KR102554008B1 - Apparatus for sorting scrap metal including nonferrous metal - Google Patents

Abstract

The present invention relates to an automatic sorting machine for scrap iron including non-ferrous metals, which crushes scrap metal in a crusher (11) and classifies ferrous metals and non-ferrous metals. A grinder 3 that is transported through and pulverized into pellets of a predetermined size, and a magnetic separator 4 equipped with an electromagnet to classify and discharge ferrous metal pellets from the pellets pulverized and discharged from the grinder 3 ), a fine grinder (5) for supplying the remaining nonferrous metal pellets after being classified and discharged from the magnetic separator (4) through a conveyor (22) and secondarily crushing them into relatively smaller copper and aluminum particles, And by taking advantage of the difference in weight between copper and aluminum nonferrous metal particles finely pulverized in the fine pulverizer 5, aluminum particles having a relatively smaller specific gravity than copper particles are blown farther and fall by the wind, and the copper particles are relatively more By including a specific gravity separator 8 that separates copper and aluminum particles of nonferrous metal by wind power using a short distance fall, post-processing for recycling of scrap metal can be efficiently performed and the risk of worker injury is reduced. It can be removed, and there is an effect of preventing environmental pollution caused by dust generation and improving the working environment by installing dust collectors in a plurality of grinders, storage bins, and specific gravity separators.

Description

Automatic sorting machine for scrap metal including non-ferrous metal {APPARATUS FOR SORTING SCRAP METAL INCLUDING NONFERROUS METAL}

The present invention relates to an automatic sorter for scrap iron including nonferrous metals, and more particularly, to an automatic sorter for scrap iron that sorts ferrous metals contained in scraps by magnetic force and subdivides and automatically sorts nonferrous metals, that is, copper and aluminum, in a specific gravity sorter. .

In general, scrap cars and home appliance wastes are combined with various metal parts together with heterogeneous materials such as plastic parts, and metal parts from various metal wastes collected including these home appliances to prevent environmental pollution and to recycle resources. It is preferable to separate, melt the separated metal part and recycle it as a material.

Metals separated for recycling of metals from metal waste should also be classified into non-ferrous metals such as copper and aluminum together with ferrous metals. The classification of ferrous and non-ferrous metals has been done manually by workers in the past, but in this work process, sharp metals There are many cases in which workers are injured by parts, a lot of dust is generated, so the working environment is poor, and there are problems with low efficiency, so automation of this sorting operation is required.

In this regard, in Korean Registered Patent Publication No. 10-1976775 (registered on May 09, 2019),

Waste car remnants, which are remnants of end-of-life vehicles, are shredded by a crusher to supply crushed residues, and the crushed residues crushed by the crusher are supplied to a magnetic drum to separate metals and non-metals, and the separated metals from the magnetic drum are zigzag wind power. It is supplied to a sorter to sort heavy and light materials, and non-metals separated from the magnetic drum are supplied to a vibration sorter to sort them into sizes of 8 mm or less and 8 mm or more, and sorted into sizes of 8 mm or less in the vibration sorter. The non-metals are supplied to the zigzag wind power separator to sort heavy and light materials, and the non-metals selected to a size of 8 mm or more in the vibration sorter are supplied to the vortex sorter to sort them into combustible waste and non-ferrous metals, and combustibles sorted in the vortex sorter Disclosed is an apparatus for recycling scrap car remnants in which waste is supplied to a zigzag wind power separator to sort heavy and light materials, and lightweight combustible waste sorted by the zigzag wind power separator is supplied to a grinder to be pulverized into appropriate sizes.

However, in the recycling processing apparatus of the prior art described above, ferrous metals and non-ferrous metals are classified by magnetic force, and non-metals are classified into sizes of 8 mm or less and 8 mm or more in the vibration sorter, and 8 mm or less in the vibration sorter. Although the zigzag wind power sorter selects non-metals such as selected fibers or non-woven fabrics, there is a problem in that aluminum and copper cannot be sorted from non-ferrous metals.

Korean Patent Registration No. 10-1976775 (registered on May 09, 2019)

An object of the present invention is to solve the above-described problems of the conventional scrap car remnant recycling apparatus, crushing metal waste materials into pellets of a predetermined size, sorting the crushed pellets by magnetic force, and separating copper and aluminum from the crushed pellets. Non-ferrous metals are supplied to a crusher through a conveyor, pulverized into particles of relatively smaller size, accommodated in a plurality of storage bins, and then sorted into copper and relatively lighter aluminum by wind power in a plurality of specific gravity separators, thereby reducing metal waste It is to provide an automatic sorter of scrap metal including non-ferrous metal having an improved structure to subdivide and sort ferrous metal into copper and aluminum.

