KR101178353B1 - A device disconnecting scraps iron and nonferrous and a synthetic resin - Google Patents

Abstract

PURPOSE: An apparatus for separating metals, non-ferrous metals, and synthetic resin are provided to save raw materials by increasing the recycling degree of metals and synthetic resin materials. CONSTITUTION: An apparatus for separating iron, non-ferrous metals, and synthetic resin includes a transferring belt(100), a cylindrical heating separating unit, and a resin collecting container(310). The heating separating unit includes a heating unit(370), a pressurizing roller(380), and a hot air generating unit. Both end parts of the transferring belt of the heating separating unit are opened to the progressing direction. A heat insulating layer and a heating member are successively arranged from the external side to the internal side of the heating separating unit. The heating unit is arranged at one upper side of the heating separating unit. The heating unit heats synthetic resin materials coating metals or non-ferrous metals. The hot air generating unit separates the plasticized synthetic resin materials from the metals and the non-ferrous metals. The pressurizing roller protects the metals and the non-ferrous metals from the hot air generating unit.

Description

A device disconnecting scraps iron and nonferrous and a synthetic resin

The present invention relates to an apparatus for separating synthetic resin contained in a product, such as scrap iron, non-ferrous iron and synthetic resin, such as scissors, waste wires,

The present invention relates to a device that separates synthetic resins contained in various wastes, solids, waste metals, wastes, and demolition materials containing synthetic resins, scrap metals, and non-ferrous metals from metals, so that each component can be recycled.

Publication No. 10-2002-0043491 relates to an apparatus for separating iron and nonferrous materials from metal shredded waste wires, and relates to an apparatus for separating iron and nonferrous materials from metal shredded waste wires. The waste wire is cut or crushed to separate the coating material and the metal powder firstly, and the iron material adhesive plate and the permanent magnet are placed on the upper part of the metal crusher conveying device in order to efficiently separate the iron material contained in the firstly separated metal powder. It is provided with an iron material conveying device diagonal to the metal powder conveying device.

In order to separate magnetically adsorbable metal material from nonferrous metal material, it has a rapid change according to metal category, and it has instantaneous eddy current which generates high magnetic flux density and magnet's repulsive force acting according to metal type. The present invention relates to a method and apparatus for separating nonferrous metal pieces through which pieces of the material are passed through them and separated at a distance or near distance according to the strength of the magnetic flux density.

However, according to the prior art described above, there is no way to separate the scrap metal nonferrous metal from the synthetic resin material, and the like, and the synthetic resin material included in the scrap metal nonferrous metal is usually separated by manual labor. This situation requires a lot of labor and time, as well as a costly economic problem. Therefore, there is an urgent need for a method for more efficiently separating synthetic resin materials mixed with nonferrous metals more efficiently.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems of the prior art,

The technical task of this project is to provide a device to easily separate and recycle metals and synthetic resins from objects and products mixed with scrap metals and non-ferrous metals and synthetic resins collected as general wastes and wastes. will be.

The present invention as a technical idea for achieving the above object,

Transfer belt 100 for introducing, transporting and discharging the mixed object and waste, the heat separator 300 is configured to blow the high heat and hot air inside the transfer belt 100, the heat separation device ( The scrap metal non-ferrous metal separated through the 300 is collected to collect the metal collection container 500, the resin collecting container 310, the synthetic resin separated by high heat and hot air from the heating separator 300, the resin collecting container 310 Synthetic resin recycling facility 320 is configured to be connected to), dust collector 330 to collect the odor and smoke generated in the heat separation device 300, hot air generation to generate high-pressure hot air to the heat separation device 300 The device 340 is largely composed of the first synthetic resin material and scrap metal and non-ferrous material and waste to be separated by separation to achieve the technical purpose.

According to the apparatus for separating scrap metal and nonferrous metal and synthetic resin according to the present invention,

If it is introduced into the present device without any separate screening process of products and articles collected at random, it is possible to separate and sort scrap metal and nonferrous metals and synthetic resins. By increasing the degree of recycling of metals and synthetic resins, the effect of saving the raw materials and helping the environment will be a big invention.

