BE693118A - - Google Patents

Description

  

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  Apparatus for recovering silver in photographic processing installations.



   The present invention relates to photographic processing installations and, more precisely, to equipment which can be added to an already existing installation and which serves to recover the silver contained in the used processing solutions. This apparatus is by the simplicity of its handling, its installation and its replacement after exhaustion.



   In many circumstances, there is a need to be able to separate from a fluid medium a certain amount of a product suspended or dissolved in this medium. This happens in particular in the processing of photograp @@ es products

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 exposed, such as exposed plaques or films. The various silver salts used in the manufacture of papers and photographic films form. when treated with various fixatives or stopping baths, complex silver salts which dissolve or remain in suspension in the treatment solution.

   When the fixative or the stop bath runs out, it is necessary to renew it to keep the treatment solution at a determined strength and concentration :! if we want to obtain results of satisfactory uniformity. Often a continuous regeneration is carried out: a given volume of concentrated solution of fixing or stopping reagents is added to the tank, and at the same time an equivalent quantity of used solution is withdrawn. This solution contains, in solution or in suspension, silver compounds in an amount justifying the recovery of this metal, in the case of a large industrial photographic processing installation.



   Several ways have been proposed to recover silver from photographic solutions. It is desirable that such a means be simple, inexpensive to implement, require the least possible handling and can easily be adapted to an existing treatment installation.



    These conditions are met by NOMS recovery as metallic silver precipitated by displacement by means of an anodic metal from silver, which metal dissolves as the silver settles. Silver recovery facilities employing this principle are known to operate satisfactorily. However, their construction is generally expensive! on the other hand, what is more serious, these installations can only with difficulty be added to an already existing photographic processing installation; finally, the handling of the money, recovered in all form of sludge, is not convenient during transport.

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   It has been found, according to the invention, that one can realize for a ridiculous price a compact assembly of recovery of the silver, forming a cartridge easy to adapt to an already existing assembly of photographic processing. The construction of this cartridge is such that there is never a need to remove the metallic filling from the casing and that the operations of plugging and unplugging the cartridge and the photographic processing plant are practically instantaneous.



    The cartridge can therefore be handled, stored and shipped as a single item to a silver remelting station, without special precautions and without preliminary handling.



   According to an advantageous embodiment, the cartridge is provided with a bayonet fixing and connection device so that its connection and disconnection are as simple as those of an electric light bulb.



   The cartridge according to the invention essentially comprises a single container filled with a metal filling and provided with a connection device allowing an almost instantaneous connection to the photographic processing installation with the minimum of effort, In the cartridge according to the 'invention, the treatment solution containing the silver to be removed' passes right through the mass of active metal before being removed or recycled to a tank of fixing solution, and it leaves in the; cartridge the silver it contains, in the form of mud.

   When the active metal is used up, it suffices to change the cartridge now filled with silver sludge for a new or regenerated cartridge,

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The apparatus for recovering silver from used photographic baths is remarkable in particular in that it comprises a cartridge formed from the following elements:
A- a container;
B - a hollow core disposed inside said container;
C - a continuous metallic filling, permeable to fluids, arranged around said core and formed by a metal located above silver in the table of normal oxide-reduction potentials.



  D - a device for supplying said cartridge with fluid, fixed to said container, and having the following characteristics: t (1) - it comprises at least two coaxial pipes; (2) - one of the ends of one of these tubes is arranged so as to penetrate into said container through the passage made in said hollow core and adjoins one of the ends of said metal filling; (3) - one of the ends of the other tubing is arranged so as to penetrate into the cartridge and ends in contact with the other end of said metal filling; E — a device connected to the other ends of the two tubes making it possible to ensure the circulation of the solution containing the silver in the cartridge, which allows this silver to be deposited on said metallic filling.



   The metallic filling will be referred to hereinafter as "the charge *.



