KR20150093399A - Waste chemical recovery equipment for the extraction of the resources of the wire - Google Patents

Abstract

Disclosed is a chemical recovery apparatus for extracting a resource of a waste wire. According to the present invention, the chemical recovery apparatus for extracting a resource of a waste wire comprises: a receptor where a jelly communication waste wire is contained; a reaction tank where the receptor is contained inside and sealed, and a solvent chemical is inserted to dissolve a jelly ingredient and a coating material ingredient of the waste wire; a heating portion for supplying a heat source to the reaction tank; a solution supply portion for supplying the solvent chemical to the reaction tank; a condensation portion for recovering, condensing, and liquefying solvent chemical steam which is produced in the reaction tank; and a recovery portion for transferring the solvent chemical, which is liquefied in the condensation portion, to the solution supply portion. Accordingly, only a copper wire is extracted by heating and dissolving the jelly communication waste wire in a dissolving tank, and only a solvent is extracted and recycled from the rest mixture solution, thereby reducing environmental pollution, and significantly reducing solvent costs.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a chemical recovery apparatus for extracting a waste wire,

More particularly, the present invention relates to a chemical recovery apparatus for extracting a copper wire from which a coating is removed by recycling a waste wire containing jelly, And a chemical recovery device for recovering the chemical.

In general, as the telecommunication industry has developed through industrial generators, telecommunication cables have been installed in large quantities in order to secure a pivotal backbone of the national industry. In recent years, however, optical communication cables have been installed and operated in accordance with the needs of advanced telecommunication industry and large- .

In addition, telecommunication companies' investment is focused mainly on optical cables, and copper wires are removed from existing copper (copper) cable ducts and replaced with optical cables in order to reduce the cost of pipeline construction required for optical cable installation. The problem of the processing of the.

However, since the price of metal raw material of copper is formed at a high price, there is a need for recycling of copper in the waste wire.

The jelly communication line, which has been mainly used in telecommunication lines, is wrapped with an aluminum foil inside the outer shell (polyester) in order to prevent defective communication or contact failure caused by water or other foreign substances entering the connection area. The jelly-like material is put between each copper fine wire to make the fine wires stick to each other. The shape of the jelly is composed of polystyrene resin, antioxidant, organic compound and other materials for synthetic oil, mineral oil and binder.

The jelly-waste communication line is processed by a machine (CHOPPING) (pretreatment, crushing, crushing, magnet sorting, non-gravity sorting, etc.), but the polystyrene type resin is added as a binder in the jelly component There is a problem that the jelly-waste communication line can not be crushed or crushed due to the adhesive force of the resin during the churning process.

As a conventional technique for recovering copper from a waste wire, Korean Patent No. 10-0283798 has proposed a device for separating and extracting a synthetic resin and a copper wire by melting and pulverizing the waste wire.

However, this apparatus only needs to recover the copper wire from the waste wire, and the chemical solvent used to dissolve the synthetic resin (PE) coated on the copper wire needs to be disposed of.

DISCLOSURE OF THE INVENTION The present invention has been conceived in order to solve the above problems of the prior art, and it is an object of the present invention to provide a method for recovering waste wires containing jelly by separating a mixed solution of a solvent and a coating material generated by heating and dissolving in a melting tank, And it is an object of the present invention to provide a chemical recovery device for resource extraction of a waste wire, which can reduce environmental pollution by recycling only a solvent and can greatly reduce a solvent cost.

It is an object of the present invention to provide a reaction tank in which a jelly communication wire is received, a reaction tank in which the receiver is housed and sealed, a solvent chemical is injected to dissolve the jelly component and the coating component of the wire, A heating unit for supplying a heat source to the reaction tank; A solution supply unit for supplying a solvent chemistry to the reaction tank; A condenser for collecting and liquefying the solvent chemical vapor generated in the reaction tank; And a recovery unit for transferring the liquefied solvent chemical in the condensing unit to the solution supply unit.

The heating unit includes an upper jacket formed on an outer circumferential surface of the reaction tank, a lower jacket formed below the outer circumferential surface of the reaction tank and communicating with the upper jacket, and a boiler for supplying a heat source to the upper jacket.

