KR101618033B1 - Equipment for drying sludge block - Google Patents

Abstract

The present invention provides a sludge drying facility for copper extraction. The copper sludge drying equipment comprises: a main body; A drying agitator installed in the main body to transfer and agitate sludge containing moisture supplied from the outside; A heat supply unit for transferring heat through direct contact with the sludge providing heat to the drying agitator and drying the heat; A hot air supply unit for supplying hot air having a predetermined heating temperature to the sludge; A sludge supply unit installed at one side of the main body and supplying the sludge to the inside of the main body; And a sludge discharging unit installed on the other side of the main body and discharging the dried sludge to the outside.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an apparatus for drying copper sludge,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a sludge drying facility for extracting copper, and more particularly, to a sludge drying facility for extracting copper capable of simultaneously performing stirring, crushing and drying without using a separate mill .

Generally, various wastes are generated in homes and industrial sites. Particularly, in an industrial field where a waste circuit board is manufactured, copper is contained in the waste liquid in the process liquid used in the etching process for producing the substrate.

Such wastes can be present in the form of sludge, which is carried in large quantities to extract copper through a number of unit processes.

That is, the sludge is conveyed, the sludge conveyed is dried naturally, or the drying process is performed to reduce moisture through a screw method or a stirring method.

Subsequently, additives such as dried sludge, non-dried sludge and lime are added and mixed.

The sludge thus blended is again subjected to a drying step and then to a melting furnace, where copper is extracted.

However, conventionally, the sludge containing moisture is stirred separately, and the sludge conveyed while stirring is exposed to hot air and discharged to the outside.

When the process is carried out in this manner, hot air is directly discharged to the atmosphere, the contact area with the sludge becomes smaller, and the contact time becomes shorter. Therefore, the drying rate of moisture included in the sludge is lowered, The sludge is not properly separated from the inside of the equipment. So that the pulverization process and the compounding process must be further performed after drying.

A prior art related to the present invention is Korean Registered Patent Registration No. 10-1327513 (registered on Apr. 31, 2013).

It is an object of the present invention to provide a sludge conveying apparatus and a sludge conveying apparatus which are capable of supplying hot air to a sludge conveyed while stirring without using a separate crushing equipment, The present invention relates to a sludge drying apparatus for extracting copper, which is capable of completing a process from pulverization and mixing by friction between particles in a drying process, thereby improving the drying efficiency by minimizing the amount of heat radiated to the outside, will be.

In a preferred embodiment, the present invention provides a sludge drying plant for copper extraction.

The copper sludge drying equipment comprises: a main body; A drying agitator installed in the main body to transfer and agitate sludge containing moisture supplied from the outside; A heat supply unit for transferring heat through direct contact with the sludge providing heat to the drying agitator and drying the heat; A hot air supply unit for supplying hot air having a predetermined heating temperature to the sludge; A sludge supply unit installed at one side of the main body and supplying the sludge to the inside of the main body; And a sludge discharging unit installed on the other side of the main body and discharging the dried sludge to the outside.

The drying agitator includes a rotating shaft provided inside the main body and having both ends rotatable, a stirrer having a screw blade for spirally conveying and stirring the sludge along the rotating shaft, It is preferable to provide a heating medium feeder for feeding the heat medium to be circulated.

Preferably, the rotary shaft is formed with a heat medium circulation passage through which the heat medium is circulated.

The heating medium supply device includes a heating medium supply unit for supplying the heating medium, a circulation pipe connected to one side and the other side of the heating medium circulation channel for circulating the heating medium supplied from the heating medium supply unit, a heater for heating the heating medium, And a controller for controlling the driving.

Preferably, the stirrer is provided with a temperature sensor for measuring the temperature of the stirrer, and the controller controls the driving of the heater so that the measured temperature reaches the predetermined drying temperature.

The heat medium circulation flow path is preferably formed inside the rotation shaft and the screw blade.

Preferably, the main body part stops the driving of the sludge supply part and the sludge discharge part when the water content of the sludge dried in the main body part is measured and the moisture content is less than or equal to a preset reference water content.

And the driving of the drying agitator, the heat supplier, and the hot air supply unit are continuously driven.

