying roller parts formed at both ends of the first conveying roller and installed to form a predetermined angle with the first conveying roller; And

It includes a conveyor belt seated on the first transfer roller portion and the second transfer roller portion is installed in a U-shape,

The sorting unit,

A base frame disposed on an upper portion of the conveyor belt;

A pair of first sorting roller units installed at both ends of the base frame;

A pair of second sorting roller parts formed on or under the lower roller part and installed to have a shorter distance than the pair of lower roller parts;

A rotating belt which is fastened to the first sorting roller part and the second sorting roller part and rotates clockwise or counterclockwise; And

It includes a wing member for projecting at a predetermined interval on the upper portion of the rotating belt to sort the ferrous metal or non-ferrous metal contained in the construction waste,

The rotating belt is fastened to form a trapezoidal shape by a pair of the lower roller portion disposed on the lower portion and a pair of the upper ruler portion disposed on the upper portion of the lower roller, so that the lower surface has a length of the conveyor belt. Rotate in a direction perpendicular to the direction,

The sorting unit,

A first sorting unit installed on a front end of the non-ferrous metal sorting device to sort ferrous metals contained in construction waste; And a second sorting unit installed at a rear end of the first sorting unit to sort non-ferrous metals contained in construction waste,

In the first sorting unit, an electromagnet is formed inside the wing member,

In the electromagnet, a current is blocked in a section in which the wing member contacts the first sorting roller part and the second sorting roller part, and the wing member contacts the first sorting roller part and the second sorting roller part. It is characterized in that the current is supplied in a section not having magnetism,

Current is supplied to the electromagnet while the wing member passes through the upper part of the conveyor belt, and after the iron metal mixed with the construction waste is attached to the wing member, current is applied from the first sorting roller part adjacent to the discharge guide part. It characterized in that the iron metal is blocked and attached to the blade member falls to the discharge guide portion to select the iron metal,

The second sorting unit, the permanent magnet is formed on the base frame,

The magnetic force of the permanent magnet induces an eddy current in the non-ferrous metal mixed with the construction waste to move the non-ferrous metal to the side portion of the conveyor belt, and the wing member contacts the non-ferrous metal moved to the side portion of the conveyor belt, thereby contacting the non-ferrous metal in contact with the Characterized in that the non-ferrous metal is sorted by pushing in the direction in which the discharge guide is formed

The metal sorting apparatus for generating aggregate further includes a scattering dust collecting unit which is installed on the first sorting unit and the second sorting unit and sucks scattering dust generated in the non-ferrous metal sorting process performed by the sorting unit. can do.

According to one aspect of the present invention described above, after selecting the ferrous metal from the building waste by using an electromagnet, it is possible to sequentially select the non-ferrous metal that is not attached to the magnet from the building waste by using the eddy current, the production quality of the recycled aggregate Improve it.

1 and 2 are diagrams showing a schematic configuration of a metal sorting apparatus for generating aggregate according to an embodiment of the present invention.
3 is a view showing a specific configuration of the transport conveyor unit of FIG. 1.
4 is a view showing a specific configuration of the sorting unit.
5 is a view for explaining a specific operation principle of the first sorting unit.
6 is a view for explaining a specific operation principle of the second sorting unit.

For a detailed description of the present invention, which will be described later, reference is made to the accompanying drawings that illustrate, by way of example, specific embodiments in which the present invention may be practiced. These examples are described in detail enough to enable those skilled in the art to practice the present invention. It should be understood that the various embodiments of the invention are different, but need not be mutually exclusive. For example, certain shapes, structures, and characteristics described herein may be implemented in other embodiments without departing from the spirit and scope of the invention in connection with one embodiment. In addition, it should be understood that the location or placement of individual components within each disclosed embodiment can be changed without departing from the spirit and scope of the invention. Therefore, the following detailed description is not intended to be taken in a limiting sense, and the scope of the present invention, if appropriately described, is limited only by the appended claims, along with all ranges equivalent to those claimed. In the drawings, similar reference numerals refer to the same or similar functions throughout several aspects.