    In the accompanying drawing, which illustrates the invention: FIG. 1 is a front view, with partial cutaway, showing the cartridge according to the invention

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 - Fig. 2 is a partial view, enlarged, of the upper part of the cartridge, showing the charge, the cover, the coaxial tubes and the means for assembling and quickly disassembling the cartridge; FIG. 3 is a section taken along line 3-3 of FIG. 2, and shows details of the assembly means - FIG. 4 is a side view of another embodiment of the invention, provided with a bypass preventing the generation of dangerous surges.



   In these figures, where the identical reference numbers * designate the same elements, whatever the figure, the cartridge according to the invention comprises three main elements, namely: (1) a container 12 (Fig. 1); (2) a metallic filler 14, the assembly one (1), (2) forming / cartridge; and (3) a quick connect and disconnect assembly 16. The container 12 may be constructed of any suitable material, metal or plastic for example, its shape and dimensions may vary depending on the particular case considered.



   Normally, the only element of the installation fixed to the inner wall 18 of the container 12 is a perforated or porous plate 20 serving as a diffusion plate. The circumferential surface 22 of the plate 20 is shown fitted to the wall in a liquid-tight manner so that all of the liquid from the area 24 between the underside of the plate 20 and the inner wall 26 of the plate. cartridge will pass through the openings or pores 28 of the plate. However, this plate can be mounted thereclie in the cartridge and supported by wedges instead of being fixed directly to the wall of the container, if this arrangement is considered advantageous.

   The cartridge cover 30 can be

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 removable and held in place of semi-permanent den by hooking and holding claws 32, if this arrangement is considered advantageous.



  However, the use of a removable cover is not essential, nor even advantageous if the cartridge is manufactured economically such that this cartridge can be shorn with the metal charge it contains, which makes it unnecessary to empty it. and to handle the load alone.



   Filler 14 is fluid permeable and should be made of a free metal above silver in the normal potential table although several metals are known to meet this condition and to work, it has been found that iron, in the form of "steel wool" is the most suitable. It is advantageous that this steel wool forms a continuous strip which is wound around the hollow core 34 continuously and without leaving any empty space. The use of a single strip of steel wool is advantageous, because this tape is easy to roll up and also-because there are no voids or cavities, as often happens when one introduces into a cartridge of the steel wool not packed.

   Conversely, the use of this strip of steel wool is an insurance against excessive settling which could prevent the passage of liquid flow through the metal mass under satisfactory conditions. It is also possible, if it is deemed preferable, to constitute the filtering element by assembling a certain number of preformed steel wool discs which are threaded over the core 34 without leaving any voids and without forming areas of exaggerated compression. .



   The core 34, around which the steel wool is wound, not only plays an important role, it serves as a support for the active steel wool, but it serves as a holding part for the assembly 16 of

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 , connection and disconnection by ensuring the correct installation of this assembly, as will be explained later. Lugs or other grippers, shown at 35, may be provided at the top of the core for handling and for positioning the load in the correct position in the cartridge, if deemed useful.



   The diameter of the fully assembled charge 14 is such that there is no free space between the container 12 and the charge through which the solution containing the silver could pass, so that all of this solution must pass through the charge 14. fluid permeable.



   The length of the charge may vary depending on the amount and concentration of silver * in the fluid to be handled per unit time, however, it is advantageous if the charge occupies almost the entire volume between the plate 20 of diffusion and a point close to the cover 30 of the cartridge, leaving a small free space between this cover and the upper part of the load 14 to allow the passage of the solution containing no more silver through the outlet orifice provided in the assembly 16 of connection and disconnection.



   The quick connection and disconnection device associated with the receptacle 12 consists of a set of hollow tubes arranged coaxially and serving for the passage of the fluid. One of these tubes is indicated at 42 in FIG. 2. This tubing 42 is connected to a connector 38 by one of its ends and has a sufficient length so that its other free end 39 penetrates the greater part of the passage 44 formed in the hollow core 34 when the cartridge is integral with the. 'set 16; however, the end 39 should not protrude from the plate 20 and enter the empty zone 24 at the bottom of the container 12.

