KR101727119B1 - The precious metals recovery apparatus of rotating disc type to be equipped double electrodes - Google Patents

Abstract

The present invention relates to a noble metal recovery device for preventing the noble metal from being melted in a noble metal recovery cask. The noble metal recovery device includes a power supply part supplying power to the positive electrode and the negative electrode respectively to the positive and negative electrodes connected to the positive and negative terminals, The upper cap and the lower cap are coupled to each other, an inlet pipe and a discharge pipe through which a solution containing a noble metal is introduced and discharged are formed at the lower portion of the side wall and the upper portion of the side wall, A cylindrical anode body connected to the cathode terminal and made of metal and having a mesh-like cylindrical body to which power of an anode is supplied from a power supply unit, and a cylindrical anode body disposed inside the cylindrical anode body and connected to a cathode terminal A connection part made of a metal material to which a negative power is supplied from the power supply part, and a cylindrical sound-receiving part made of a mesh- A circulation pump for circulating the solution from the solution tank to the solution tank via the noble metal recovery column, a circulation pump for circulating the solution from the solution tank to the solution tank, A solenoid valve which is fixedly connected to the power supply unit and is connected to the power supply unit and is driven by power from the power supply unit and has an intake pipe and an exhaust pipe; and a solenoid valve which is connected to the exhaust pipe of the solenoid valve, And an air tube connected to a nozzle member mounted on an upper cap of the noble metal recovery cylinder.
Therefore, it is a very useful invention to prevent the noble metal adhered to the negative electrode in the noble metal recovery cylinder from being melted by the solution present in the noble metal recovery cylinder when the operation of the noble metal recovery device is stopped.

Description

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

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a noble metal recovery device, and more particularly, to a noble metal recovery device that prevents a noble metal adhered to a negative electrode in a recovery device of a noble metal from being melted by a solution existing in a noble metal recovery device, .

Since the noble metal peeling liquid, plating waste water and wash water generated in processes such as plating contain a large amount of noble metal according to the process, it is very important to recover such noble metals in order to save resources or to prevent contamination by heavy metal- As an example, methods for recovering such noble metals have been proposed, such as an ion exchange resin method, a metal substitution method, and an electrolysis method.

Among them, the principle of electrolysis is electrolysis of noble metal-containing solution to recover noble metal. Electrode is supplied from a power source in a cathode, and electrochemical reduction reaction in which a solution diffuses a cation to an electrode surface, And is connected to a tank in which a circulation pump is connected to the electrolytic bath and a noble metal-containing solution is contained.

However, when the operation of the conventional precious metal recovering apparatus operated by the electrolysis method suddenly occurs when the power is turned off and the power is turned off or the content of the precious metal is small and the timer is operated for a certain period of time, The noble metal recovery device stops operating when the power is turned off at the time of leaving the work. At this time, in the noble metal recovery bottle, the noble metal adhered to the negative electrode by the operation of the noble metal recovery device is melted by the noble metal- Lt; / RTI >

Therefore, in the case of the noble metal recovery device whose operation is controlled by the timer, the work stop time, which is suddenly turned off during the operation of the noble metal recovery device as described above, the solution remaining in the noble metal recovery bottle is removed, A device for preventing the adhered noble metal from melting is desperately required.

Korean Utility Model Registration No. 20-0448283, March 30, 2010 Announcement

SUMMARY OF THE INVENTION It is an object of the present invention to provide a noble metal recovery device capable of preventing a noble metal adhering to a negative electrode in a noble metal recovery container from being melted by a solution existing in a noble metal recovery container when the operation of the noble metal recovery device is stopped And to provide a noble metal recovering device for preventing the noble metal from being recovered.

In order to accomplish the above object, a noble metal recovery device according to the present invention includes a power supply unit for supplying power of an anode and a cathode to cathode lines connected to a cathode line and a cathode line connected to a cathode terminal, A cap and a lower cap are fastened to each other, an inlet pipe and a discharge pipe through which a solution containing a noble metal is introduced and discharged are formed at the lower portion of the side wall and the upper portion of the side wall, A cylindrical anode body connected to the cathode terminal and made of metal and having a mesh-like cylindrical body to which power of an anode is supplied from a power supply unit, and a cylindrical anode body disposed inside the cylindrical anode body, A connection part made of a metal material to which a negative power is supplied from the power supply part, and a cylindrical negative electrode body made of a mesh- A circulation pump for circulating the solution from the solution tank to the solution tank via the noble metal recovery column, a circulation pump for circulating the solution from the solution tank through the noble metal recovery column, A solenoid valve that is fixedly connected to the power supply unit and is connected to the power supply unit and is driven by power from the power supply unit and has an intake pipe and an exhaust pipe; And an air tube connected to a nozzle member mounted on the upper cap of the precious metal recovery cylinder.

