JP3276801B2 - Metal crushing separation method and system - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method and a system for crushing and separating and collecting home electric appliances, office equipment, automobile parts and the like.

[0002]

2. Description of the Related Art Conventional metal separation uses an eddy current separator for the purpose of separating ferrous metals by a magnetic separator and separating non-ferrous metals from aluminum cans and the like. Japanese Patent Application Laid-Open No. 5-147045 discloses an apparatus for separating non-ferrous metals such as copper and aluminum using a specific gravity liquid.

[0003]

As the amount of general waste such as oversized garbage discharged from ordinary households and offices or the amount of industrial waste discharged from business establishments and the like increases, the resources contained therein Recovery is becoming increasingly important. However, home appliances, office equipment, automobile parts, and the like have a complicated structure and use various materials, and it is very difficult to recover useful resources from them. Ferrous metals are recovered by a magnetic separator, but non-ferrous metals are only separated by an eddy current separator, so non-ferrous metals are recovered without separation, for example, copper and aluminum, and are difficult to reuse and are manually sorted. Was separated and was not mechanized.

On the other hand, in the non-ferrous metal separation using a specific gravity liquid described in Japanese Patent Application Laid-Open No. 5-147045, sufficient separation performance for practical use has not been obtained, and it has not been put to practical use.

An object of the present invention is to provide a method and a system for crushing and separating metals, which can provide a sufficient separation performance between non-ferrous metals.

Another object of the present invention is to provide a method and system for crushing and separating metals, which can reduce the installation space for non-ferrous metals and the apparatus for crushing and separating metals in crushing and separating metals.

[0007]

SUMMARY OF THE INVENTION The feature of the present invention is that, first, ferrous metals are separated from a workpiece containing metal crushed in the previous step by a magnetic separator, and then non-ferrous metals are separated by an eddy current separator. The non-ferrous metal is classified into particles of a size that is a crusher, and then put into a wind separator to separate it into a heavy material (for example, copper) and a light material (for example, aluminum).

Another feature of the present invention is that an eddy current separator, a crusher, and a wind separator for separating non-ferrous metals are installed below a magnetic separator for separating ferrous metals from an object to be treated including metal. Thereby, the installation area of the metal sorting apparatus is reduced.

Another feature of the present invention is that after the ferrous metal is separated from the object containing metal, the non-ferrous metal is separated by an eddy current sorter, the non-ferrous metal is crushed by a crusher, and this is conveyed to a bucket conveyor. In this case, the height of the metal sorting apparatus is reduced by feeding it upwards and putting it into a wind separator.

Still another feature of the present invention is that an eddy current separator, a crusher, and a wind separator for separating non-ferrous metals are installed below a magnetic separator for separating ferrous metals from an object to be treated including metals. By reducing the installation area of the metal separation device, by further separating the ferrous metals from the metal-containing workpiece, non-ferrous metals are separated by an eddy current sorter, and the non-ferrous metals are crushed by a crusher, This is to reduce the height of the metal sorting device by transporting it upward by a bucket conveyor and putting it into a wind separator.

[0011]

The home electric appliances and the like to be treated according to the present invention are crushed in the previous step and fed into the apparatus of the present invention as a treatment object containing metal. The object to be processed is first put into a magnetic separator, and the large ferrous metal is sucked and collected by a hanging magnet. Next, the remaining small iron metal is sucked and collected by the magnet in the drum by the drum separator. Thereafter, the object to be processed is put into an eddy current sorter, and copper or aluminum as an electric conductor which reacts to a rotating magnetic field is subjected to a force to fly laterally, while other objects fall down as it is. The non-ferrous metal such as copper and aluminum separated in this way is then introduced into a crusher and crushed until it can pass through the screen provided at the outlet of the crusher. The non-ferrous metal of the object to be treated having a certain size in this way is put into a wind separator and receives the wind force from below, so that heavy objects are separated downward and lightweight objects are separated upward.

