KR101546829B1 - Refinement device of tin having impurities - Google Patents

Abstract

The present invention relates to a device to refine tin containing impurities wherein high-grade tin can effectively be obtained by refining low-grade tin. According to the present invention, the device to refine tin containing impurities comprises: a cathode copper plate (40) connected to a cathode rod member (10′), and functioning as a cathode in an electrolyzing operation; an anode basket (30) connected to an anode rod member (10″) placed on a position separated from the cathode rod member (10′), and functioning as an anode in an electrolyzing operation; a rectifier (50) to apply an electric current of an anode to the anode basket (30), and applying the electric current of a cathode to the cathode copper plate (40); an anode cloth (60) installed to envelop the anode basket (30) and recover slime, composed of a chemical-resistant synthetic fiber; and a vertical movement means to force the anode rod member (10″) to vertically move such that the anode basket (30) can vertically move while being immersed in an electrolytic solution. According to the present invention, tin can easily be recovered.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a tin refining apparatus,

TECHNICAL FIELD The present invention relates to a tin refining apparatus containing an impurity, and more particularly, to a tin refining apparatus containing an impurity capable of effectively obtaining high-quality tin by refining low-grade tin.

In general, tin is widely used in various fields such as electronic materials, solder materials, and plating materials.

However, most of the tin used for the electronic material, the solder material and the like is required to have a durability of 99.95% or more.

Wet smelting and electro-smelting methods are also used to purify tin containing impurities after being used in industrial fields.

In the wet smelting method, it is difficult to reduce the amount of recovered tin due to the generation of a large amount of wastewater, and even if it is recovered using a reducing furnace or the like, it is difficult to pass the electrolytic smelting process in order to obtain the high-quality tin.

Examples of the impurities include lead, copper, zinc, iron, nickel, cadmium, antimony, silver and the like.

However, when lead is contained as an impurity, there is a problem that it is difficult to separate lead from the tin having an electrochemical property or melting point.

Patent No. 10-0926358

The present invention has been proposed in order to solve all of the above problems, and it is an object of the present invention to provide a tin refining apparatus containing refined tin to obtain high quality tin, and improving the electrolytic efficiency and recovery efficiency It has its purpose.

In order to accomplish the above object, the present invention provides an apparatus for purifying tin containing impurities, comprising: a negative copper plate (40) connected to a cathode rod member (10 ') and serving as a cathode in an electrolysis operation; A positive electrode basket 30 connected to the positive electrode rod member 10 "provided at a position spaced apart from the negative electrode rod member 10 'and serving as an anode in the electrolysis operation; A cathode current collector for applying a current to the cathode copper plate and applying a current to the anode copper plate and a cathode current collector for applying an electric current to the cathode copper plate; And a vertical moving means (60) for urging the anode bar member (10 ") to move up and down so that the anode basket (30) is moved up and down in a state of being deposited in the electrolyte .

The negative copper plate 40 is characterized in that it has been precipitated in a solution of 0.2 to 5 g / l of potassium dichromate.

The negative copper plate 40 includes an outer member 42 disposed on the outer side and an inner member 44 disposed on the inner side of the outer member 42 so as to be spaced apart from the outer member 42 .

The outer member 42 is made of stainless steel and the inner member 44 is made of a copper plate made of copper.

The electrolytic solution is characterized in that a solution containing 20 to 60 g / l of stannous sulfate in sulfuric acid is used.

According to the tin refining apparatus containing impurities according to the present invention, it is possible to refine low-grade tin to obtain high-quality tin, without generating a large amount of wastewater, do not need to reduce the recovered tin, The copper can be prevented from being mixed with the tin, the electrolytic efficiency can be increased, and the recovery efficiency can be increased.

Further, in the present invention, the anode copper plate is composed of an outer member provided on the outer side and an inner member provided on the inner side. The outer member is made of stainless steel, and the inner member 44 is made of a copper plate made of copper. Therefore, the outer member made of stainless steel material is adhered to and removed from the metal other than tin, thereby facilitating the electrodeposition of pure tin into the inner member.

In addition, in the present invention, the up-and-down moving means is provided so that the anode basket moves up and down in the state of being deposited in the electrolytic solution. Therefore, there is an advantage that the deterioration of current efficiency occurring in the electrolytic recovery process is prevented.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a perspective view showing a configuration of a first embodiment of a tin purification apparatus containing impurities according to the present invention. FIG.
FIG. 2 is a perspective view showing a configuration of a second embodiment of a tin purification apparatus containing impurities according to the present invention. FIG.

BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, the structure of a preferred embodiment of a tin purifying apparatus containing impurities according to the present invention will be described with reference to the accompanying drawings.

Fig. 1 is a perspective view showing the structure of a first embodiment of a tin purifying apparatus containing impurities according to the present invention.

As shown in the figure, the tin purification apparatus 100 containing impurities according to the present invention includes a rod member 10, a ring 20, a cathode basket 30, a cathode copper plate 40, A rectifier 50 and the like.

The rod members 10 are spaced apart from each other as shown in the figure, and are provided as a pair.

The ring part (20) has a hook shape to be caught by any one of the rod members (10).

The anode basket 30 is formed in a rectangular normal shape having an opening upward as shown in the figure, and an upper end thereof is engaged with the annular portion 20. The anode basket () is made of a titanium material and serves as an anode in an electrolytic operation.

The negative copper plate 40 is coupled to the other rod member 10 and functions as a cathode in the electrolytic operation.

The rectifier 50 applies a current of a positive polarity to the positive electrode basket 30 and applies a negative current to the negative copper plate 40.

On the other hand, it is preferable to use the anode copper plate 40 that has been precipitated in a solution of 0.2 to 5 g / l potassium dichromate. That is, the negative copper plate 40 is first precipitated in a solution of 0.2 to 5 g / l potassium dichromate before being used as a negative plate, and then used in an electrolytic bath (not shown) during electrolysis.

The reason why the anode copper plate 40 is precipitated in the solution of 0.2 to 5 g / l of potassium dichromate is that the metal (foreign matter) attached (electrodeposited) to the anode copper plate 40, which is a cathode plate, .

In addition, an anode bubble 60 is provided on the outside of the anode basket 30.

The anode bubble (60) has a basket shape in which the fluid passes and the impurities do not pass. That is, as shown in the drawing, the anode bubble 60 is formed in a rectangular normal shape having an open upper side like the anode basket 30, and has an inner volume larger than that of the anode basket 30. Therefore, the anode basket (30) is accommodated in the anode cloth (60).

The anode foil 60 is made of synthetic fibers having chemical resistance and is installed so as to surround the side and the lower side of the anode basket 30.

The tin purification apparatus 100 having the above-described structure and containing impurities according to the embodiment of the present invention is used as follows.

First, it is assumed that lead is 1,000 ppm or less as an impurity and other impurities are mixed.

Tin containing impurities is placed in the anode basket (30).

At this time, the advantage of the cathode basket 30 having a titanium material is that tin containing impurities can be introduced and electrolyzed regardless of the shape of the tin anode. If the annotation is used as it is, there is a drawback that it must be used as an anode by reusing the remained annotation.

On the other hand, the negative copper copper plate 40 according to the present embodiment can easily separate electrodeposited tin from the copper plate, and can prevent copper from being mixed into tin.

In addition, using the copper plate not only improves the electrolytic efficiency, but also tin is more electrodeposited on the copper plate than other metals, thereby improving the recovery efficiency.

When current is applied in this state, smelting is performed, and impurities other than tin are collected in the anode bubble 60, so that separation and removal are facilitated.

On the other hand, when the lead is 1,000 ppm or more as an impurity, the copper is dissolved first in the melting furnace, and then tin containing more than 1,000 ppm of lead is added to dissolve tin to form a copper alloy. However, lead is oxidized and separated into an upper layer, It is possible to separate and remove the lead by removing it and then to recover it as high-quality tin through the above-mentioned process.

On the other hand, when the electrolytic smelting operation is carried out, it is preferable to load the copper plate after current is applied to prevent the copper plate from being eroded by acid or alkali.

Fig. 2 is a perspective view showing the structure of another embodiment of the tin purifying apparatus containing impurities according to the present invention.

Hereinafter, the configuration of such another embodiment will be described. The configuration and operation which are the same as those of the first embodiment described above will be omitted, and a configuration and an operation different from those of the first embodiment will be described.

As shown in the figure, in the tin refining apparatus 100 according to the second embodiment, the rod members 10 ', 10' ', the annular portion 20, the anode basket 30, the anode copper plate 40, A rectifier 50 and the like.

