KR101743364B1 - Waste resources separate collection apparatus - Google Patents

Abstract

Disclosed is an apparatus for efficiently separating and collecting waste resources as a metal plate joined body. A metal plate supply part for supplying a metal plate to be processed, the metal plate being supplied from the metal plate supply part; a heating part for applying heat to the metal plate to be processed; And a cut-out portion which cuts to a predetermined length. The heating section heats the metal sheet to be treated to a temperature not higher than the melting point of the metal having a relatively low melting point so that different metal sheets of the metal sheet joined body of the metal sheet to be treated are separated.

Description

{WASTE RESOURCES SEPARATE COLLECTION APPARATUS}

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a waste resource separation and collection apparatus, and more particularly, to a waste resource separation and collection apparatus for separately and collecting metals from a metal plate junction body including a plurality of metals having different melting points.

Generally, steel sheets used as automobile parts include other metals such as copper and the like in addition to iron. For example, a metal plate joined body in which an iron plate and a copper plate are bonded is often used. Such steel sheets for automobile parts are usually shipped in the form of a coil and cut and used as a base material for desired parts or parts. Particularly, a steel plate which is in the form of a coil is cut and discarded at both end portions, and a central portion is used, so that a large amount of metal plates are generated. This discarded portion is cut off in the coil state and discarded. As described above, there is a problem in that the steel sheet for automobiles can not be scraped as it is in a state in which another metal plate such as a copper plate is laminated in addition to the steel plate. This is because scrap iron produced from steel sheet for automobile parts must separate iron and other metal components. In order to separate the scrap of such steel plate and copper plate, there has been applied a method of dissolving whole scrap iron. However, since such a separation method requires a high cost, it is relatively ineffective on the side of first acquiring and processing the scrap metal, and accordingly, it is reluctant to dispose of scrap metal containing other metal components. As a result, expensive metals are not properly regenerated and recovered.

Therefore, there is a demand for an apparatus capable of collecting and collecting metals from the metal plate joined body on the primary collection side.

Korean Patent Registration 10-1310854

SUMMARY OF THE INVENTION The present invention has been made in view of the above problems of the prior art, and provides a waste resource separation and collection apparatus capable of separating and processing metal components from scrap iron containing a plurality of metal components.

The present invention also provides a waste resource separation and collection apparatus capable of separating and processing a metal component in a metal plate to be processed in the form of a coil.

The present invention provides a waste resource separation and collection apparatus capable of separating iron and copper from a metal plate to be treated to which a steel plate and a copper plate are bonded.

The present invention provides a waste-resource separating and collecting apparatus for separating metal plate assemblies having different melting points into metal types. A metal plate supply unit for supplying a metal plate to be processed, the metal plate being a combination of two or more metal plates having different melting points; A transfer unit for transferring the metal plate to be processed supplied from the metal plate supply unit; A heating unit for applying heat to the metal plate to be processed; And a cutting unit for cutting the heated metal sheet to a predetermined length, wherein the heating unit is configured to separate the metal plates of the metal sheet joined body of the metal sheet to be processed by a melting point of a metal having a relatively low melting point Lt; / RTI >

And a separation rejection unit for separating and collecting the metal fragments cut at the rear end of the cutting unit.

The metal plate joined body of the metal plate to be treated may include a magnetic metal plate and a non-magnetic metal plate.

The magnetic metal plate may be an iron plate, and the nonmagnetic metal plate may be a copper plate.

The separation water rejection may include a magnetic conveyor that magnetically attracts and transports a piece of magnetic metal at an upper portion of the cut metal plate, and drops the metal piece at a predetermined point.

Wherein the separation water rejection comprises: a first collection vessel receiving and containing the non-magnetic metal fragments cut off from the cut-off portion; And a second collection tube for receiving and containing the falling magnetic metal piece, wherein the non-magnetic metal piece is cut by the cut portion and then dropped onto the first collection box by the drop guide plate.

The heating unit may be a high-frequency heating apparatus.

The metal plate supply unit may be configured to supply the metal plate to be processed while being wound in a coil form.

The transfer unit may include a first tension unit and a second tension unit that are sequentially disposed in the transport direction of the metal plate, and the heating unit may be disposed between the first tension unit and the second tension unit.