And a drying monitoring unit for driving the sludge conveying direction so that the direction of the sludge is sequentially crossed in the drying agitating unit.

The present invention provides a sludge containing moisture by using hot air in a sludge conveyed while stirring without using a separate mill and providing a heat source inside the blade itself stirring the sludge so as to further heat So that the drying efficiency can be improved.

FIG. 1 is a view showing the overall structure of a copper sludge drying facility of the present invention.
FIG. 2 is a photograph showing a configuration in which the stirring part is exposed to the outside through the opening of the main body part.
3 is a view showing a stirring and drying unit according to the present invention.
4 is a view showing a heat medium circulation channel formed in the stirrer according to the present invention.
5 is a view showing a connection relationship between a circulation pipe and a rotation axis according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a copper sludge drying facility of the present invention will be described with reference to the accompanying drawings.

FIG. 1 is a view showing the overall structure of a sludge drying apparatus for extracting copper of the present invention, FIG. 2 is a photograph showing a configuration in which the agitating unit is exposed to the outside through an opening of a main body, FIG. 3 is a cross- FIG. 4 is a view showing a heat medium circulation channel formed in an agitator according to the present invention, and FIG. 5 is a view showing a connection relationship between a circulation pipe and a rotary shaft according to the present invention.

1 to 5, the copper sludge drying equipment of the present invention includes a main body 100, a sludge supply unit 120 installed in the main body 100, (300) for transferring and drying heat through direct contact with the sludge that provides heat to the drying agitator (200), and a heat exchanger A hot air supply unit 400 for supplying hot air having a predetermined heating temperature to the hot air supply unit 400 for hot air drying the sludge to supply the sludge to the inside of the main unit 100 And a sludge discharging unit 600 installed on the other side of the main body 100 and discharging the dried sludge to the outside.

The drying agitator 200 includes a rotating shaft 211 installed inside the main body 100 and having both ends rotatably installed and a syringe having a spiral shape along the rotating shaft 211 to transfer and agitate the sludge A stirrer 210 having a screw blade 212 for rotating the rotary shaft 211 and a rotary 220 for rotating the rotary shaft 211.

The rotator 220 is driven under the control of a controller 340 described below.

As the rotary shaft 211 rotates, the sludge to be introduced is conveyed along the other side of the main body 100 by the rotating screw blade 212.

On the other hand, a heat medium circulation channel (a) through which the heat medium circulates is formed in the rotary shaft (211).

The heat medium circulation channel a may be formed inside the rotary shaft 211 or the screw blade 212,

The heat supply unit 300 includes a heating medium supply unit 310 for supplying the heating medium and a heating medium supply unit 310 connected to one side and the other side of the heating medium circulation channel a to circulate the heating medium supplied from the heating medium supply unit 310 A circulation pipe 320, a heater 330 for heating the heating medium, and a controller 340 for controlling the driving of the heater 330.

A bearing (b) is provided at both ends of the rotating shaft (211). The bearing (b) guides the rotation of the rotation shaft (211).

Both ends of the heat medium circulation passage (a) are connected to the hollow of the bearing (b) which guides rotation of the rotary shaft (211).

Although not shown, both ends of the heat medium circulation passage (a) may be provided with a bearing type airtight member between the hollows of the bearing (b).

The circulation pipe at both sides of the rotary shaft 211 is connected to the hollow of the bearing b.

It is preferable that the heating medium uses an oil liquid.

Therefore, the heating medium such as oil flows and circulates along the heating medium circulating flow path (a) by the heating medium feeder (310).

Since the heating medium forms a certain heating temperature by the heater 330, the heating medium heats the rotating shaft 211 and the screw blade 212 itself formed of metal.

Therefore, the sludge conveyed and agitated in contact with the rotating shaft 211 and the screw blade 212 to be rotated can be brought into direct contact with the heated rotating shaft 211 and the screw blade 212, Can be increased.

The drying agitator 210 is provided with a temperature sensor (not shown) for measuring the temperature of the drying agitator 210, and the controller 340 controls the drying agitator 210 so that the measured temperature reaches the predetermined drying temperature The driving of the heater 330 may be controlled.

On the other hand, the main body 100 according to the present invention may further include a drying monitoring unit (not shown).

The drying monitoring unit includes a moisture measurement sensor (not shown).