As described above, in the noble metal recovery apparatus according to the present invention, when the operation of the noble metal recovery apparatus is stopped, the noble metal adhered to the negative electrode body in the noble metal recovery tube is discharged by the solution present in the noble metal recovery tube It is a very useful invention that can prevent it from melting.

1 is a cross-sectional view showing a noble metal recovery device in which a noble metal recovery vessel is prevented from melting in accordance with a first embodiment of the present invention;
FIG. 2 is a cross-sectional view showing a noble metal recovery device in which a noble metal recovery vessel is prevented from melting in accordance with a second embodiment of the present invention. FIG.

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

1 is a cross-sectional view showing a noble metal recovery device in a noble metal recovery bin according to a first embodiment of the present invention.

1, a noble metal recovery device for preventing melting in a noble metal recovery vessel of the present invention includes a power supply unit 100, a noble metal recovery cylinder 200, a cylindrical anode body 300, a cylindrical anode body 400, (500), a circulation pump (600), a circulation pipe (700), and a solenoid valve (800).

The power supply unit 100 supplies power of positive and negative electrodes to a cathode line 120 connected to a cathode terminal 110 and a cathode line 140 connected to an anode terminal 130, .

The noble metal recovery cylinder 200 has a closed structure in which an upper cap 210 and a lower cap 220 which are respectively openable and closable are opened and closed respectively. And an anode terminal 110 and an anode terminal 130 are mounted on the upper cap 210. The anode terminal 110 and the anode terminal 130 are formed on the upper cap 210. [

The cylindrical anode body 300 is formed of a metallic connection part 310 connected to the cathode terminal 110 and supplied with power from the power supply part 100 and a cylindrical mesh body.

Particularly, the cylindrical anode body 300 is made of a metallic material of titanium (Ti) or titanium (Ti) coated with platinum (Pt) or iridium (Ir).

The cylindrical anode body 400 is connected to the anode terminal 130 and is connected to the connection part 410 of the metallic material through which the cathode power is supplied from the power supply part 100, mesh-shaped cylindrical net.

The positions of the cylindrical anode body 300 and the cylindrical cathode body 400 can be changed.

That is, the cylindrical anode body 300 may be located on the inner side and the cylindrical anode body 400 may be located on the outer side of the cylindrical anode body 300.

The solution tank 500 is a chamber for receiving a solution containing a noble metal and circulating the solution from the solution tank 500 to the solution tank 500 via the noble metal recovery bottle 200 A pump 600 and a circulation pipe 700 connecting the noble metal recovery bin 200 with the solution tank 500 and the circulation pump 600 are included in the construction of the present invention.

In particular, the circulation pump 600 should be positioned below the solution tank 500 because the noble metal-containing solution in the noble metal recovery cylinder 200 flows in the reverse direction, flows into the solution tank 500 again, The circulating pump 600 located at the lower end of the solution tank 500 is filled with the noble metal-containing solution without escaping, so that the noble metal-containing solution can be restarted.

A noble metal recovery device for preventing the noble metal from melting in a noble metal recovery bin according to the first embodiment of the present invention includes a solenoid valve 800 fixedly connected to the power supply unit 100, And is driven.

The solenoid valve 800 is a two-way solenoid valve having a pipe connection port at one inlet and one outlet, respectively, and an intake pipe (not shown) and an exhaust pipe 820 are formed at both sides thereof. The exhaust pipe 820 of the solenoid valve 800 and the nozzle member 830 mounted on the upper cap 210 of the noble metal recovery bin 200 are connected to each other by an air tube 840.

Particularly, the solenoid valve 800 used in the first embodiment of the present invention is a solenoid valve of a normally open construction that is opened when electricity is not flowing and then closed when electricity passes, The air pipe 840 connected to the exhaust pipe 820 is closed when the noble metal recovery bin 200 is operated because the power is connected to the noble metal recovery bin 200. [

Therefore, the noble metal recovery apparatus in which the noble metal recovery vessel is prevented from melting in accordance with the first embodiment of the present invention is operated as follows.