1 is a block diagram showing a preferred embodiment of the present invention
2 is a front view and a plan view showing a preferred embodiment of the present invention
3 is a block diagram showing a preferred embodiment of the present invention
Fig. 4 is an explanatory view showing the state of use showing the preferred embodiment of the present invention
5 is a block diagram showing a preferred embodiment of the present invention
6 is a use state diagram showing a preferred embodiment of the present invention
7 is a use state diagram showing a preferred embodiment of the present invention
8 is a use state diagram showing a preferred embodiment of the present invention

With reference to the accompanying drawings, a preferred configuration of the present invention for achieving the above object will be described with reference to FIGS.

① Transfer belt (100)

1 to 2 will be described with reference to the material that can withstand high heat, but mesh-type (mesh) is driven by a conveyor of the form consisting of a plurality of hollows (h), scrap metal, non-ferrous metals and synthetic resin materials are mixed Conveying belt 100 is configured to transfer the product and the waste present. That is, the transfer belt 100 is made of a material such as a metal that can withstand high heat because it is transported through the high temperature heat separation device 300, the plastic resin is peeled off due to high pressure hot air Since a plurality of hollows (h) is configured in the conveying belt 100 because the conveying belt 100 has to exit to the lower portion. The transfer belt 100 may be used by applying a belt driving technique, such as a conventional conveyor apparatus.

② Heating separator 300

As shown in Figures 1 to 6, the synthetic resin material contained in the product is introduced into the heat separation device 300 through the transfer belt 100 is mixed with the scrap metal, non-ferrous metal and synthetic resin material (hereinafter referred to as a separation product) It is an important component that allows separation.

First of all, the heat generating device 370 is configured to generate high temperature heat into the heat separation device 300 as a whole. In the case of the heat generator 370, a heat generator that generates heat through a normal heat source may be used. For example, by applying a heat core or a heat conduction plate to one side of the inside of the heat separation device 300 or inside the wall to generate heat to heat the separated product to be introduced later. The heating device 370 having the above-described configuration may vary the temperature according to the type of the separated product, and may also control the transfer time of the separated product by the transfer belt 100. Waste wires are small in volume and have a low melting point to lower the heating temperature or to increase the transfer speed of the transfer belt 100 to reduce the time exposed to heat.

As shown in FIG. 8, the heating device 370 is configured at an upper side of the heating separator 300 so as to be connected to a general elevating device 371 connected to a motor m and the like to adjust the position up and down. It is also possible to control the contact temperature of the separated product.

The pressure roller 380 may be selectively configured to one side of the heat separation device 300. In the case of the pressure roller 380, the synthetic resin material in a plastic state is separated by the high pressure hot air of the hot air generator 340. Scrap metal and non-ferrous is not to escape, and to press the pressure so that the plastic material in the plastic state can be easily discharged to the outside.

As shown in FIG. 6, when the synthetic resin material is plasticized and easily separated through the heating device 370 and the pressure roller 380 as described above, hot air connected to the upper one side of the heating separator 300 is configured. The generator 340 is discharged downward by high pressure hot air (pneumatic force), the plastic resin of the plastic state by the high pressure hot air is moved downward through the hollow portion (h) of the transfer belt (100). Therefore, a resin collecting container 310 is formed at the lower portion of the heat separation device 300. The synthetic resin material which is plasticized by heating and high pressure hot air is formed on the lower side of the heat separating device 300. ) Will fall and gather. At this time, since the scrap iron and non-ferrous metal is continuously added together with the synthetic resin material, the pressure roller 380 serves to hold the scrap iron and non-ferrous iron is not separated from the high-pressure hot air generated from the hot air generator 340.

As shown in FIG. 4, the hot wind generator 340 generates a wind using a compressor 341 or a blower 342 that generates wind in general, and is provided with a heating wire 343 or the like. Through the portion 344 is to finally generate a high-pressure hot air. The heating unit 344 may be configured by adjusting the number and position as necessary, the hot air generator 340 is connected to the material, such as a hose, pipe 345, the wind and high pressure hot air is delivered and the heating The high-pressure hot air is blown into the separated product through the vent hole 346 connected to the upper one side of the generator 100.