In order to achieve the above object, the automatic sorter of scrap iron including nonferrous metal according to the present invention crushes the scrap metal in a crusher to classify ferrous metal and nonferrous metal. In the automatic sorter of scrap iron including nonferrous metal,
The scrap metal input into the hopper is crushed in a crusher and transported through a conveyor, and the non-ferrous metal shredded in the crusher is pulverized into 12 to 16 mm pellets. A crusher for crushing pellets into smaller particles of the size of, a magnetic separator equipped with an electromagnet to classify and discharge ferrous metal pellets from the pellets crushed and discharged from the crusher, and classified and discharged from the magnetic separator, A fine grinder that supplies the remaining nonferrous metal pellets through a conveyor and secondarily pulverizes them into relatively smaller copper and aluminum particles, and the weights of the copper and aluminum nonferrous metal particles finely pulverized in the fine grinder are different. A specific gravity separator that sorts copper and aluminum particles of non-ferrous metal by wind power by using the fact that aluminum particles with a relatively smaller specific gravity than copper particles are blown farther and fall at a relatively shorter distance by the wind using Including, but the non-ferrous metal particles pulverized in the fine grinder are stored in a storage container, and then supplied from the storage container to a specific gravity separator, and a plurality of fine grinders, storage containers, and a specific gravity separator are provided, and the non-ferrous metal particles to be treated are dispersed in small amounts Conveyors are installed at the location where the copper particles fall and the location where the aluminum particles fall, so that the copper and aluminum particles can be sorted even with relatively weak wind strength, and the sorted copper particles and aluminum particles are separated and discharged. In order to remove dust generated in the process of crushing, pulverizing, and pulverizing scrap metal and in the process of distributing and receiving non-ferrous metal particles in storage bins and sorting them in a specific gravity separator, dust collection units installed on each of the crushers and grinders, Dust collecting parts provided at the inlet side of each of the fine grinders, and dust collecting parts installed in the reservoirs are connected to large dust collectors installed outside, and dust collecting parts are provided in each of the fine grinders to remove dust generated in the grinding process. And, the dust collecting parts of the fine grinders are connected to a large dust collector installed outside, and each of the specific gravity separators is also provided with a dust collecting part to remove foreign substances or dust scattered during classification of copper and aluminum particles by wind supply, The dust collecting unit is characterized in that it is connected to an external large dust collector.

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According to the present invention, scrap metal including nonferrous metal is crushed in a hopper, and then firstly crushed in a crusher into pellets of a predetermined size to classify ferrous and nonferrous metals by magnetic force, and then secondarily the nonferrous metal pellets are relatively smaller in a plurality of crushers. By pulverizing and subdividing copper and aluminum in specific gravity separators and automatically classifying them by material, post-processing for recycling of scrap metal can be efficiently performed, and the risk of worker injury can be eliminated, and multiple grinders and storage bins can be used. And by installing dust collectors in the specific gravity separators, there is an effect of preventing environmental pollution due to dust generation and improving the working environment.

1 is a schematic configuration diagram of an automatic sorter for scrap metal including non-ferrous metal according to the present invention.

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

1, the automatic sorter of scrap metal including nonferrous metal according to the present invention crushes the scrap metal input into the hopper 1 in the crusher 11 and then supplies it to the crusher 3 through the conveyor 21 to obtain a predetermined size, That is, pellets having a size of 12 to 16 mm are pulverized and discharged, and the pellets are first classified into ferrous and non-ferrous metals, and then non-ferrous metal pellets are secondarily pulverized and classified into copper and aluminum.

To this end, the pellets pulverized and discharged from the grinder 3 are separated from ferrous metal pellets by the magnetic force of the magnetic separator 4 equipped with an electromagnet, and then the power is cut off to lose the magnetic force and fall to the discharge port for discharge. And, the remaining non-ferrous metal pellets are supplied to the fine grinder 5 to be subdivided into copper and aluminum through the conveyor 22 and sorted.

A plurality of pellets by the conveyor 22, in the embodiment shown in the drawing, are supplied to three fine grinders 5, and each of the fine grinders 5 pellets of 12 to 16 mm in size are It is pulverized into smaller particles of 5 mm in size and stored in a plurality of reservoirs (6).

The dust collecting parts 71 installed on each of the crushers 11 and the crushers 3 and the dust collecting parts 72 provided on the inlet side of each of the fine grinders 5 are connected to a large dust collector 7 installed outside there is.

A dust collection unit 72 is installed at the inlet side of each of the fine grinders 5, and a dust collection unit 73 is installed in each of the reservoirs 6, and the dust collection units 72 and 73 are also installed outside the large size Since it is connected to the dust collector 7, it is possible to improve the working environment due to dust in the workplace by removing the dust generated during the transport and crushing of the scrap pellets.

The particles of 4 to 5 mm in size that are pulverized in the fine grinders 5 and accommodated in the storage container 6 are particles of non-ferrous metals, that is, copper and aluminum, and are classified using different specific gravity, in the illustrated embodiment In is supplied to seven specific gravity separators (8). A dust collection unit 71' is provided in each of the fine grinders 5 to remove dust generated in the grinding process, and the dust collection parts 71' of the fine grinders 5 are externally installed large dust collectors 7' is connected to

The non-ferrous metal particles of copper and aluminum accommodated in each of the reservoirs 6 are supplied in small amounts and classified into copper and aluminum particles in a plurality of gravity separators 8. This sorting uses the difference in weight of copper and aluminum particles to supply wind from each of the specific gravity separators 8 so that aluminum particles having a lower specific gravity than copper particles are blown away relatively farther by the wind, and the copper particles Since the particles fall at a relatively smaller distance, the copper and aluminum particles of the nonferrous metal can be separated by wind power. The sorted copper particles and aluminum particles are discharged through two conveyors 9 and 9' respectively installed at the location where the copper particles fall and the location where the aluminum particles fall.