The noble metal-containing solution is supplied from the solution tank 500 to the noble metal recovery cylinder 200 by the circulation pump 600 and the noble metal is supplied from the noble metal recovery cylinder 200 to the cylindrical negative electrode The noble metal-containing solution is discharged to the solution tank 500 through the discharge pipe 240 formed in the upper part of the sidewall of the noble metal recovery bottle 200, and then flows into the solution tank 500 through the circulation pump 600, And is circulated while being introduced into the recovery cylinder 200. At this time, since the solenoid valve 800 is closed, the noble metal-containing solution is not discharged through the air tube 840 of the nozzle member 830 mounted on the upper cap 210.

On the other hand, when the operation of the precious metal recovery device is suddenly turned off and the power is turned off or the precious metal content is low, the timer operates for a certain period of time, The noble metal recovery device will stop operating when you turn it off and on.

Since the solenoid valve used in the present invention is a solenoid valve of a normally open construction, a nozzle member (not shown) connected to the exhaust pipe 820 by an intake pipe (not shown) and an exhaust pipe 820 and the air pipe 840 830 are opened, so that outside air is introduced into the precious metal recovery cylinder 200 through the intake pipe (not shown).

Therefore, since the pressure in the noble metal recovery cylinder 200 is lower than the external pressure, the outside air is continuously introduced, and the noble metal-containing solution in the noble metal recovery cylinder 200 flows into the solution tank 500 through the circulation pump 600. At this time, as described above, the circulation pump 600 is necessarily located at the lower end of the solution tank 500, so that even if the noble metal-containing solution in the noble metal recovery cylinder 200 escapes and flows into the solution tank 500, The solution containing the noble metal remains.

At this time, when the power is supplied, the circulation pump 600 is operated again, the solution containing the noble metal in the solution tank 500 flows into the noble metal recovery cylinder 200, and the noble metal is attached again to the cylindrical negative electrode 400 to which power is supplied do. Since the solenoid valve 800 is closed because the power is supplied, external air can not flow into the noble metal recovery cylinder 200.
That is, the solution in the noble metal recovery cylinder is not discharged through the solenoid valve but the outside air is introduced through the solenoid valve, so that the solution in the noble metal recovery bottle flows into the solution tank 500.
1, the noble metal recovery cylinder 200 is a closed structure in which the upper cap 210 and the lower cap 220 are fastened to each other. As long as no air flows from the outside, It is not discharged.

Therefore, the noble metal-containing solution remaining in the noble metal recovery bin 200 escapes into the solution tank even in the case of a power failure or forcibly turning off the power owing to such operation, whereby the noble metal adhered to the cylindrical negative electrode 400 is dissolved in the noble metal- So that the noble metal attached to the cylindrical anode body 400 can be preserved by the operation of the precious metal recovery device before the power failure, which is an economical and very useful invention.

FIG. 2 is a sectional view showing a noble metal recovery apparatus in which a noble metal recovery bin according to a second embodiment of the present invention is prevented from melting.

2, the noble metal recovery apparatus of the present invention includes a power supply unit 100, a noble metal recovery cylinder 200, a cylindrical anode body 300, a cylindrical anode body 400, A circulation pump 600, a circulation pipe 700, and a check valve 900.

The power supply unit 100 supplies power of positive and negative electrodes to a cathode line 120 connected to a cathode terminal 110 and a cathode line 140 connected to an anode terminal 130, .

The noble metal recovery cylinder 200 has a closed structure in which an upper cap 210 and a lower cap 220 which are respectively openable and closable are opened and closed respectively. And an anode terminal 110 and an anode terminal 130 are mounted on the upper cap 210. The anode terminal 110 and the anode terminal 130 are formed on the upper cap 210. [

The cylindrical anode body 300 is formed of a metallic connection part 310 connected to the cathode terminal 110 and supplied with power from the power supply part 100 and a cylindrical mesh body.

Particularly, the cylindrical anode body 300 is made of a metallic material of titanium (Ti) or titanium (Ti) coated with platinum (Pt) or iridium (Ir).

The cylindrical anode body 400 is connected to the anode terminal 130 and is connected to the connection part 410 of the metallic material through which the cathode power is supplied from the power supply part 100, mesh-shaped cylindrical net.

The positions of the cylindrical anode body 300 and the cylindrical cathode body 400 can be changed.

That is, the cylindrical anode body 300 may be located on the inner side and the cylindrical anode body 400 may be located on the outer side of the cylindrical anode body 300.