[0012]

FIG. 1 shows an embodiment of the present invention. FIG. 1 is a diagram showing the processing steps of the metal sorting apparatus according to the present invention. The metal separation apparatus is roughly divided into ferrous metal separation and non-ferrous metal separation. The ferrous metal separation comprises a magnetic separator and a drum separator 5, and the non-ferrous metal separation comprises an eddy current separator 6, a crusher 7, and a wind separator 8.

The workpiece 1 is first loaded into a magnetic separator 20, which comprises a loading conveyor 2, hanging magnets 3, and a conveyor 4. A large amount of ferrous metal is sucked and collected by the hanging magnet 3 from the workpiece 1 being transferred on the transport conveyor 4 and stored in the iron receiving box 9. Next, the object 1
Is charged into the drum separator 5, and the small ferrous metals attracted and collected by the magnet in the drum are stored in the iron receiving box 9 in the same manner as described above. The remaining non-ferrous metals that have not been recovered by the ferrous metal separation are recovered by the non-ferrous metal separation in the subsequent step.

In the non-ferrous metal sorting step, first, the eddy current sorter 6
The eddy current is generated inside copper and aluminum as an electric conductor in the non-ferrous metal due to the internal rotating magnetic field, and the internal magnetic field generated by the eddy current repels the rotating magnetic field of the eddy current sorter 6 and the non-ferrous metal The copper and aluminum are separated in the horizontal direction. Thereafter, the separated non-ferrous metal is put into a crusher 7, and in the crusher 7, particles of 4 to 5 cm of the non-ferrous metal crushed to about 1 cm are discharged from an exit screen. The non-ferrous metal thus crushed is then put into the wind separator 8 and receives wind power from below by a blower inside the wind separator 8, and heavy objects such as copper fall down and are collected in the copper receiving box 10. Then, a light object such as aluminum is blown upward and collected in the aluminum receiving box 11, so that the non-ferrous metal can be separated. Since the specific gravity of copper is about 3.3 times greater than that of aluminum, by adjusting the size of the object to be processed to a certain extent, heavy objects fall due to the wind received by the object and lighter objects are blown off. It can be made and can separate non-ferrous metals.

Another embodiment of the present invention will be described with reference to FIG. FIG. 2 is a side view showing an arrangement relationship of main devices for executing a non-ferrous metal separation process. The object 1 is put into an eddy current sorter 6 installed above, and those separated as non-ferrous metals are put into a crusher 7 installed below. The non-ferrous metal discharged from the crusher 7 is transferred to the bucket conveyor 1
It is transported to the inlet of the wind separator 8 by 2 and thrown into the wind separator 8. The height of the wind separator 8 is selected so as to fall within the range of the total height of the eddy current separator 6 and the crusher 7 arranged above and below, and as a result, the overall height of the non-ferrous metal separator is reduced. can do. FIG. 4 shows a side view when the metal crushing and sorting system is assembled in such an arrangement.

Another embodiment of the present invention will be described with reference to FIG. FIG. 3 is a side view showing an arrangement relation of main devices for executing a process of metal crushing and sorting. As in the case of the above-described embodiment, the workpiece 1 is loaded into the loading conveyor 2, and the suspended magnets 3 and the drum separator 5 separate and collect the ferrous metals, and then are loaded into the non-ferrous metals. In this embodiment, an eddy current sorter 6, a crusher 7, a wind sorter 8
Is disposed below a ferrous metal separation device including a magnetic separator 20 and a drum separator 5. Thereby, the installation area of the entire metal crushing and sorting apparatus can be reduced. Therefore, the installation volume can be significantly reduced by the arrangement configuration in which the arrangement for reducing the height dimension shown in FIG. 2 and the arrangement for reducing the installation area shown in FIG. 3 are combined.

