KR20230100056A - Disposal system for waste plastic and disposal method thereof - Google Patents

Abstract

The present invention relates to a waste plastic treatment system including a de-ironizer for removing metal from waste plastic and a dissolution reactor for receiving the metal-removed waste plastic and a solvent and dissolving the waste plastic in the solvent.

Description

Waste plastic processing system and its processing method {DISPOSAL SYSTEM FOR WASTE PLASTIC AND DISPOSAL METHOD THEREOF}

The present invention relates to a waste plastic treatment system and a treatment method thereof. Specifically, the present invention relates to a waste plastic treatment system and a method for treating the same, which increase the yield of a recyclable polymer by removing foreign substances contained in the waste plastic before dissolving the waste plastic in a solvent.

Vinyl chloride polymer (PVC) is widely used to make a variety of articles. For example, they are usually reinforced with reinforcing fibers intended for covering soils, for covering vehicles (trucks), for covering buildings on which work is being performed, for setting up sets for entertainment or exhibitions, or for advertising purposes. Used to make sheets. These sheets generally have a large surface area. Moreover, in many fields, most notably in the field of advertising, which is currently growing considerably, or where sets for entertainment or exhibitions are used, the lifespan of sheets is usually short, usually weeks or months. For these reasons, large quantities of these sheets are discarded every year. How to regenerate them therefore constitutes a major ecological and economic problem.

Other articles based on one or more soft or rigid polymers (preferably PVC), such as conveyor belts in vehicles, pipes and hoses, coated fabrics and other interior fittings, window frames or polymer-insulated electrical cables The same situation applies for

1 is a diagram showing a conventional wastewater treatment process. Conventional processes for recycling waste plastics have been recycling waste plastics through the steps of crushing, dissolving, filtering, settling, and drying the plastics.

In the conventional process, foreign substances contained in waste plastic are removed in the filtration step, so the filter is overloaded, and foreign substances not filtered through the filter or undissolved waste plastic are recovered together with the lysate in which the polymer is dissolved in the solvent, and recycled. A problem of reducing the purity of the plastic occurred.

Korean Patent Publication No. 10-2011-0021781

The present invention is to solve the problems of the prior art, and to provide a waste plastic treatment system and method for increasing the yield of a recyclable polymer by removing foreign substances contained in the waste plastic before dissolving the waste plastic in a solvent. .

An exemplary embodiment of the present invention is a waste plastic treatment system including a de-ironizer for removing metal from waste plastic and a dissolution reactor for receiving the metal-removed waste plastic and a solvent and dissolving the waste plastic in the solvent. provides

An exemplary embodiment of the present invention further includes a metal detector for measuring whether or not the waste plastic supplied to the iron de-energizer contains metal, and a control unit for moving the waste plastic to the de-energizer when the metal is detected by the metal detector. A waste plastic treatment system is provided.

An exemplary embodiment of the present invention is supplied with at least one of a melt in which the waste plastic is dissolved in the solvent, the waste plastic not dissolved in the solvent, and the solvent in the dissolution reactor, and foreign substances included in the melt and a filter for removing at least one of the undissolved waste plastics.

In one embodiment of the present invention, the dissolution reactor is located in a main body receiving and accommodating the solvent and the waste plastic, and mixing the solvent and the waste plastic by rotation and dissolving the waste plastic in the solvent. A waste plastic treatment system comprising an agitator is provided.

One embodiment of the present invention provides a waste plastic treatment system further comprising a grinder for pulverizing the waste plastic and discharging the waste plastic to the de-iron machine in powder form.

In one embodiment of the present invention, there is provided a waste plastic treatment method comprising the steps of removing metal from waste plastic and dissolving the waste plastic from which the metal is removed in a solvent to prepare a lysate.

In one embodiment of the present invention, there is provided a waste plastic treatment method further comprising the step of measuring whether or not the metal is included in the waste plastic.

In one embodiment of the present invention, the waste plastic treatment method further comprising the step of removing at least one of foreign substances included in the waste plastic not dissolved in the solvent and a melt of the waste plastic dissolved in the solvent. provides

In one embodiment of the present invention, there is provided a waste plastic treatment method further comprising the step of producing waste plastic in powder form by crushing the waste plastic.

According to the waste plastic treatment system and method according to the exemplary embodiments of the present invention, foreign substances contained in the waste plastic are removed before dissolving the waste plastic in a solvent to increase the yield of a recyclable polymer and improve the quality of the recycled polymer. can contribute

1 is a diagram showing a conventional wastewater treatment process.
2 is a schematic diagram showing a waste plastic treatment system according to an exemplary embodiment of the present invention.