According to the present invention, there is provided a waste resource separation and collecting apparatus capable of collecting and collecting waste metal plates of different components such as iron and copper by metal components in an easy and economical manner. This can be said to be very useful for the treatment of large scale scrap, which is discarded in the form of a coil, especially for automotive parts. It is expected that the recovery of waste resources of high-priced metals will be economically feasible because the primary collection side collects the components separately and thus the collection rate will be greatly improved.

FIG. 1 is a front view schematically showing a waste resource separation and collection apparatus according to a preferred embodiment of the present invention.
FIG. 2 is a plan view schematically showing a waste resource separation and collection apparatus according to a preferred embodiment of the present invention.
FIG. 3 is a view showing a cut-away portion and separation water rejection used in the waste resource separation and collection apparatus according to a preferred embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description of the embodiments of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a perspective view of a waste separation and collecting apparatus according to an embodiment of the present invention; FIG. 2 is a schematic view of a waste separation and collection apparatus according to an embodiment of the present invention; . This can be installed on the primary collecting side of scrap iron, so that the scrap metal can be efficiently treated and economically processed. For example, it may be suitable for the treatment of a metal plate joined body, which is provided as a circular coil such as a steel plate for automobile parts, and the both side ends thereof are cut and discarded in the form of a coil. By applying a temperature below the melting point of a metal having a low melting point while the metal plate is being fed / fed from such a discard coil, a metal plate having a low melting point and a metal plate having a high melting point can be separated. The metal plates thus separated can be cut to a predetermined size and collected separately.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, an apparatus for collecting and collecting waste resources according to a preferred embodiment of the present invention will be described with reference to the accompanying drawings.

FIG. 1 is a front view schematically showing a waste resource separation and collection apparatus according to a preferred embodiment of the present invention. FIG. 2 is a plan view schematically showing a waste resource separation and collection apparatus according to a preferred embodiment of the present invention.

The waste resource sorting and collecting apparatus according to a preferred embodiment of the present invention includes a metal plate supplying unit 1, a transferring unit 3, a heating unit 5, a cutting unit 7, a separation water rejection unit 9, do. For reference, the control unit is not shown separately in the drawing.

The metal plate supply part 1 is, for example, mounted in a state in which coil-shaped scrap iron is wound, and the metal plate to be processed is drawn out by the drawing force of the transfer part 3 and provided. The metal plate wound and provided on the metal plate feeder 1 may be, for example, a metal plate joined body formed by joining an iron plate and a copper plate. However, the metal plate joined body to be treated in the apparatus of the present invention can be applied without particular limitation if it is a bonded body formed by bonding two or more metal plates having different melting points.

The transfer unit 3 includes a first tension unit 31, a roller table 32, and a second tension unit 33. [ The first tension unit 31 and the second tension unit 33 transport the metal plate to be processed which is withdrawn from the metal plate supply unit 1. [ The first tension unit (31) maintains a constant tension on the plate drawn out from the metal plate feeder (1). The second tension unit 33 pulls the metal plate to be processed so that the metal plate to be processed is transferred to the cutting unit 7 at the rear end. The roller table (32) feeds the metal plate to be processed while supporting the metal plate to be processed.

Under the control of the control section, the transfer section 3 applies a drawing force so that the metal plate to be processed, which is withdrawn from the metal plate supply section 1, is transferred at a predetermined speed on the roller table 32.

The waste resource separation and collection apparatus of the present invention may further include a balancing unit 4 for properly spreading the metal plate to be treated. Since the metal plate to be processed which has passed through the equilibrium portion 4 becomes flat, it can be uniformly heated as a whole by the subsequent heating portion 5.

As the heating section 5, for example, a high-frequency heating apparatus may be employed. The heating section 5 applies a predetermined temperature to the metal plate to be processed under conveyance under the control of the control section. The temperature applied to the metal plate to be treated in the heating unit 5 is a temperature lower than the melting point of the metal having a relatively low melting point among the plywoods. For example, in the case of a metal plate joined body in which iron and copper are bonded, since the copper melting point is about 1083 ° C, a temperature of 950 to 1050 ° C can be applied. The heating portion 5 may be arranged to apply heat at the upper or lower portion of the metal plate to be processed.