The solution tank 500 is a chamber for receiving a solution containing a noble metal and circulating the solution from the solution tank 500 to the solution tank 500 via the noble metal recovery bottle 200 A pump 600 and a circulation pipe 700 connecting the noble metal recovery bin 200 with the solution tank 500 and the circulation pump 600 are included in the construction of the present invention.

In particular, the circulation pump 600 should be positioned below the solution tank 500 because the noble metal-containing solution in the noble metal recovery cylinder 200 flows in the reverse direction, flows into the solution tank 500 again, The circulating pump 600 located at the lower end of the solution tank 500 is filled with the noble metal-containing solution without escaping, so that it can be restarted.

In addition, a check valve 900 is fixed to the power supply unit 100 in the noble metal recovery apparatus in which the noble metal recovery vessel is prevented from melting in the second embodiment of the present invention.

The check valve 900 has an intake nozzle (not shown) at its lower end and an exhaust nozzle 920 at its upper end. The exhaust nozzle 920 of the check valve 900 and the nozzle member 930 mounted on the upper cap 210 of the noble metal recovery bin 200 are connected to each other by an air tube 940.

Therefore, the operation of the noble metal recovery apparatus in which the noble metal recovery vessel is prevented from melting according to the second embodiment of the present invention is as follows.

The noble metal-containing solution is supplied from the solution tank 500 to the noble metal recovery cylinder 200 by the circulation pump 600 and the noble metal is supplied from the noble metal recovery cylinder 200 to the cylindrical negative electrode The noble metal-containing solution is discharged to the solution tank 500 through the discharge pipe 240 formed in the upper part of the sidewall of the noble metal recovery bottle 200, and then flows into the solution tank 500 through the circulation pump 600, And is circulated while being introduced into the recovery cylinder 200. At this time, the check valve 900 is closed because there is no substance flowing into the intake nozzle (not shown), and the check valve 900 is connected to the air tube (not shown) of the nozzle member 930 940), the noble metal-containing solution is not discharged.

On the other hand, when the operation of the precious metal recovery device is suddenly turned off and the power is turned off or the precious metal content is low, the timer operates for a certain period of time, The noble metal recovery device will stop operating when you turn it off and on.

Here, the check valve used in the second embodiment of the present invention is a one-way valve that does not have a fluid to be introduced into an intake nozzle (not shown), but an air tube 940 is connected to the exhaust nozzle 920, Since the combined nozzle member 930 is mounted on the upper cap 210 of the noble metal recovery cylinder 200, the pressure in the noble metal recovery cylinder 200 is increased by the load of the noble metal-containing solution filled in the noble metal recovery cylinder 200 The gas outside the noble metal recovery cylinder 200 having a relatively low pressure flows into the noble metal recovery cylinder 200 through the intake nozzle (not shown) of the check valve 900.

Therefore, the outside air continues to flow through the check valve 900, and the noble metal-containing solution in the noble metal recovery cylinder 200 flows into the solution tank 500 through the circulation pump 600.

At this time, as described above, the circulation pump 600 is necessarily located at the lower end of the solution tank 500, so that even if the noble metal-containing solution in the noble metal recovery cylinder 200 escapes and flows into the solution tank 500, The solution containing the noble metal remains.

At this time, when the power is supplied, the circulation pump 600 is operated again, the solution containing the noble metal in the solution tank 500 flows into the noble metal recovery cylinder 200, and the noble metal is attached again to the cylindrical negative electrode 400 to which power is supplied do. The noble metal-containing solution in the noble metal recovery cylinder 200 is circulated so that the check valve 900 is closed by the pressure in the noble metal recovery cylinder 200 so that the outside air does not flow into the noble metal recovery cylinder 200 can not do it.
That is, not the solution in the noble metal recovery cylinder is discharged through the check valve but the outside air is introduced through the check valve, so that the solution in the noble metal recovery bottle flows into the solution tank 500.
2, the noble metal recovery cylinder 200 is a closed structure in which the upper cap 210 and the lower cap 220 are fastened to each other. As long as no air flows in from the outside, It is not discharged.

Therefore, the noble metal-containing solution remaining in the noble metal recovery bin 200 escapes into the solution tank even in the case of a power failure or forcibly turning off the power owing to such operation, whereby the noble metal adhered to the cylindrical negative electrode 400 is dissolved in the noble metal- So that the noble metal attached to the cylindrical anode body 400 can be preserved by the operation of the precious metal recovery device before the power failure, which is an economical and very useful invention.

