KR100933762B1 - Recycling device of industrial wastes - Google Patents

Abstract

PURPOSE: A recycling device of steel waste is provided to increase usability of a recycled molding body without risks about breakage of a product by reinforcing initial intensity with a coating process of the recycled molding body surface. CONSTITUTION: A recycling device of steel waste includes the following using steps: supplying the crushed steel waste, dust, and a binder to a raw material storage silo; mixing the stored raw materials with a reducing agent in a continuous agitator; coating the surface of a recycled molding body with a coating agent; and transferring the only recycled molding body in a perfect state through sorting operation with a briquetting device.

Description

Steel Waste Recycling Equipment {RECYCLING DEVICE OF INDUSTRIAL WASTES}

The present invention relates to a steel waste recycling apparatus for recycling steel waste, such as slag, sludge, oxide scale, etc. from an industrial site of an iron ore company, the characteristics of the present invention is to coat the coating on the recycled molded product to improve the strength of the recycled molded product The present invention relates to a steel waste recycling apparatus that promotes benefits such as strengthening, minimizing damage, increasing the practical use rate, and reducing dust generation to facilitate handling during packaging and transportation.

With industrialization and growing interest in the environment due to industrialization, the treatment of industrial waste, which is inevitably generated at industrial sites, has become a very important issue in many aspects, including environmental protection and resource utilization. Minimizing the resources to promote efficient use of the resources and safe and environmentally friendly disposal.

In general, industrial waste treatment methods include incineration and landfill methods, and incineration methods generate a lot of pollutants such as dioxins, causing serious problems to natural and residential environments around incinerators. It is not easy to secure and there is also a problem that damages the environment, such as soil pollution.

Therefore, it is best to minimize the industrial waste by efficiently using resources at each industrial site and to recycle the industrial waste that is inevitably generated at the industrial site or at home. We have devised a recycling system that forms various industrial wastes generated at industrial sites into recycled moldings that can be recycled by a fully automatic system (Registration Utility Model No. 20-0409103).

The following is a list of some examples of the recycling method of steel waste, in which various research and efforts are being made along with the industrial waste.

    In Korean Patent Publication No. 10-0162016, the collected dry dust and wet sludge are mixed in a mixer, and the moisture content is dried in a drying burner, and the cooling and size are selected in a rotary cooler, crushed in a hammer crusher, and reselected in a vibrating screen. In addition, iron, molasses, and lime are mixed in a mixer through a series of processes such as silo, iron storage, scale hopper, and compression molding into briquettes in a briquetting device to select and reshape the size on a vibrating screen to produce briquettes. A converter coolant (briquette) manufacturing apparatus using steel waste is disclosed.

    In Korean Patent Publication No. 10-0645082, after crushing and blending slag crushed in a crusher, and molding a certain compression molding in a molding machine, the molded product is reduced by input of a reducing agent in a high-temperature reducing furnace of 1200 degrees Celsius or more, and then recycled as a product of recycled products. Disclosed is an industrial waste recycling method and a molding apparatus for use in which industrial waste is processed so as to be manufactured and recycled.

    Korean Patent Laid-Open Publication No. 10-2000-0037285 contains more than 60% of iron in steelmaking slag, and grains of 8mm or more in size are directly used as scrap iron for converters or electric furnaces with scrap, and 60% or more of iron. And the finest particles having a particle size of 8mm or less are collected and re-crushed with a rod mill to remove impurities as much as possible. The molasses and quicklime are mixed with a binder composed of 80 ± 6.5: 20 ± 6.5 to make briquettes through a briquette maker. It is published again on the method of producing briquettes of fine ore in steelmaking slag.

     The existing facilities described above are not only low productivity due to complex processes and processes of recycling molded products, but also low recycling efficiency of the molded products and many product breakdowns. There was a problem that it is not easy to handle due to high occurrence and damage.

    In the present invention, it is repeated to sort and grind the raw material to a moldable size, and the mixing process of the raw material is made of a variety of steel waste by making a uniform amount per hour continuously and supplied through a continuous mixer and a quantitative feeding device. To more efficiently process the recycled moldings with fewer defective products and to recycle them.

In particular, the present invention provides a more efficient and productive steel waste, such as by adding a coating operation for coating the recycled molding to enhance the strength and minimize the damage to increase the practical use rate and to provide easy handling during packaging, transportation, etc. It is to provide a recycling apparatus.

The present invention for solving the above problems;
According to the invention described in [claim 1]; The steel waste is crushed and supplied together with the dust and binder to the raw material storage, and the raw materials stored between the raw material and the storage are supplied together with a reducing agent to a continuous mixer, mixed, molded into a recycled molding in a briquetting device, and transferred to a coating device. In the steel waste recycling apparatus for coating the surface of the recycled molding with a coating agent,

The recycled molded article formed in the briquetting device is moved to the coating device through the 1st and 2nd mesh conveyor so that only the intact recycled molded product can be transported through the sorting operation in which the fine particles, which are not recycled molded products, are recycled back to the briquetting device. The coating device is provided with a spray nozzle for spraying the coating on both sides of the mesh conveyor, the mesh conveyor is installed to the spray nozzle only up to half section (distance) to make the spraying operation and the drying operation is made in the remaining section (distance) It is characterized by the loss.