The boiler is connected to a heat source supply pipe connected to the upper jacket to supply a heat source, and a heat source recovery pipe connected to the lower jacket to recover heat-exchanged heat source.

Wherein the solution supply unit comprises: a solution storage tank in which a liquid solvent chemical is stored; A solution pump for pumping a liquid solvent chemistry of the solution reservoir and supplying it to the reaction tank; And a solution supply pipe having one end connected to the solution pump and the other end connected to a lid of the reaction tank to supply a solvent chemistry.

Wherein the condenser includes a steam recovery pipe connected at one end to a lid of the reaction tank to recover steam; A heat exchanger having a cooling coil connected to the other end of the steam recovery pipe and circulating the steam therein; And a cooling device for supplying a cooling medium to the heat exchanger to change the steam into a liquid phase.

The cooling device includes a blower including a motor and a fan, and a duct for supplying wind generated from the blower to the heat exchanger, so that the steam is cooled by the wind.

The recovery unit includes a solution recovery pipe connecting the condensing unit and the solution supply unit, and a solution recovery pump formed in the solution recovery pipe and pumping the solution.

According to the present invention, it is possible to reduce the environmental pollution and to reduce the solvent cost by extracting only the copper wire from the jelly communication waste wire by heating in the dissolution tank, extracting and recycling only the solvent from the remaining mixed solution.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a general view showing a chemical recovery apparatus for extracting a waste wire from a waste wire according to the present invention;
FIG. 2 is an exploded perspective view showing the 'reaction tank' in FIG. 1,
FIG. 3 is an enlarged cross-sectional view of the 'reaction tank' in FIG. 1; FIG.

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

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory and are intended to provide further explanation of the invention as claimed. It does not mean anything.

In addition, the sizes and shapes of the components shown in the drawings may be exaggerated for clarity and convenience of explanation, and the terms defined specifically in consideration of the configuration and operation of the present invention may vary depending on the intention or custom of the user, operator It should be noted that the definitions of these terms should be made on the basis of the contents throughout this specification.

1 is an exploded perspective view showing a 'reaction tank' in FIG. 1, and FIG. 3 is an exploded perspective view showing a chemical recovery apparatus for extracting resources from a waste wire according to the first embodiment of the present invention. This is an enlarged cross-sectional view of a "reaction tank".

1 to 3, a chemical recovery apparatus A for extracting a resource of a waste wire according to the present invention comprises a receiver 5 for receiving a jelly communication waste wire, A reaction tank (2) which is enclosed and in which the solvent chemical is injected to dissolve the jelly component and the coating component of the waste wire; A heating unit 4 for supplying a heat source to the reaction tank 2; A solution supply unit 6 for supplying a solvent chemical to the reaction tank 2; A condenser 8 for recovering and condensing the solvent chemical vapor produced in the reaction tank 2 and liquefying it; And a collecting part (10) for transferring the solvent chemical liquefied in the condensing part (8) to the solution supplying part (6).

The reaction tank 2 is formed with a space therein, an upper portion thereof is opened, a lid 3 is detachably coupled, a lower portion is formed in a conical shape, and an outlet 24 is formed And the solution discharge pipe 22 is connected to the discharge port 24.

A flange is formed on the outer peripheral edge of the upper end of the reaction tank 2 and a lid 3 is also provided with a flange corresponding thereto to cover the opening of the reaction tank 2 and then fasten the bolt to the flange, .

The lid 3 is composed of a shaft 34 mounted on the upper portion of the motor 32 and connected to the motor 32 to be inserted into the reaction tank 2, And is coupled to the receiver 5, and rotates the receiver 5 at a constant speed by rotation of the motor 32, so that the waste wires and the solvent are uniformly mixed.

Preferably, a speed reducer (not shown) is connected to the motor 32 so that the rotation speed can be decelerated appropriately.

The receptacle 5 is made of a mesh having a plurality of punched holes. The receptacle 5 is open at an upper portion, an annular rib 52 at an upper end, and a bottom plate at a lower portion. A perforation is also formed on the bottom plate.

The receptacle 5 can be fixed together with the bolt fastening by the annular rib 52 being in close contact with the flange of the lid 3 and interposed between the flanges of the reaction tank 2.

