EP0465401A1 - Apparatus for recovering silver or other precious metals dissolved in a liquid - Google Patents

Abstract

The apparatus comprises a lower part (1) in the shape of a vessel containing the solution to be treated, and an upper part (10) containing the electronic part of the system. The vessel comprises four anodes (3) arranged vertically along each of the walls of the vessel. The cathode (4) is cylindrical in shape, open at its ends. It is suspended in the vessel by means of a suspending member (11) fastened to a horizontal plate (12) welded to the upper part of the cathode, the suspending member (11) being integrally attached to a driving device (5) intended to make the cathode rotate. <IMAGE>

Description

The present invention relates to an apparatus for recovering silver or other precious metals in solution in a liquid, in particular for recovering silver from a used photographic or radiological solution.

The most commonly used silver collectors include a tank provided with two or more carbon anodes and inside which are arranged horizontal shelves or grids on which the metal sludges contained in the fixative solution to be treated are deposited. This sludge must then be dried and treated in several stages to obtain silver of acceptable quality. The yield of these devices is only a maximum of 60% of the money contained in the solution to be treated. On the other hand, the fixer solution is not reusable.

A more efficient recuperator is described in the French patent application published under No. 2,481,716. In this recuperator, the two electrodes have cylindrical surfaces spaced radially and are mounted on a common vertical axis. This recuperator is provided with an impeller device, such as for example a propeller agitator, intended to create a circulation of liquid in the tank in the space between the electrodes. This recuperator has a higher yield than that described above. However, it is more complex to produce and its dismantling requires the prior deposition of the anode in order to be able to deposit the cathode. In addition, the agitator constitutes an additional element susceptible to breakdowns.

The object of the present invention is to provide a recuperator of silver or other precious metals of low size, easy to handle, making it possible to achieve a yield greater than 99% and allowing extraction in metallic form, the metal obtained being directly marketable.

To this end, the invention relates to an apparatus for recovering silver or other precious metals as defined in claim 1.

Other important features of the apparatus of the invention are defined in the claims dependent on claim 1.

• la fig. 1 est une vue de face d'un exemple d'appareil récupérateur selon l'invention,
• la fig. 2 est une vue latérale de l'appareil de la figure 1,
• la fig. 3 est une vue en coupe horizontale simplifiée selon I-I de l'appareil de la figure 1,
• la fig. 4 est une vue en coupe verticale simplifiée selon II-II de l'appareil de la figure 1,
• la fig. 5 est une vue en perspective de la cathode de l'appareil illustré aux figures 1 à 4, et
• la fig. 6 est une vue en coupe verticale d'un exemple de dispositif d'entraînement en rotation de la cathode.

The invention will be clearly understood with the aid of the description given below of an exemplary embodiment of the recovery apparatus and with reference to the drawing in which:

• fig. 1 is a front view of an example of a recovery device according to the invention,
• fig. 2 is a side view of the device of FIG. 1,
• fig. 3 is a simplified horizontal section view along II of the apparatus of FIG. 1,
• fig. 4 is a simplified vertical section view along II-II of the apparatus of FIG. 1,
• fig. 5 is a perspective view of the cathode of the device illustrated in FIGS. 1 to 4, and
• fig. 6 is a vertical sectional view of an example of a device for driving the cathode in rotation.

The recuperator shown in FIGS. 1 to 4 comprises a lower part in the form of a tank, intended to contain the fixative solution to be treated, and an upper part 10 containing the electronic part of the system.

As can be seen in Figure 2, the tank 1 has four anodes 3 arranged vertically along each of the walls 2 of the tank. The cathode 4 is cylindrical in shape, open at its ends. It is suspended in the tank by means of a suspension member 11 fixed to a horizontal plate 12 welded to the upper part of the cathode, the suspension member 11 being integral with a drive device 5 (figure 4) intended for the rotation of the cathode.