According to the invention described in [claim 2]; According to claim 1, wherein the drying operation of the mesh conveyor is characterized in that it is possible to dry the recycled molded product sprayed with a coating by installing a heater of 60 ~ 80 ℃.

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    The present invention is a recycling apparatus for forming and manufacturing a variety of steel waste from a steel company, such as recycled molded body, by performing a coating operation to coat the surface of the recycled molded product by wrapping the surface of the recycled molded article to increase the surface hardness to enhance the initial strength As the impact resistance is increased, there is no risk of product breakage such as surface breakage or dropping during the packaging and transportation process, so that the actual use rate of the recycled molded body can be greatly increased, and dust generation is prevented during the loading and unloading operations such as packaging and transportation. It provides advantages such as ease of handling.

    The present invention relates to a steel waste recycling apparatus for producing recycled molded articles (molding coal) after crushing the steel waste, mixed in a binder and the like, and molded and coated in a briquetting device to a predetermined shape.

The steel waste crushed in the first shredding device filters out the magnetic material by the magnet magnetic separator and the moldable grain size steel waste sorted by the vibrating screen device is moved between the raw material storage (SILO).

And, the impossible particle size is moved to the secondary shredding device to be crushed and subjected to an iterative process of sorting through the vibration screen device.

In addition, the dust line (DUST SILO), between the binder supply line is automatically quantitatively supplied by the metering supply device and moved to the mix line with the raw material is stored in the raw material storage path (SILO).

Between the raw material storage, a fixed amount feeder is used to supply a fixed amount of raw material, and the raw material, binder, and water are mixed in a continuous mixer.

In the above process, as mentioned above, the binder amount is continuously metered together with the raw materials of the steel waste from the binder mixing tank line, thereby eliminating the need for a complicated weighing (scale) system and reducing the complicated process of briquetting.

As the continuous mixer proceeds continuously from the inlet to the outlet, the mixer is made, and the production efficiency is improved by the continuous quantitative supply of raw materials, thereby improving the production efficiency. When the raw material of the recycled molded object passed through the mixer process passes through the briquetting device, the recycled coal is formed and then moved to the coating process through the transfer device. The molded recycled molded product is moved by a mesh conveyor for coating while remaining debris other than the recycled molded product and small-sized moldings which are not formed to a certain size are lost through raw material recycling through a screening device. Is minimized.

The present invention is characterized by manufacturing a recycled molded product by coating the recycled molded product passed through the mesh conveyor in a coating apparatus.

The coating operation provides advantages such as strengthening the initial strength of the molded recycled molded product, reducing dust generation, and minimizing breakage of the recycled molded product to increase the practical use rate.

Detailed embodiments of the present invention will be described below with reference to the accompanying drawings.

    1 is a process diagram of the present invention, Figure 2 is a block diagram of a steel waste recycling apparatus according to the present invention, Figure 3 is a schematic block diagram of a coating apparatus of the present invention.

      Steel waste recycling apparatus according to the present invention is the first shredding device (1), the second shredding device (3), the conveying device, the vibration screen device (2), the raw material storage path (4), continuous mixer (5), metering It is roughly divided into a feeding device, a briquetting device 6, and a coating device 7.

   The first shredding device 1 is a place where the steel waste transported in the industrial site is first shredded, and the steel waste shredded in the first shredding device 1 is transferred to the vibrating screen device 3 through a conveyor. To select the moldable particle size.

    The first shredding device 1 is a dust collector is installed on the jaw crusher to perform the shredding operation and the collected air is supplied to the bag filter so that fresh air escapes to the outside, the dust collector is likely to dust Where it is, that is, where the material is transported by a belt conveyor or the like will be installed.

    And a magnet magnetic separator is installed on the transfer device to filter out the magnetic material.

     The vibrating screen device (2) is to sort the crushed steel waste by type or size of particles, the raw material crushed into fine particles are supplied to the raw material storage (4) through the transfer device.

    However, the steel waste having large particles selected by the vibrating screen device 1 during the above process is crushed again by the second shredding device 3 to repeat the sorting process by the vibrating screen device 2 so that only raw material having a moldable particle size can be formed. It feeds into the raw material storage path (4).

     The raw material storage path (4) is a place for storing the steel waste in the form of particles, that is, the raw material selected by the vibrating screen device (2), the dust and the binder is quantitatively by the fixed amount supply device from between the dust and the binder It is adjusted and stored together as a raw material.

    Dust and binder stored in the raw material storage path (4) is stored by adjusting the amount by a fixed amount supply device according to the production amount of steel waste.