The heating unit 4 includes an upper jacket 42 formed at the upper part of the outer circumferential surface of the reaction tank 2, a lower jacket 44 formed at the lower part of the outer circumferential surface of the reaction tank 2 and communicating with the upper jacket 42, And a boiler (46) for supplying a heat source to the upper jacket (42).

The boiler 46 includes a heat source supply pipe 462 connected to the upper jacket 42 to supply a heat source, a heat source recovery pipe 464 connected to the lower jacket 44 to recover heat- The supply pipe 462 and the heat source return pipe 464 are connected to repeatedly supply and recover the heat source to and from the reaction tank 2.

The heat source is hot hot water and the temperature in the reaction tank is heated to at least 120 to 150 ° C.

By heating to this temperature range, the distillation point of the solvent chemistry can be reached and can be separated from the jelly solution (the melt of the PE which is the coating agent) with a higher distillation point.

The solution supply unit 6 includes a solution reservoir 62 in which a liquid solvent chemical is stored; A solution pump 64 for pumping a liquid solvent chemical in the solution reservoir 62 and supplying it to the reaction tank 2; And a solution supply pipe 66 having one end connected to the solution pump 64 and the other end connected to the lid 3 of the reaction tank 2 to supply a solvent chemical.

The solvent chemistry is intended to melt the jelly ingredients and the coating, which can be separated by distillation because the risk of handling is relatively low and the boiling point is lower than the jelly ingredient and the coating ingredient.

For example, C9 aromatics is used as the solvent chemical, and since the boiling point is 130 ° C, the boiling point of the jelly ingredient and the coating ingredient is about 220 ° C, so that the solvent chemical having a low boiling point due to the temperature difference is evaporated first.

The condensing portion 8 is for recovering and liquefying the solvent chemical heated in the reaction tank 2 in the vapor state and is connected to one end of the lid 3 of the reaction tank 2, A recovery pipe 82; A heat exchanger (84) connected to the other end of the steam recovery pipe (82) and having a cooling coil in which steam is circulated; And a cooling device 86 for supplying the cooling medium to the heat exchanger 84 to change the steam into a liquid phase.

The cooling device 86 includes a blower 862 composed of a motor and a fan and a cooler 864 that passes the cool air generated from the blower 862 to the heat exchanger 84 through a duct 864, The steam is allowed to cool, resulting in a phase change to a liquid solvent chemical.

The recovery unit 10 is for recovering the liquefied solvent chemical and supplying it to the solution supply unit 6, and includes a solution recovery pipe 102 connecting the condensation unit 8 and the solution supply unit 6; And a solution recovery pump 104 formed in the solution recovery pipe 102 for pumping.

The recovered solvent chemical is stored in the solution reservoir 62 and then transferred to the reaction tank 2 again by driving the solution pump 64 and reused as a solvent.

Hereinafter, the operation of the present invention will be described.

The lid 3 is inserted into the reactor 5 and then the lid 3 with the receiver 5 is inserted into the reaction tank 2 and the lid 3 is inserted into the reaction tank 2 Tighten it.

Thereafter, the solution pump 64 is driven to inject the solvent chemical into the reaction tank 2.

The boiler 46 is operated to cause the heat source to circulate to the lower jacket 44 via the upper jacket 42 so that the reaction tank 2 is heated to an appropriate temperature.

Thereafter, the motor 32 is driven to rotate the receiver 5 at a constant speed, and the stirring mode alternates between continuous and intermittent modes.

After stirring for a certain period of time in a heated state, the jelly and the coating agent are sufficiently dissolved by the solvent chemical so that a mixed solution is produced.

During the heating and dissolving process, the solvent is evaporated and changed into a gaseous state, and the solvent is recovered to the condenser 8 through the vapor recovery tube 82, and then the solvent is phase-changed into a liquid phase and recovered to the solution reservoir 62.

Hin? After the dissolution is sufficiently completed, the lower outlet 24 of the reaction tank 2 is opened to discharge the mixed solution into the solution discharge pipe 22.

The mixed solution discharged to the solution discharge pipe 22 is recovered to the separator 9 by the drive of the pump 92 and the viscous solution is separated into the low viscosity solution and the low viscosity solution in the separator 9, And is returned to the tank 2.