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

1 is a conceptual diagram illustrating a schematic configuration of a metal sorting apparatus for generating aggregate according to an embodiment of the present invention, and FIG. 2 is a view showing an example of an actual implementation of a metal sorting apparatus for generating aggregate in FIG. 1. .

The metal sorting device 1 for generating aggregate according to an embodiment of the present invention is a facility for sequentially sorting and discharging ferrous metals and non-ferrous metals mixed with the building wastes in the process of producing recycled aggregates from building wastes.

Specifically, the metal sorting device for the aggregate generation according to an embodiment of the present invention, the transport conveyor unit 100, the support frame 200, the sorting unit 300, the discharge guide unit 400, scattering dust collection It may include a portion 500 and the aggregate selection unit 600.

The transport conveyor unit 100 is a means for transporting construction waste from one side to the other side. As shown in FIG. 3, the transport conveyor unit 100 according to the present invention is first transport installed to form an angle with the ground. Roller unit 110, a pair of second transfer roller unit 120. 130 and the first transfer roller unit formed on both ends of the first transfer roller, and installed to form a predetermined angle with the first transfer roller And a conveyor belt 140 seated on the second transfer roller and installed in a U-shape.

That is, the conveyor belt 140 of the transport conveyor unit 100 according to the present invention has a flat or concave curved center, not a straight shape, and accordingly the construction waste seated on the conveyor belt 140 is transported. It can be prevented from falling out in the process.

At this time, the second transfer roller units 120 and 130 may be designed to adjust the forming angle with the first transfer roller unit 110. For example, while the installation height of each of the second transfer roller units 120 and 130 is adjusted by the height adjustment means, the angle of formation may be varied by being hinged with the height adjustment means.

The support frame 200 is a structure that is vertically installed from the ground to support the transport conveyor unit 100 from the ground. In the plurality of support frames 200, the transport conveyor unit 100 forms a predetermined angle with the ground. It may be installed in a form in which the height increases from one side to the other so that an inclined surface is formed.

The sorting unit 300 is a device for filtering ferrous metals and non-ferrous metals contained in construction waste in the process of being transported through the transport conveyor.

The sorting unit 300 is installed at the front end of the non-ferrous metal sorting device 1, a first sorting unit 300a for sorting ferrous metals contained in construction waste, and a rear end of the first sorting unit 300a. A second sorting unit (300b) for sorting the non-ferrous metal contained in the construction waste may be included in the.

At this time, the first sorting unit (300a) and the second sorting unit (300b) differs only in the location in which the electromagnet or permanent magnet is installed, and the overall configuration is the same, so the first sorting unit (300a) and the second sorting will be described below. The common components of the unit 300b will be described first.

4 is a view showing a specific configuration of the sorting unit 300.

As shown, the sorting unit 300, the sorting unit 300 is a base frame 310 disposed on an upper portion of the conveyor belt, a pair of first sorting roller units installed at both ends of the base frame ( 320), a pair of second sorting roller parts 330 and first sorting roller parts (330) formed above or below the lower roller part and installed to have a shorter distance than the pair of lower roller parts. 320) and fastened to the second sorting roller part 330, and projected at predetermined intervals on the rotating belt 304 and the rotating belt 340 rotating clockwise or counterclockwise to be included in construction waste. It may include a wing member 350 for selecting the ferrous metal or non-ferrous metal.

At this time, the pair of first sorting roller parts 320 constituting the sorting unit 300 may be formed to face each other in a direction perpendicular to the transport direction of the transport conveyor unit 100. For example, if the transfer conveyor unit 100 transfers construction waste from 6 o'clock to 12 o'clock, a pair of first sorting roller units 320 are installed facing each other at 3 and 9 o'clock respectively. Can be. This is the same for the second sorting roller unit 330.

Accordingly, the rotating belt 340 of the sorting unit 300 includes a pair of the first sorting roller part 320 disposed on the lower part and a pair arranged on the upper part of the first sorting roller part 320. It is fastened to form a trapezoidal shape by the second sorting ruler part 330 of the lower surface is rotated in a direction orthogonal to the longitudinal direction of the conveyor belt 140, and accordingly on the surface of the rotating belt 340 The formed wing member 350 moves in the right side (or left side) direction from the left side (or right side) of the conveyor belt 140.