When the temperature is lowered below the melting point of the relatively low melting metal plate, the metal plates of the metal plate joined body are separated from each other. For example, when the steel plate and the copper plate are joined, the copper plate and the steel plate are separated from each other by heating at a temperature lower than the melting point of the copper.

The feeding speed and the heating temperature of the metal plate to be processed as described above can be performed by setting values of the control unit.

3 is a view showing a cut-off portion 7 and a separation water rejection 9 employed in the waste resource separation and collection apparatus of the present invention.

The portion of the metal sheet to be treated, which is heated by the heating unit 5 and is different from the metal plate having a different melting point, is then introduced into the cut portion 7, and the cut portion 7 cuts the metal plates to a predetermined length. The size of the cut pieces can usually be determined at the request of the purchaser, and can be cut to a length of approximately 50 mm to 200 mm.

At the next position of the cut portion 7, a separator reject 9 is disposed to separate and recover the metal plates. The separator rejection 9 can use a magnet conveyor 91 as in the example shown. In the lower portion of the magnet conveyor 91, first and second collection bins 92, 93 for receiving and accommodating the falling metal plates are disposed. The electromagnet is applied to the magnet conveyor 91 to magnetically attach a piece of metal such as an iron plate, which is a magnetic body, to move on the second recovery tube 93. Thereafter, when the magnetic force is removed from the electromagnets in the upper portion of the second recovery cylinder 93, the magnetic metal pieces fall down into the second recovery cylinder 93. The magnetic conveyor 91 is installed in an endless track shape as in the example shown in the drawing and prevents the magnetic force from being generated with respect to the magnet element located on the second collection box 93, As shown in FIG.

In addition, the non-magnetic metal piece, for example, the copper piece can be immediately dropped by the drop guide plate 94 into the first collection bin 92 immediately after being cut at the cut portion 7.

For accurate separation at the magnet conveyor 91, it may be desirable to proceed with the nonmagnetic metal plate positioned below the magnetic metal plate.

In the above description, the metal plate is only an example of the iron plate and the copper plate, but it is understood that a joined body of other metal plates may be applied, and the joined body may be applied to two or more metal plates.

In the drawings, reference numerals R1 and R2 denote rails used for carrying a metal plate coil to be treated or metal pieces to be processed and separated and cut.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments.

1: metal plate supply part 3: transfer part
5: Heating part 7: Cutting part
9: Separate rejection 31: First tension unit
32: roller table 33: second tension unit
91: Magnet conveyor 92: 1st collecting tank
93: Second recovery tank 94:

Claims (9)

A waste separation and collection device comprising:
A metal plate supply unit for supplying a metal plate to be processed, which is a metal plate joined body having two or more different melting points, in a wound state in a coil form and supplying the metal plate;
A transfer unit for transferring the metal plate to be processed supplied from the metal plate supply unit;
A balancing unit for spreading the metal plate to be processed;
A heating unit for applying heat to the metal plate to be processed; And
And a cutting section for cutting the heated metal plate to a predetermined length,
Wherein the heating unit heats the metal plate to be processed to a temperature below a melting point of a metal having a relatively low melting point so that different metal plates of the metal plate joined body of the metal plate to be processed are separated,
Wherein the transfer section includes a first tension unit and a second tension unit arranged in sequence in the conveyance direction of the metal plate and the heating section is disposed between the first tension unit and the second tension unit, Collection device.
The method according to claim 1,
Further comprising separating rejecting means for separating and cutting the metal pieces cut at the rear end portion of the cut portion by type.
The method of claim 2,
Wherein the metal plate joined body of the metal plate to be treated includes a magnetic metal plate and a nonmagnetic metal plate.
The method of claim 3,
Wherein the magnetic metal plate is an iron plate and the nonmagnetic metal plate is a copper plate.
The method of claim 4,
Wherein the separation water rejection includes a magnetic conveyor configured to magnetically transfer a magnetic metal piece from an upper portion of the cut metal plate and to drop the magnetic metal piece at a predetermined point.
5. The method of claim 4,
A first collection tube for receiving and accommodating a piece of non-magnetic metal that is cut and dropped at the cut portion; And
And a second recovering cylinder for receiving and containing said magnetic metal pieces falling,
Wherein the non-magnetic metal piece is cut at the cut portion and then dropped to the first recovery container by the falling guide plate.
The method according to claim 1,
And the heating unit is a high-frequency heating apparatus.
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