     In the raw material storage path (4), the raw material is supplied to the continuous mixer 5 in a quantitative manner by means of a quantitative feeding device in the stored raw material (with dust and binder), and the continuous mix 5 has a paddle therein. This is formed and the paddle rotates toward the exit from the inlet to serve to push the contents are automatically discharged.

    The continuous mix 5 is supplied with a raw material from the raw material storage path 4 together with the raw material in a quantitative manner by the flow meter, and by supplying a certain amount of water to uniformly mix them and to easily form a molded article. Make sure that the ingredients are mixed with the reducing agent.

    The reducing agent generally uses a lot of molasses, starch, coke.

   The contents discharged from the continuous mix 5 are introduced into the briquetting device 6. The briquetting device 6 is a device for forming the contents in a predetermined shape, and is equipped with a screw feeder, which is a pressing device that pushes the raw materials downward, thereby strengthening the strength of the recycled molded article A.

   The recycled molded object A formed in the briquetting device 6 is conveyed to the coating device 7 through a conveying device.

The recycled molded article A formed by the briquetting device 6 is moved to the 1st and 2nd mesh conveyors 8 and 8a while being transferred to the coating apparatus 7, in the case of fine particles other than the recycled molded article A. Through the sorting operation recycled back to the briquetting device (6), only the intact recycled molding is transferred to the coating device (7) to complete the coating preparation work.

   The recycled molded article A prepared by coating through the first and second mesh conveyors is coated in the coating apparatus 7.

   The coating apparatus 7 installs a mesh conveyor 71 and sprays the coating agent through the two injection nozzles 72 while transferring the recycled molded object A over the mesh conveyor 71 so that the coating agent is applied to the surface of the recycled molded object A. Coating work.

   The mesh conveyor 71 is installed to a length of 10 ~ 15m and the spray nozzle 72 is installed on both sides of the upper portion of the mesh conveyor 71 to spray the coating agent.

    Recycled molded article (A) is completed in the coating work in the mesh conveyor 71 is packaged, transported by transporting to the packaging, transporting step.

    The injection nozzle 72 is installed only up to about half the distance (distance) of the mesh conveyor 71 to be sprayed, coated with the coating agent, and to be dried in the remaining sections.

    The drying is to perform a drying operation such as natural drying, the recycled molded body (A) formed in the briquetting device (6) is naturally dried in the transfer process after the coating operation of the coating agent by its own heat in the molding process or necessary Depending on the heater can be installed by drying 60 ~ 80 ℃.

   The coating agent of the recycled molded article (A) uses sodium silicate (sodium silicate) No. 5 (the lower the number, the higher the viscosity), and the viscosity of the coating agent is sodium silicate 3 depending on the properties of the recycled molded article (A). Or choose No. 5 to use.

    Sodium silicate used as the coating agent improves the strength by improving and stabilizing the structure of the recycled molded body by gelation, and by increasing the surface hardness by depositing a thin protective film on the surface to strengthen the strength.

    Terms used in the detailed description and claims in the present invention are used to explain the present invention in the best way, and the descriptions and claims, as well as the entire description of the present invention including the drawings are consistent with the technical idea. It is to be interpreted as meaning and concept, but must not be interpreted in a limited way only in a lexical sense to obscure the meaning and concept of the terms used.

1 is a process diagram of the present invention

2 is a block diagram of a steel waste recycling apparatus according to the present invention

Figure 3 is a schematic configuration diagram of a coating apparatus of the present invention

☞ Explanation of the main symbols used in the main part of the drawing ☜

1: first shredding device 2: vibrating screen device

3: second shredding device 4: raw material storage path (SILO)

5: Continuous mixer 6: BRIQUETTING MACHINE

7: coating equipment 71: mesh conveyor

73: spray nozzle

Claims (4)

The steel waste is crushed and supplied together with the dust and the binder to the raw material storage path 4, and the raw materials stored in the raw material storage path 4 are supplied to the continuous mixer 5 together with the reducing agent and mixed, followed by a briquetting device 6. In the steel waste recycling apparatus for molding into a recycled molded article (A) and transported to the coating device (7) to coat the surface of the recycled molded article (A) with a coating agent, The recycled molded article (A) molded in the briquetting device (6) is moved to the coating apparatus (7) through the first and second mesh conveyors (8, 8a) so that the fine particles are not briquettes again. Through the sorting operation recycled to the device 6, it is possible to transfer only the intact recycled moldings (A), The coating device 7 is installed on the both sides of the mesh conveyor 71, the injection nozzle 72 for injecting a coating agent, the mesh conveyor 71 is installed by spraying nozzle 72 to the half section (distance) of the spraying operation This is made and the steel waste recycling apparatus, characterized in that the drying operation is made in the remaining section (distance). The method of claim 1, Steel waste recycling apparatus, characterized in that to dry the recycled molded object (A) sprayed with a coating by installing a heater of 60 ~ 80 ℃ in the section where the drying operation of the mesh conveyor (71). delete delete

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