In the above, the common components of the first sorting unit 300a and the second sorting unit 300b have been described. Hereinafter, differences and differentiated operations between the first sorting unit 300a and the second sorting unit 300b are described. The principle will be explained.

5 is a view showing a specific operation principle of the first sorting unit 300a.

The first sorting unit 300a is characterized in that an electromagnet (not shown) is formed inside the wing member 350.

At this time, the electromagnet, the current is cut off in the section where the wing member 350 contacts the first sorting roller part 320 and the second sorting roller part 330, and the wing member 350 is the In a section that does not contact the first sorting roller unit 320 and the second sorting roller unit 330, a current is supplied to the magnetism.

Accordingly, as illustrated in FIG. 5, while the wing member 350 passes through the upper portion of the conveyor belt, current is supplied to the electromagnet installed inside the wing member 350 so that construction waste is generated in the first sorting unit 300a. ), the ferrous metal mixed with the construction waste is attached to the wing member 350 by magnetic force.

Thereafter, when the wing member 350 to which the ferrous metal is attached reaches the first sorting roller part adjacent to the discharge guide part, the current supplied is cut off and the magnetic force disappears, and accordingly, the ferrous metal attached to the blade member Falling to the discharge guide portion 400 to select the ferrous metal.

6 is a view showing a specific operation principle of the second sorting unit 300b.

Unlike the first sorting unit 300a, the second sorting unit 300b is characterized in that a permanent magnet is formed on the base frame 310 instead of an electromagnet installed on the wing member 350.

In one embodiment, the permanent magnet may be provided in the same cylindrical shape as the first sorting roller unit 320 and the second sorting roller unit 330, and the first sorting roller unit 320 in a state in which current is supplied. And rotating independently of the second sorting roller unit 330 to generate a magnetic field.

The magnetic field formed by the permanent magnet affects the non-ferrous metal mixed with the building waste, so that an eddy current is formed inside the non-ferrous metal. Accordingly, the non-ferrous metal is bounced and moved to the side portion of the conveyor belt 140, and the wing member 350 of the second sorting unit 300b contacts the non-ferrous metal moved to the side portion of the conveyor belt, thereby contacting the non-ferrous metal. It is characterized in that the non-ferrous metal is sorted by pushing in the direction in which the discharge guide portion is formed.

In some other embodiments, the permanent ones may be installed in each of the first sorting roller unit 320 and the second sorting roller unit 330 rather than the base frame.

In addition, in this case, each of the first sorting roller unit 320 and the second sorting roller unit 330 may be characterized in that they are installed to be adjustable in height.

At this time, a plurality of permanent magnets are continuously installed along the diagonal direction on the inner surfaces of the first sorting roller part 320 and the second sorting roller part 330, and the first sorting roller part 320 and the second sorting roller are provided. Permanent magnets installed in the part 330 may form opposite directions to each other.

For example, if the permanent magnet formed in the first sorting roller part 320 is provided with a permanent magnet along the oblique direction from 10 o'clock to 5 o'clock, the permanent magnet formed in the 1 sorting roller part 320 is in the 2 o'clock direction. Permanent magnets can be installed along the diagonal direction at 7 o'clock.

Accordingly, by varying the height of the second sorting roller unit 330 according to the type and content of the non-ferrous metal mixed in the construction waste, it has the effect of varying the size and direction of the eddy current induced in the non-ferrous metal, in this case Therefore, the second sorting roller unit 330 is disposed in an inverted trapezoidal shape disposed under the first sorting roller unit 320 to control the eddy current.

The discharge guide part 400 is a member that is installed at a position where the sorting unit 300 is formed and guides the ferrous metal and non-ferrous metal sorted by the sorting unit to be collected at a specific place by separating them from the transport conveyor. The discharge guide unit 400 is formed with an inclined surface so that the metal sorted by the sorting unit 300 is slid and discharged.

The scattering dust collecting unit 500 is installed on top of the first sorting unit and the second sorting unit to suck the scattering dust generated in the non-ferrous metal sorting process performed by the sorting unit to prevent the scattering dust from leaking to the outside. Can be prevented.