The moisture sensor may be installed at a plurality of positions in the main body 100.

Therefore, the moisture sensor measures the moisture contained in the sludge that is directly dried while being heated and stirred and stirred.

The measured moisture is transmitted to the controller 340.

The controller 340 stops driving the sludge supplying unit 500 and the sludge discharging unit 600 when the measured water amount is less than a preset reference water amount.

At the same time, the controller 340 continuously drives the drying agitator 200, the heat supplier 300, and the hot air supplier 400.

That is, in the drying agitator 200, the conveying direction of the sludge is sequentially driven so as to cross the direction.

For example, the controller 340 cross-rotates the rotating direction of the rotating shaft 211 in the forward and reverse directions by using the rotating unit 220 so that the sludge introduced into the body unit 100 is heated by the hot air and the heated stirrer 210, Thereby increasing the time in which heat is supplied.

According to the above-described structure and operation, in the embodiment of the present invention, the sludge containing moisture is supplied to the sludge conveyed while stirring without using a separate mill, and the hot air is supplied to the sludge stirring itself, To a sludge drying facility for copper extraction, which is capable of improving the drying efficiency by additionally applying heat by physical contact.

As described above, the concrete embodiment of the sludge drying apparatus for extracting copper according to the present invention has been described, but it is apparent that various modifications are possible within the scope of the present invention.

Therefore, the scope of the present invention should not be limited to the above-described embodiments, but should be determined by the scope of the appended claims and equivalents thereof.

It is to be understood that the foregoing embodiments are illustrative and not restrictive in all respects and that the scope of the present invention is indicated by the appended claims rather than the foregoing description, It is intended that all changes and modifications derived from the equivalent concept be included within the scope of the present invention.

100:
200: dry stirring part
300:
400: Hot air supply
500: sludge supply unit
600: sludge discharge portion

Claims (5)

A body portion;
A drying agitator installed in the main body to transfer and agitate sludge containing moisture supplied from outside;
A heat supplier for transferring heat through direct contact with the sludge providing heat to the drying agitator to dry the sludge;
A hot air supplier for supplying hot air having a predetermined heating temperature to the sludge by hot air drying;
A sludge supply unit installed at one side of the main body and supplying the sludge to the inside of the main body; And
And a sludge discharging unit installed on the other side of the main body and discharging the sludge to be dried to the outside,
The drying agitator may include:
A stirrer provided inside the main body and having a rotating shaft rotatably installed at both ends thereof and a screw blade for conveying and stirring the sludge in a spiral shape along the rotating shaft;
And a rotator for rotating the rotary shaft,
A heat medium circulation flow path in which a heat medium to be connected to each other is circulated is formed in the rotary shaft and the screw blade,
Wherein the heat medium circulation flow path formed inside the rotary shaft is formed along the longitudinal direction of the rotary shaft,
The heating medium is an oil,
The oil flows along a heat medium circulation channel formed inside the rotary shaft and flows into a heat medium circulation channel formed inside the screw blade,
The heat supply unit may include:
A heating medium feeder for feeding the heating medium;
A circulation pipe connected to one side and the other side of the heat medium circulation channel for circulating a heat medium supplied from the heat medium supply device,
A heater for heating the heating medium,
And a controller for controlling driving of the heater,
The stirrer is provided with a temperature sensor for measuring the temperature of the stirrer,
Wherein the controller controls driving of the heater so that the measured temperature reaches a predetermined drying temperature,
The main body part is provided with a drying monitoring part,
The drying monitoring unit,
And a control unit for controlling the amount of water contained in the sludge that is directly dried while being transferred and stirred and transferred to the controller,
The controller stops the operation of the sludge supply unit and the sludge discharge unit and continuously drives the dry stirring unit, the heat supply unit, and the hot air supply unit when the measured moisture amount is less than a predetermined reference moisture amount Control,
Wherein the drying agitator drives the sludge conveying direction so that the direction of the sludge is sequentially crossed,
The controller uses the rotating machine to cross-rotate the rotation direction of the rotary shaft along the forward and reverse directions to increase the time of supplying hot air and heated heat in contact with the heated sludge, Sludge drying equipment for copper extraction. delete delete delete delete

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