Hereinafter, the present invention will be described in detail with reference to the drawings. However, the drawings are for illustrating the present invention, and the scope of the present invention is not limited by the drawings.

2 is a schematic diagram showing a waste plastic treatment system 100 according to an exemplary embodiment of the present invention.

The waste plastic treatment system 100 includes a deiron 10 and a dissolution reactor 20 .

The deiron 10 removes metal foreign substances contained in the waste plastic before the waste plastic is supplied to the dissolution reactor 20 .

The de-electronizer 10 may include an electromagnet de-elector (EMF), a de-e-elector using a permanent magnet, and the like. Preferably, the de-energizer 10 according to the present invention is a dry electromagnet de-energizer.

The de-iron machine 10 is provided with a filter unit (not shown) attaching fine metal powder contained in the waste plastic, a coil unit (not shown) that generates electromagnetic force to the waste plastic, and one side of the filter unit to remove the waste plastic. A waste plastic supply unit (not shown) supplied to the filter unit, a waste plastic discharge unit (not shown) for discharging waste plastic from which metal powder is removed, and a metal powder connected to one side of the waste plastic discharge unit to discharge metal powder. It may include an outlet (not shown).

Therefore, in the de-iron machine 10, the waste plastic discharge unit and the dissolution reactor 20 are connected to supply waste plastic from which metal powder has been removed to the dissolution reactor 20, close the waste plastic discharge unit, and open the metal powder discharge unit. By discharging the powder to the outside, the metal powder stored in the filter unit can be removed.

The dissolution reactor 20 dissolves waste plastic in a solvent, and a melt (or solution) in which the waste plastic is dissolved in a solvent may be prepared by mixing the solvent and the waste plastic. The melt may refer to a solution in which plasticizers, vinyl chloride polymers (PVC), additives, and other plastics or additives included in waste plastics are dissolved in a solvent.

The dissolution reactor 20 may include a body (not shown) and an agitator (not shown).

The main body receives and accommodates the solvent and the waste plastic, and can store any one or more of the solvent, the waste plastic, and the melt in which the waste plastic is dissolved. At this time, the waste plastic may be pulverized through a crusher and supplied to the main body in the form of powder.

The main body may be provided with a solvent supply unit (not shown) and a waste plastic supply unit (not shown) for supplying solvent and waste plastic on the top or side, and a melt discharge unit (not shown) for discharging the melt at the bottom. ) may be provided. In addition, the lysate discharge unit includes a plate-shaped filter therein, so that foreign substances remaining in the lysate may be filtered out.

The stirrer is included in the main body and can dissolve the waste plastic in the solvent by mixing the solvent and the waste plastic by rotation. The stirrer rotates around the central axis of the main body and generates fluid flow in the solvent, thereby increasing the contact area between the solvent and the waste plastic.

In one embodiment, the stirrer is provided with at least one propeller on a long rod, and the propeller may be positioned along the length direction of the rod. And, the agitator may include a motor capable of providing power to the rod to rotate the propeller. Therefore, the stirrer may be provided by connecting the motor and the bar.

The stirrer may be positioned so that the propeller is immersed in the solvent or the melt, and the solvent and the waste plastic may be stirred by rotating the rod and the propeller by receiving power from the motor.

In another embodiment, the stirrer is provided with a rotating shaft (not shown) provided horizontally with the central axis of the main body on one surface of the motor, and a plurality of coupling parts (not shown) extending from the end of the rotating shaft toward the inner surface of the main body. And, it may be provided in a form in which a rotary blade (not shown) is coupled to each coupling part.

The form of the stirrer according to the present invention is not particularly limited as long as it can rotate the solution in which the waste plastic is dissolved in the solvent in one direction.

The waste plastic system 100 according to an exemplary embodiment of the present invention may further include a grinder (not shown).

The shredder can crush the waste plastic and discharge and feed it to the deiron in powder form. The waste plastic system 100 supplies waste plastic in the form of powder to the de-ironizer 10 and the dissolution reactor 20, so that the de-energizer 10 can easily remove the metal contained in the waste plastic, and waste for the solvent. It can increase the solubility of plastics.

Also, the waste plastic system 100 according to an exemplary embodiment may further include a filter 30 .

The filter 30 may receive at least one of melt, undissolved waste plastic and solvent from the dissolution reactor 20 and remove foreign substances and undissolved waste plastic included in the melt.

The filter 30 separates liquid substances such as melts and solvents from solid substances such as foreign substances and waste plastic powder and discharges only the melts and solvents, and at least one plate having a plurality of through holes. It may include a filter of the form.