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    ', Indeed, if this were to happen, or if the end 39 was brought into contact by its external face with the solution containing the silver for some other reason, a deposit of silver could form on this free end. , which would prevent easy removal of the cartridge from the assembly 16.



   This is why the outer diameter of the tubing 42 is such that a careful fit is made between the outer wall of the tubing 42 and the inner wall of the hollow core 34. This careful adjustment is also necessary for another reason 1 it is important to reduce to a minimum the quantity of solution going up in the passage 44 and thus avoiding the passage of the load 14. If it is considered necessary, an annular seal 46 can be used to remove it. eliminate any circulation of liquid between the external wall of the tubing 42 and the internal wall of the passage 44. A supply tube 48 is press-fitted or otherwise connected to the end 50 of the connector 38 which can be united, threaded or tightened , for example, by means of an elastic collar 52 for example, the main thing being to ensure the seal.

   A safety valve 53 is disposed on the pipe 42 and serves to eliminate any excess pressure which accidentally occurs in the casing 12.



   There is shown in FIG. 2 a needle valve loaded by a spring, r @ a valve of any type can be used, opening when the pressure in the tubing 42 exceeds a given value,
The liquid exits 54 from the silver recovery installation by passing through an L-shaped tube 56. A branch 58 of this tube 56 is annular and surrounds the tube 42, leaving a space.
60 sufficient for the stream of silver-free solution which moves upward. This vertical branch is closed by a seal 62 preventing any leakage of liquid through the upper part of the branch 58 of the L.

   The second branch 64 of the L-shaped tubing 56 is horizontal and has a knurled outer surface 66 at its end.

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 .54, on which is threaded an evacuation pipe 68, made of rubber for example, an elastic collar 70 or other equivalent spring device ensuring the fixing of this pipe on the branch 64. A valve 71 is also installed on the pipe 56 and limits the pressure in this tubing to a given value in advance.



     Pressure limiting devices other than valves 53, 71 can be used. For example, according to the embodiment of the invention shown in FIG. 4, a tubing 73 in the form of an inverted U, serves as a bypass fixed by parts 75, 77 to the fittings 38, 54 respectively. An opening 79 or an overflow valve is disposed at the top of the U so that sufficient pressure to cause the liquid to rise to 79 against gravity is automatically removed by this safety device.



   The cartridge is attached to assembly 16 by means of a bayonet device 72 disposed on tubing 56 as shown in Figs. 2 and 3, which allows instant removal of the cartridge. This device comprises two locking ears or tenons 74 fixed on the branch 58 of the L-shaped tube 56, and penetrating through notches 76 into an annular groove 78, shown in broken lines in FIG. 3, and provided in the cover 30. An O-ring 90, housed in an annular groove 91 also formed in the cover 30, prevents any leak of liquid between the cartridge and the assembly 16, without hindering the assembly or disassembly of the assembly. cartridge.

   A quarter-turn rotation, with gentle friction, thus makes it possible to connect or disconnect the cartridge. Other equivalent devices can also be used. It is advantageous that they do not require the use of any tools or the disconnection of flexible pipes 48, 68, such as the bayonet device described above.

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 new The cartridge / is provided with a stopper 80 fixed in the annular groove 78 by two tenons forming a bayonet device. This stopper is connected to the cover 30 by a cord 82 to avoid losing it.



   The operation of the apparatus described above is as follows. The cap 80 of a new cartridge is removed by rotating it a quarter of a turn and this cap is placed on the cover 30, then the end of the tubing 42, which is part of the assembly 16, is made to penetrate. , in the opening of the device 72, and in the passage 44 formed in the core 34 of the cartridge, with the tenons 74 facing the notches 76. These tenons are driven into the notches to make them penetrate into the annular groove 78 , then turn the cartridge a quarter of a turn to lock it. The cartridge is thus held in place in a fluid-tight manner.