Installing a plurality of the specific gravity separators 8 as in the illustrated embodiment is because the copper and aluminum particles are pulverized to a size of 4 to 5 mm and are relatively light, so a large amount of copper and aluminum in one specific gravity separator In the case of sorting the particles, the strength of the wind must be strengthened. In this case, since it is difficult to sort due to the difference in weight of the small particles, small amounts of non-ferrous metal particles are dispersed and treated to weaken the strength of the wind. It is possible to effectively sort out the aluminum particles, thereby improving productivity.

In order to remove foreign substances or dust as copper and aluminum particles are blown by the supply of wind in the specific gravity separators 8, a dust collector 71" is provided in each of the specific gravity separators 8, and the dust collectors 71 It is connected to the external dust collector (7").

In addition, by selecting the number of specific gravity separators according to the amount of copper and aluminum particles to be processed and operating them variably, it is possible to reduce operating energy of the specific gravity separator.

The dust collecting parts 71, 72, 73, 71' and 72" are connected to the external large dust collectors 7, 7' and 7", and when the large dust collector operates, air is released from each of the dust collecting parts connected to the large dust collector. is introduced into the dust collector, it is possible to reduce the installation cost and operation cost of the dust collector because each dust collecting unit is not driven independently.

The automatic sorting machine for scrap iron, including nonferrous metal, of the present invention crushes the scrap metal to classify the ferrous metal, converts the nonferrous metal into relatively small particles through primary and secondary crushing processes, and automatically separates the nonferrous metal using the difference in specific gravity between copper and aluminum. can be used to classify.

1: Hopper 11: Shredder
21, 22: conveyor 3: grinder
4: magnetic separator 5: fine grinder
6: storage bin 7: dust collector
8: specific gravity separator 9,9 ': conveyor

Claims (5)

In the automatic sorting machine for scrap metal including non-ferrous metal, which crushes the scrap metal in the crusher 11 and classifies ferrous metal and non-ferrous metal,
A crusher (3) that crushes the scrap metal input into the hopper (1) in a crusher (11) and then crushes it into pellets having a size of 12 to 16 mm crushed in the crusher through a conveyor (21);
A magnetic separator 4 having an electromagnet to classify and discharge ferrous metal pellets from the pellets pulverized and discharged from the grinder 3;
The non-ferrous metal pellets of copper and aluminum remaining after being sorted and discharged from the magnetic separator 4 are supplied through the conveyor 22, and secondarily, the pellets of 12 to 16 mm in size are relatively smaller in size of 4 to 5 mm. A fine grinder 5 for grinding with;
Using the difference in weight of the non-ferrous metal particles of copper and aluminum finely pulverized in the fine grinder 5, aluminum particles having a relatively smaller specific gravity than copper particles are blown farther and fall by the wind, and the copper particles are relatively shorter. Including a specific gravity separator (8) that classifies copper particles and aluminum particles of nonferrous metal by wind power by using the fall in the distance,
The nonferrous metal particles pulverized in the fine grinder 5 are stored in the storage container 6 and then supplied from the storage container 6 to the specific gravity separator 8, and the fine grinder 5 and the storage container 6 and the specific gravity separator ( 8) is provided, and the non-ferrous metal particles to be treated are dispersed and treated in small portions so that copper and aluminum particles can be sorted out even with relatively weak wind strength,
Conveyors 9 and 9' are installed at the location where the copper particles fall and the location where the aluminum particles fall, respectively, to separate and discharge the classified copper particles and aluminum particles,
In order to remove dust generated in the process of crushing, pulverizing, and pulverizing scrap metal and distributing and receiving non-ferrous metal particles in storage containers and sorting them in the specific gravity separator (8), the crusher (11) and the crusher (3) The dust collecting parts 71 installed in, the dust collecting parts 72 provided on the inlet side of each of the fine grinders 5, and the dust collecting parts 73 respectively installed in the storage containers 6 are large dust collectors installed outside ( 7) is connected to,
A dust collection unit 71' is provided in each of the fine grinders 5 to remove dust generated in the grinding process, and the dust collection parts 71' of the fine grinders 5 are externally installed large dust collectors 7' connected to,
Each of the specific gravity separators 8 is also provided with a dust collection unit 71" to remove foreign substances or dust scattered during classification of copper and aluminum particles by the supply of wind, and the dust collection unit 71" is provided on the outside. Automatic sorter of scrap metal including non-ferrous metal, characterized in that connected to the dust collector (7 "). delete delete delete delete

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