Since the low-viscosity solution contains a large amount of solvent chemical components, it is re-refined to serve as a solvent, thereby reducing the amount of solvent used.

Although the present invention has been described in connection with the above-mentioned preferred embodiments, it will be apparent to those skilled in the art that various modifications and variations can be made without departing from the spirit and scope of the invention, It is obvious that the claims fall within the scope of the claims.

2 ; Reaction tank 3; Lid
4: Heating part 5: Receptor
6: solution supply part 8:
9; Separator 10:
22: solution discharge pipe 24:
42: upper jacket 44: lower jacket
46: boiler 62; Solution reservoir
64; Solution pump 66: solution supply pipe
82: steam recovery pipe 84: heat exchanger
86: cooling device 102; Solution recovery pipe
104: solution recovery pump

Claims (11)

A reaction tank for receiving the jelly communication wire, a receptacle for receiving the jelly communication wire and sealing the jelly communication wire, a solvent tank for dissolving the jelly component and the coating component of the wire,
A heating unit for supplying a heat source to the reaction tank;
A solution supply unit for supplying a solvent chemistry to the reaction tank;
A condenser for collecting and liquefying the solvent chemical vapor generated in the reaction tank;
A recovery unit for transferring the liquefied solvent chemical in the condenser to the solution supply unit;
And a chemical recovery device for extracting resources from the waste wire. The method according to claim 1,
The heating unit
An upper jacket formed on an outer peripheral surface of the reaction tank,
A lower jacket formed below the outer circumferential surface of the reaction tank and communicating with the upper jacket,
A boiler for supplying a heat source to the upper jacket
And a chemical recovery device for extracting resources from the waste wire. 3. The method of claim 2,
Wherein the boiler is connected to a heat source supply pipe connected to the upper jacket to supply a heat source, and a heat source recovery pipe connected to the lower jacket to recover heat-exchanged heat source. The method according to claim 1,
The solution supply part
A solution reservoir in which a liquid solvent chemical is stored;
A solution pump for pumping a liquid solvent chemistry of the solution reservoir and supplying it to the reaction tank;
A solution supply pipe having one end connected to the solution pump and the other end connected to a reaction tank to supply a solvent chemical;
And a chemical recovery device for extracting resources from the waste wire. The method according to claim 1,
The condenser
A steam recovery pipe connected at one end to the reaction tank to recover steam;
A heat exchanger having a cooling coil connected to the other end of the steam recovery pipe and circulating the steam therein;
A cooling device for supplying a cooling medium to the heat exchanger to change the steam into a liquid phase;
And a chemical recovery device for extracting resources from the waste wire. 6. The method of claim 5,
Wherein the cooling device comprises a blower including a motor and a fan and a duct for supplying wind generated from the blower to the heat exchanger so that the steam is cooled by the wind. The method according to claim 1,
The collecting unit
A solution collecting pipe connecting the condensing part and the solution supplying part;
A solution recovery pump formed in the solution recovery pipe and pumping the solution;
And a chemical recovery device for extracting resources from the waste wire. The method according to claim 1,
The reaction tank
A liquid discharge tube is connected to the discharge port, and a liquid discharge pipe is connected to the discharge port,
Wherein a flange is formed on the outer circumference at an upper end of the upper end of the reaction tank and a flange is formed on the lid so that the lid is covered with the opening of the reaction tank and then the bolt is fastened to each flange, A chemical recovery device for extraction. 9. The method of claim 8,
Wherein the lid includes a shaft mounted on an upper portion of the motor and inserted into the reaction tank by being connected to the motor,
The lower end of the shaft is coupled to a receptor,
And the receiver is rotated by the rotation of the motor. 10. The method of claim 9,
The receptacle is made of a mesh having a plurality of punched holes, an upper portion is open, an annular rib is formed at an upper portion, and a bottom plate is formed at a lower portion.
Wherein the receptacle is fixed to an annular rib in close contact with the flange of the lid and is interposed between the flanges of the reaction tank and fixed together with the bolt fastening. 9. The method of claim 8,
And a separator for recovering the mixed solution discharged to the solution discharge pipe,
And a part of the solution separated in the separator is recovered to the reaction tank.

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