   Once the assembly 16 is thus locked on the cartridge. che, the solution containing the silver is circulated in the apparatus by making it penetrate through the connector 38 and the tubing 42 in the direction indicated by the arrow 84. The solution containing the silver thus flows through the lower end of the tubing 42 in the lower part of the casing 12 which fills up, then the liquid rises through the openings or pores 28 into the metal load 14 where this solution.diffuses. By going up in this load 14, this solution gives up its silver in the form of sludge, so that it leaves by the upper part of the cartridge a fixing solution practically free of silver.

   This solution rises under the pressure, collects in the upper part 36 of the cartridge and exits through the tubing 56 and the connector 54 in the direction indicated by the arrow 66.

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   As can be seen in the figures, any sudden overpressure occurring in the inlet pipe 42 or in the pipe 56 or in these two pipes is eliminated by at least one of the pressure sensitive valves 53, 71. This opening of the safety valves @ avoids any risk of deterioration of the silver recovery equipment or of the entire photographic processing installation which supplies this equipment.



   When the cartridge runs out, needs to be replaced, which happens when it is full of silver sludge, just turn it a quarter of a turn until the pins 74 are opposite. notches 76 to be able to separate the cartridge from the assembly 16.



  Cap 80 is replaced on cover 30 and the cartridge, formed of container 12 and charge 14, is ready for shipment to a silver processing facility. In this installation, what remains of the initial charge and the silver slurry are heated to separate the silver by fusion. If the receptacle 12 does not include a removable cover 30, the whole of the cartridge is placed in the melting furnace and is burned there, leaving the liquid silver, thus recoverable in metallic form, thus avoiding having to remove the load 14 of the cartridge.



   The apparatus according to the invention therefore has the following advantages: (1) rapid exchange of the cartridge without special tools and without having to resort to a technician! (2) unnecessary to interrupt the photographic processing to proceed with the exchange or to consent to a significant loss of money (3) operational safety, thanks to the safety valves or the bypass tubing, which avoids placing safety devices on the supply pipes, as on is often required to do this t (4) removal of any

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 handling, the enclosure used for the recovery of the silver serving as conditioning for the new active material and for the recovered silver sludge and (5)

   use of a metal filler having a convenient presentation and giving superior results.



   Of course, the invention is not limited to the embodiments described and shown, chosen only as examples.

 

Claims (1)

ABSTRACT The subject of the invention is in particular an apparatus for recovering used photographic baths in a photographic processing installation, remarkable in particular by the following characteristics, considered separately or in combinations 1 - it comprises a cartridge formed from the following elements t A - a container; B - a hollow core arranged inside said container, C - a continuous metallic filling, permeable to fluids, arranged around said core and formed by a metal located above silver in the table of normal oxide-reduction potentials; D - a device for supplying said cartridge with fluid, fixed to said container and having the following characteristics: (1) - it comprises at least two coaxial pipes; (2) - one of the ends of one of these pipes is arranged so as to penetrate into said container by the passage. Fitted in said hollow core and adjoins one of the ends of said metal filling; <Desc / Clms Page number 13> (3) - one of the ends of the other tubing is arranged so as to penetrate into the cartridge and ends in contact with the other end of said metal filling; E- a device connected to the other ends * of the two tubes making it possible to ensure the circulation of the solution containing the silver in the cartridge, which allows this silver to be deposited on said metal filling; 2 - the fluid supply device is of a type which is quick to dismantle and reassemble; 3 - the container and the metal filling form an integral whole; 4 - according to one embodiment, valves are placed on the inlet and outlet pipes to prevent any accidental overpressure; 5 - according to another embodiment, an inverted U-shaped tube, provided with an orifice or an overflow valve at its upper part, prevents any accidental overpressure; 6 - said filler is steel wool; 7 - this steel wool forms a band wound around the said core.