The rod members 10 'and 10 "are formed as a pair and are disposed at positions spaced apart from each other by the cathode rod member 10' and the anode rod member 10"

The anode rod member 10 'is provided with a negative electrode copper plate 40 as shown in the figure, and the negative electrode copper plate 40 is composed of two or more plates. That is, the negative copper plate 40 includes an outer member 42 provided on the outer side, an inner member 44 provided on the inner side, and the like.

Specifically, the outer member 42 is formed to have a predetermined thickness, and is formed of a hollow rectangular flat plate.

The inner member 44 is spaced apart from the outer member 42 inside the outer member 42 and is formed of a flat plate having a smaller size than the outer member 42 as shown in FIG.

The upper end of the inner member 44 is connected to the outer member 42.

The outer member 42 is made of stainless steel and the inner member 44 is made of a copper plate made of copper.

The outer member 42 made of a stainless steel material serves to adsorb (deposit) impurities. That is, mainly metals other than tin are adhered and removed therefrom.

The inner member 44 is made of a copper plate so that the current efficiency is high and pure tin is easily electrodeposited.

The negative electrode copper plate 40 is made of the outer member 42 and the inner member 44 in order to facilitate the electrodeposition of pure tin into the inner member 44 as described above to be.

On the other hand, the up / down moving means () is further connected to the positive electrode rod member 10 ".

The up-and-down moving means serves to force the positive electrode rod member 10 "to move up and down, that is, includes power generating means such as a motor (not shown) Moves up and down along the vertical moving means so that the anode basket 30 moves up and down in a state of being deposited in the electrolyte as the anode rod member 10 "moves up and down.

As described above, the reason why the anode bar member 30 is moved up and down by moving the anode bar member 10 "by the up-and-down moving means () is to prevent the current efficiency from being lowered during the electrolytic recovery process .

The electrolytic solution used in this refining apparatus is a solution in which stannous sulfate is added to sulfuric acid. Here, it is preferable to add 20 to 60 g / l of stannous sulfate.

The anode foil 60 is made of PP material, acid-resistant or alkali-resistant fiber so as to have chemical resistance. That is, it is made of a material that can withstand the electrolytic solution. For example, when the electrolytic solution is made of an acidic solution, it is preferable that it is made of an acid-resistant material.

The anode bubble 60 has the purpose of removing the anode slime. That is, it is intended to facilitate the recovery of tin, valuable metal, and the like separated from the anode basket 30.

In the case of using the tablet apparatus having the above-described structure, the negative electrode copper plate 40 uses a cathode plate precipitated in a potassium dichromate solution first. As a result, the electrodeposited (recovered) metal on the anode copper plate 40, which is the cathode plate, is easily separated.

It is preferable that scrap (tin containing impurities) is first melted at 950 to 1100 占 폚 in a melting furnace and then used for metallization. That is, the scrap is first melted at a high temperature, and then the electrolytic solution is put into the anode basket 30 and electrolyzed.

The scope of the present invention is not limited to the above-described embodiments, and many other modifications based on the present invention will be possible to those skilled in the art within the scope of the present invention.

10, 10 ".
30. Anode basket 40. Negative electrode copper plate
50. Rectifier 60. Anode fo

Claims (5)

An anode copper plate 40 connected to the cathode rod member 10 'and serving as a cathode in the electrolysis operation;
A positive electrode basket 30 connected to the positive electrode rod member 10 '' provided at a position spaced apart from the negative electrode rod member 10 'and serving as an anode in the electrolysis operation;
A rectifier (50) for applying a current of a positive polarity to the positive electrode basket (30) and applying a negative current to the negative copper plate (40);
An anode foil 60 made of a synthetic fiber having a chemical resistance and installed to surround the anode basket 30 to recover a slime;
Up and down means for forcing the positive electrode bar member 10 "to move up and down so that the positive electrode basket 30 moves up and down in the state of being deposited in the electrolyte;
The negative copper plate (40)
And an inner member (44) provided so as to be spaced apart from the outer member (42) inside the outer member (42), characterized in that the outer member (42) Tin refining apparatus. The negative copper plate (40) according to claim 1, wherein the negative copper plate (40)
Wherein the precipitate has been precipitated in a solution of 0.2 to 5 g / l potassium dichromate. delete The method according to claim 1, wherein the outer member (42) is made of stainless steel and the inner member (44) is made of a copper plate. Tin refining apparatus. The tin refining apparatus according to any one of claims 1 to 4, wherein a solution containing 20 to 60 g / l of stannous sulfate in sulfuric acid is used as the electrolytic solution.

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