The aggregate sorting unit 600 is installed along the same direction as the longitudinal direction of the transport conveyor unit 100, and is formed in a cylindrical shape having a mesh structure or a hole on the surface to rotate. In this process, only aggregates having a specific particle size are selected and put into a crusher at the end of the transport conveyor unit 100 so that only aggregates having desired particles can be selected.

Although described above with reference to embodiments, those skilled in the art understand that various modifications and changes can be made to the present invention without departing from the spirit and scope of the present invention as set forth in the claims below. Will be able to.

1: Metal sorting device for aggregate generation
100: transfer conveyor unit
200: support frame
300: sorting unit
400: discharge guide
500: scattering dust collection unit
600: aggregate sorting unit

Claims (2)

In the process of producing recycled aggregate from construction waste, in the metal sorting apparatus for generating aggregate to sequentially select and discharge ferrous metal and non-ferrous metal mixed in the construction waste,
The metal sorting device for generating the aggregate,
A transport conveyor unit to which construction waste is moved;
A plurality of support frames supporting the transfer conveyor part from the ground, and increasing in height from one side to the other so that the transfer conveyor part forms a predetermined angle with the ground to form an inclined surface;
A sorting unit for filtering ferrous metals and non-ferrous metals contained in construction wastes in the process of being transferred through the transport conveyor; And
It is installed at a position where the sorting unit is formed and includes a discharge guide part separating the ferrous metal and the non-ferrous metal sorted by the sorting unit from the transfer conveyor part,
The transport conveyor unit,
A first transfer roller unit installed to form an angle with the ground;
A pair of second conveying roller parts formed at both ends of the first conveying roller and installed to form a predetermined angle with the first conveying roller; And
It includes a conveyor belt seated on the first transfer roller portion and the second transfer roller portion is installed in a U-shape,
The sorting unit,
A base frame disposed on an upper portion of the conveyor belt;
A pair of first sorting roller units installed at both ends of the base frame;
A pair of second sorting roller parts formed on the first sorting roller part and installed to have a shorter distance than the pair of first sorting roller parts;
A rotating belt which is fastened to the first sorting roller part and the second sorting roller part and rotates clockwise or counterclockwise; And
It includes a wing member for projecting at a predetermined interval on the upper portion of the rotating belt to sort the ferrous metal or non-ferrous metal contained in the construction waste,
The rotating belt is fastened to form a trapezoidal shape by a pair of the first sorting roller part disposed on the lower part and a pair of the second sorting roller part disposed on the upper part of the first sorting roller part, and a lower surface It rotates in a direction perpendicular to the longitudinal direction of the conveyor belt,
The sorting unit,
A first sorting unit installed on a front end of the metal sorting device for generating aggregate to sort iron metal contained in construction waste; And a second sorting unit installed at a rear end of the first sorting unit to sort non-ferrous metals contained in construction waste,
In the first sorting unit, an electromagnet is formed inside the wing member,
In the electromagnet, a current is blocked in a section in which the wing member contacts the first sorting roller part and the second sorting roller part, and the wing member contacts the first sorting roller part and the second sorting roller part. It is characterized in that the current is supplied in a section not having magnetism,
Current is supplied to the electromagnet while the wing member passes through the upper portion of the conveyor belt, and after the iron metal mixed with the construction waste is attached to the wing member, current is applied from the first sorting roller part adjacent to the discharge guide part. It characterized in that the iron metal is attached to the wing member is cut off to fall to the discharge guide portion to select the iron metal,
The second sorting unit, the permanent magnet is formed on the base frame,
The magnetic force of the permanent magnet induces an eddy current in the non-ferrous metal mixed with the construction waste to move the non-ferrous metal to the side portion of the conveyor belt, and the wing member contacts the non-ferrous metal moved to the side portion of the conveyor belt, thereby contacting the non-ferrous metal in contact with the Characterized in that the non-ferrous metal is sorted by pushing in the direction in which the discharge guide portion is formed,
The metal sorting apparatus for generating aggregate further includes a scattering dust collecting unit installed on top of the first sorting unit and the second sorting unit to suck scattering dust generated in a non-ferrous metal sorting process performed by the sorting unit. A metal sorting device for generating aggregate.
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