The upper part 10 comprises the electrical control device 13 of the device, secured to a control plate 14 disposed on the surface of said upper part 10 and revealing in particular an ammeter 15, a light switch sector 16 and a keyboard for control 17 in several positions. The electrical control device is connected to the drive device 5 for rotating the cathode. The electrical control device is also connected to a power outlet 23, intended to receive a cable 22 for connection to a source of electrical current. The passage of the electric current from the control device 13 to the anodes 3 is done by means of a metal strapping 18 disposed around the tank, at the upper part of the tank, said strapping being connected to the electrical control device 13 by through an electric cable 19.

The rotation of the cathode creates a current inside the solution and the metal contained in the solution to be treated is fixed on said cylindrical cathode forming a solid metallic deposit on its surface. Analysis carried out by an official body made it possible to show that such a device, used for the extraction of silver contained in a solution of fixing liquid, functions with a yield of more than 99%.

The device can be produced in different sizes, the tank 1 can for example be produced in dimensions of 22/22/42 centimeters, for a capacity of 6 liters or 30/30/78 centimeters for a capacity of 40 liters. In this latest version, the cylindrical cathode can have the following dimensions: thickness 1.5 millimeters, outside diameter 178 millimeters, height 330 millimeters. Of course, as required, the recovery device can be made according to any other dimensions.

The device can operate either in an intermittent system, the reservoir being filled at intervals when the need arises, or in a continuous system, the device then being directly connected, for example, to the device containing the developer solution photographic film or to reserve used fixing products. For this purpose, the tank has two openings, namely a supply orifice 20 arranged at the bottom of the tank and a discharge orifice 21 arranged at its upper part. The device to recover can also be provided with a timer allowing an automatic shutdown of the device after a time of use programmed in advance.

The apparatus described above with a capacity of 6 liters of solution makes it possible to extract in about seven hours the silver contained in the solution for an average concentration of 6 grams per liter. In the case of the 40 liter tank, for the same average concentration of 6 grams per liter, the extraction lasts about 8 hours. After extraction, simply remove the upper part 10 and remove the cathode 4, the silver deposited on the cylinder coming off simply by allowing the cylinder to dry and hitting it, for example with a plastic hammer. The money thus recovered is directly marketable.

Another advantage of the recovery apparatus described above is that the treated fixative solution is then recoverable and can therefore be used several times.

According to an embodiment shown in FIG. 6, the drive device intended to drive the cathode in rotation comprises a motor 25 coupled to a reduction gear 26 acting on a motor shaft 27 integral with a drive member 28. Said member drive is itself made integral with a drive shaft 29 by means of pins 32. This drive shaft 29, which is of diameter greater than that of the motor axis, comprises a ball bearing 30 fixed on a support plate 31, said plate being intended to be fixed to the frame of the upper part of the apparatus, so as to prevent the motor part from supporting the whole weight of the cathode, a connecting pin 33, integral with the stop 30 and the drive shaft 29 being intended to fit into the suspension member 11 of the cathode, a key 34 being intended to hold them together. Of course, the drive device 5 can be made in any other suitable way.

Claims (5)

Apparatus for recovering silver or other precious metals in solution in a liquid, characterized in that it comprises an electrolytic tank (1) at least one anode (3) integral with the frame (2) of the tank and at least one cathode (4) of cylindrical shape open at its ends, suspended inside the tank and secured to a driving device (5) intended to put said cathode in rotation around its longitudinal axis (6). Apparatus according to claim 1, characterized in that the tank is of rectangular shape and comprises four anodes (3) each of them being integral with one of the sides (2) of the tank. Apparatus according to one of the preceding claims, characterized in that the drive device comprises a motor (25) coupled to a reduction gear (26), said reduction gear being mounted on a motor axis (27) integral with a member of drive (28) acting on a drive axis (29) of diameter greater than that of the motor axis and comprising a ball stop (30) fixed on a support plate (31), said plate being fixed to the frame of the device, a connecting pin (33), integral with the drive pin (29), being intended to drive the cathode in rotation. Apparatus according to one of the preceding claims, characterized in that the tank has a lower opening (20) and an upper opening (21), intended for continuous operation, the lower opening being intended for supplying the tank in solution to be treated, the upper orifice being intended for the evacuation of said solution. Apparatus according to one of the preceding claims, characterized in that the cathode is made of stainless metal.

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