[0017]

According to the present invention, non-ferrous metals such as copper and aluminum can be separated and recovered from an object to be treated including metal, the installation area of the entire metal crushing and separating apparatus can be reduced, and the height of the non-ferrous metal separating apparatus can be reduced. There is an effect that the size can be reduced.

[Brief description of the drawings]

FIG. 1 is a process diagram showing an embodiment of a metal crushing and sorting system according to the present invention.

FIG. 2 is a side view showing an arrangement relationship of main devices for executing a non-ferrous metal separation process.

FIG. 3 is a side view showing an arrangement relationship of main devices for executing a process of metal crushing and sorting.

FIG. 4 is a side view showing another embodiment of the metal crushing and sorting system according to the present invention.

[Explanation of symbols]

1 ... Workpiece, 2 ... Feeding conveyor, 3 ... Hanging magnet,
4 conveyer, 5 drum separator, 6 eddy current separator, 7 crusher, 8 wind separator, 9 iron box, 1
0: Copper receiving box, 11: Aluminum receiving box, 12: Bucket conveyor

──────────────────────────────────────────────────続 き Continuation of the front page (51) Int. Cl. ⁷ Identification symbol FI B09B 5/00 ZABM (56) References JP-A-5-147040 (JP, A) JP-A-6-238239 (JP, A) JP-A-6-91197 (JP, A) JP-A-8-71528 (JP, A) JP-A-57-81878 (JP, A) JP-A-7-60153 (JP, A) JP-A-6-106091 (JP, A) JP-A-6-226241 (JP, A) JP-A-58-180790 (JP, U) (58) Fields investigated (Int. Cl. ⁷ , DB name) B09B 5/00 B02C 23 / 08 B02C 1/23 B03C 1/30 B07B 4/02

Claims (4)

(57) [Claims] 1. A system for crushing and separating an object to be treated,
A magnetic separator for separating ferrous metals from those containing a metal workpiece, and an eddy current separator for separating non-ferrous metals such as copper and aluminum from the workpiece after separating the ferrous metals, a crusher for crushing the non-ferrous metals from the eddy current separator, against the ground nonferrous metals, a first non-ferrous material having a first specific gravity that is dropped, than the first specific gravity the second non-ferrous material to give a wind moving along the wind flow, metal grinding sorting system characterized by comprising a wind sorter for sorting non-ferrous metals with a small second specific gravity. 2. A system for crushing and separating an object to be treated,
An eddy current separator for separating non-ferrous metals, a crusher for crushing non-ferrous metals, and a wind separator for separating the crushed non-ferrous metals are installed below the magnetic separator for separating ferrous metals. A metal crushing and sorting system, characterized in that: 3. A magnetic separator which separates from a metal containing an object to be treated, and a copper separator from an object to be treated after separating iron and metal.
An eddy current sorter for separating non-ferrous metals such as aluminum, a crusher for crushing the non-ferrous metals from the eddy current sorter, and a bucket vertically disposed to convey the crushed non-ferrous metals upward A first specific gravity having a first specific gravity with respect to the conveyor and the non-ferrous metals conveyed by the bucket conveyor;
The non-ferrous material for dropping the second non-ferrous material having a second specific gravity smaller than the first specific gravity giving wind to move along the wind flow, with a wind sorter for sorting the non-ferrous metals Consisting of the eddy current sorter below the magnetic separator,
A crusher, a bucket conveyor and a wind separator are arranged, the eddy current sorter and the crusher are arranged in a vertical relationship, and a total height range of the eddy current sorter and the crusher arranged above and below. A metal crushing and sorting system, wherein the height of the bucket conveyor and the height of the wind separator are selected. 4. An iron-containing metal is separated from a material containing a metal object to be treated, and copper,
A non-ferrous metal such as aluminum is separated, the separated non-ferrous metal is crushed, and the crushed non-ferrous material is subjected to airflow separation to form a second non-ferrous metal.
Metal crushing separation method, which is a feature of selecting different types of non-ferrous substances
Law.