The filter may be provided in a direction perpendicular to a direction in which melt, waste plastic powder, and solvent are supplied to the inside of the filter 30 and the melt and solvent are discharged. That is, the filter may be positioned parallel to the vertical direction of the axial direction of the filter 30.

Alternatively, the filter may be included in at least one of a supply unit to which the melt, waste plastic powder, and solvent are supplied, or a discharge unit to which the melt and the solvent are discharged.

The waste plastic treatment system 100 may further include a metal detector 40 . The metal detector 40 may measure whether or not metal is included in the waste plastic supplied to the iron de-energizer 10 .

The metal detector 40 is not particularly limited as long as it can detect a metal material in the waste plastic supplied to either the deiron 10 or the dissolution reactor 20.

In addition, the waste plastic treatment system 100 may further include a controller 50. When metal is detected by the metal detector 40, the control unit 50 may move the waste plastic to the iron detachment device 10.

For example, a crusher pulverizes waste plastic to produce waste plastic in a powder form. At this time, the waste plastic powder may include polymer powder, polymer powder containing foreign substances, metal powder, metal powder containing foreign substances, and the like. there is.

The metal detector 40 may detect whether there are metal powders, such as metal powders and metal powders containing foreign substances, in the waste plastic powder.

When metal is detected by the metal detector 40, the control unit 50 closes a valve in a flow path connected from the metal detector 40 to the dissolution reactor 20 to stop supplying waste plastic powder to the dissolution reactor 20. In addition, the control unit 50 may open a valve in a flow path connected from the metal detector 40 to the iron desorber 10 to supply waste plastic powder to the iron desorber 10 .

The waste plastic treatment method includes removing metal from the waste plastic (S1) and dissolving the metal-free waste plastic in a solvent to prepare a melt (S2).

The waste plastic treatment method may further include a step (S0) of preparing waste plastic in a powder form by crushing the waste plastic. The metal removal step (S1) removes the metal included in the waste plastic in powder form, so it can be easily removed from the waste plastic.

And, the waste plastic treatment method may further include measuring whether the waste plastic contains the metal (S0-1). When metal is not included in the waste plastic, in the waste plastic treatment method, the step of removing the metal (S1) may be omitted.

The waste plastic treatment method may further include removing at least one of waste plastics not dissolved in the solvent and foreign substances included in the waste plastics (S3).

The waste plastic treatment method may refer to the description of the redundant configuration of the waste plastic treatment system.

Although the above has been described with reference to preferred embodiments of the present invention, those skilled in the art will variously modify and change the present invention within the scope not departing from the spirit and scope of the present invention described in the claims below. You will understand that it can be done.

100: waste plastic treatment system
10: Derailer
20: dissolution reactor
30: filter
40: metal detector
50: control unit

Claims (9)

A de-iron machine that removes metal contained in waste plastic and
A dissolution reactor that receives the waste plastic from which metal has been removed and a solvent and dissolves the waste plastic in the solvent
Waste plastic treatment system comprising a. The method according to claim 1, a metal detector for measuring whether or not the waste plastic supplied to the deiron contains metal, and
and a control unit for moving the waste plastic to the de-iron machine when the metal is detected by the metal detector. The method according to claim 1, wherein at least one of a melt in which the waste plastic is dissolved in the solvent, the waste plastic not dissolved in the solvent, and the solvent is supplied in the dissolution reactor, and foreign substances and dissolved substances included in the melt are supplied. Waste plastic treatment system further comprising a filter for removing any one or more of the waste plastics that have not been processed. The method according to claim 1, wherein the dissolution reactor includes a main body receiving and accommodating the solvent and the waste plastic, and a stirrer positioned in the main body to mix the solvent and the waste plastic and dissolve the waste plastic in the solvent by rotation. A waste plastic treatment system comprising: The waste plastic treatment system of claim 1, further comprising a grinder for pulverizing the waste plastic and discharging the waste plastic into powder form to the de-iron machine. removing metals contained in waste plastics; and
Preparing a melt by dissolving the waste plastic from which the metal is removed in a solvent
Waste plastic treatment method comprising a. The waste plastic treatment method according to claim 6, further comprising measuring whether or not the metal is included in the waste plastic. The waste plastic treatment method of claim 6, further comprising removing at least one of foreign substances included in the waste plastic not dissolved in the solvent and a lysate in which the waste plastic is dissolved in the solvent. The waste plastic treatment method according to claim 6, further comprising the step of producing waste plastic in powder form by crushing the waste plastic.

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