100: Power supply unit 110: Positive electrode terminal
120: Positive electrode 130: Negative electrode terminal
140: Cathode ray 200: Precious metal recovery cylinder
210: upper cap 220: lower cap
230: inlet pipe 240: outlet pipe
300: Cylindrical anode body 310, 410: Connection
400: Cylindrical anode body 500: Solution tank
600: Circulation pump 700: Circulation tube
800: Solenoid valve 820: Exhaust pipe
830, 930: nozzle member 840, 940: air tube
850: Terminal 900: Check valve
920: Exhaust nozzle

Claims (3)

A power supply unit 100 supplying positive and negative power to the cathode line 120 connected to the cathode terminal 110 and the cathode line 140 connected to the cathode terminal 130 respectively;
An inlet pipe 230 and a discharge pipe 240 through which a solution containing a noble metal is introduced into and discharged from the lower portion of the side wall and the upper portion of the side wall, respectively, are connected to the upper and lower caps 210 and 220, A sealed noble metal recovery cylinder 200 in which a cathode terminal 110 and an anode terminal 130 are mounted on the upper cap 210,
A cylindrical anode body 300 connected to the cathode terminal 110 and composed of a metallic connection part 310 and a mesh-like cylindrical mesh body to which an anode power is supplied from the power supply part 100;
A connection part 410 made of a metal which is located inside the cylindrical anode body 300 and connected to the anode terminal 130 and supplied with power from the power supply part 100 through the power supply part 100 and a connection part 410 made of a mesh- A cylindrical negative electrode body 400,
A solution tank 500 for containing a solution containing a noble metal;
A circulation pump 600 positioned below the solution tank 500 for circulating the solution from the solution tank 500 to the solution tank 500 via the noble metal recovery cylinder 200; ,
A circulation pipe 700 connecting the noble metal recovery vessel 200, the solution tank 500, and the circulation pump 600;
A solenoid valve 800 fixed and connected to the power supply unit 100 and driven by receiving power from the power supply unit 100 and having an intake pipe and an exhaust pipe 820; And an air tube 840 connected to an exhaust pipe 820 of the solenoid valve 800 and a nozzle member 830 mounted on the upper cap 210 of the noble metal recovery cylinder 200. In the case of a solenoid And the noble metal attached to the anode body is prevented from being melted by the outside air flowing into the noble metal recovery cylinder (200) through the valve. The noble metal recovery device A power supply unit 100 supplying positive and negative power to the cathode line 120 connected to the cathode terminal 110 and the cathode line 140 connected to the cathode terminal 130 respectively;
An inlet pipe 230 and a discharge pipe 240 through which a solution containing a noble metal is introduced into and discharged from the lower portion of the side wall and the upper portion of the side wall, respectively, are connected to the upper and lower caps 210 and 220, A sealed noble metal recovery cylinder 200 in which a cathode terminal 110 and an anode terminal 130 are mounted on the upper cap 210,
A cylindrical anode body 300 connected to the cathode terminal 110 and composed of a metallic connection part 310 and a mesh-like cylindrical mesh body to which an anode power is supplied from the power supply part 100;
A connection part 410 made of a metal which is located inside the cylindrical anode body 300 and connected to the anode terminal 130 and supplied with power from the power supply part 100 through the power supply part 100 and a connection part 410 made of a mesh- A cylindrical negative electrode body 400,
A solution tank 500 for containing a solution containing a noble metal;
A circulation pump 600 positioned below the solution tank 500 for circulating the solution from the solution tank 500 to the solution tank 500 via the noble metal recovery cylinder 200; ,
A circulation pipe 700 connecting the noble metal recovery bin 200, the solution tank 500 and the circulation pump 600,
A check valve 900 fixed to the power supply unit 100 and having an intake nozzle and an exhaust nozzle 920; And an air tube 940 connected to an exhaust nozzle 920 of the check valve 900 and a nozzle member 930 mounted on the upper cap 210 of the noble metal recovery cylinder 200, And prevents the noble metal adhered to the negative electrode body from being melted by the outside air flowing into the noble metal recovery cylinder (200) through the check valve. The noble metal recovery device The method according to claim 1,
The solenoid valve is a two-way solenoid valve, which is a solenoid valve of a normally open construction. The noble metal recovery device prevents the molten metal from being melted in the noble metal recovery cylinder.

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