When the high-pressure hot air blows through the vent hole 346 of the hot air generator 340 to the separated product of the lower transfer rail 100, the product may be separated according to the pressure, size, etc. of the contact product according to the pressure thereof. It may be. Therefore, as illustrated in FIG. 7, a mesh holder holder 101 is formed between the transfer rail 100 and the ventilation hole 346 so that a separated product is positioned between the holder rail 101 and the transfer rail 100. In order to transfer the position of the vent hole 356 in a fixed state by a certain pressure may be prevented from being separated from the separated product by the wind.

The resin container 310 may produce a chip by connecting a conventional synthetic resin chip regeneration device 320 so that the synthetic resin material can be directly recycled as the plastic resin material is separated and collected in a plastic state. Since the synthetic resin material gathered in the resin container 310 is in a plastic state, the recycled chip is produced using the state as a raw material. By connecting to the collection container 310, it is also possible to produce a recycled chip.

Dust collector 330 is configured to be connected to one side of the heat separation device 300, and is generally used as one side connected to a pipe for treating smoke and odor caused by internal combustion products that may occur in the process of heating and high pressure hot air. The dust collector 330 of the connection configuration.

     As described above, in the case of the heating separator 100, the heating device 370, the pressure roller 380, the hot air generator 340, the resin collector 310, and the dust collector 330 are organically connected. .

For reference to the cross-sectional view of the heat separation device 300 in a cross-sectional view as shown in Figure 2, the transfer belt 100 is configured in a cylindrical shape configured to open both ends of the conveying direction, but the outer side of the cylindrical Inward from the heat insulating layer 301, the heating wire layer 303 is composed of a heat generating member 302 is configured continuously, the high-pressure hot air is discharged to the upper one side and the conveying belt 100 to the lower side inside The resin collector 310 is formed to be connected.

③ scrap metal, non-ferrous collector (500)

Scrap, non-ferrous metal from which the synthetic resin material is separated through the heat separation device 300 is transferred to the conveyance belt 100 and finally transported to a separate scrap, non-ferrous collection container 500 is collected. High and non-ferrous metals collected in this way are sent back to the facility for reprocessing and recycled as necessary raw materials.

100: transfer belt 300: heat separation device h: hollow part
370: heating device 380: pressure roller 340: hot air generating device
310: resin collector 330: dust collector 500: scrap iron non-ferrous collector

Claims (8)

Conveying belt 100 is composed of a material having a high melting point but has a plurality of hollow portions (h) in a mesh shape and is responsible for conveying the material as a whole; Heat separation device 300 is composed of a heat generating device 370, a pressure roller 380, a hot air generator 340 for generating a high heat therein: a resin collecting container consisting of a lower end of the heat separation device 300 ( 310); the hot air generator 340 is configured on the upper side of the heat separation device 300, the heating unit 344 for the wind generated by the compressor 341 or the blower 342 In the apparatus for separating the synthetic resin material coated on the scrap iron and non-ferrous, the high-pressure hot air is emitted to the vent hole 346 formed on one side of the upper side of the heat separation device 300 by passing through),
The heating separator 300 is formed in a cylindrical shape in which both ends of the conveyance belt 100 in the advancing direction is opened, the cross-section of the heat insulating layer 301, the heating member 302 is sequentially configured,
The heating device 370 is configured on the upper side of the heat separation device 300, and configured to be positioned up and down to heat the synthetic resin material coated on the non-ferrous iron in a plastic state,
The hot air generator 340 is configured to peel off the plastic resin in the scrap iron and non-ferrous metal with high pressure hot air,
The pressure roller 380 is a device for separating the scrap iron and non-ferrous and synthetic resin, characterized in that configured to press the hot air generating device 340 so that the scrap iron and non-ferrous.

delete delete The method of claim 1,
A device for separating the scrap metal and non-ferrous and synthetic resin, characterized in that the synthetic resin chip regeneration device 320 is connected to one side of the resin container (310)
The method of claim 1,
A device for separating the scrap metal and non-ferrous and synthetic resin, characterized in that the dust collector 330 is connected to one side of the heating separator 300

delete delete The method of claim 1,
A device for separating scrap metal and non-ferrous metal and synthetic resin, characterized in that the mesh holder holder 101 is configured between the hot air generator 340 and the conveyance belt 100

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