DE455506C - Electrolytic process and device for this - Google Patents

Description

The invention relates to an electrolytic process in addition to that for performing the Process suitable device and aims through the streamlines running in the electrolyte between the electrodes to collect and increase simple means according to the respective operational requirements distribute, so that any, evenly or unevenly distributed electrolytic

ίο Effect on the cathode or anode surface can be achieved.

For example, when silver-plating a spoon, there is a need for a thicker layer of silver at the top of the bowl knock down, because the spoon is known to be on this in practical use Place first rubs off. It has already been proposed to add the silver plating to the areas particularly exposed to wear by applying one to be silver-plated To effect the object particularly close to the auxiliary anode. However, this method has many shortcomings. For The auxiliary anode is a special circuit with a special regulating resistance and special Measuring instrument required to set and register the current for the auxiliary anode. The inconvenience multiply even when the baths that are widely used today are used with moving or migrating cathodes. The practical arrangement of auxiliary anodes moved with the cathodes is also included special power supply is practically hardly feasible. The new procedure eliminated these shortcomings in that some of the streamlines between the electrodes according to the invention by arranging a no power supply from the outside, metallic conductor is collected and distributed in the electrolyte. By suitable choice of the size and shape of the metal Conductor and its distances from the electrodes, the amount of streamlines to be collected can be adjusted according to the operating requirements to get voted.

The invention is thus a useful application of the difference in conductivity between the so-called first class ladders (metals) and the second ladders Class (electrolytes). If a part of the distance between the electrodes is bridged by a first class conductor, so the electric current flows preferentially according to the law of current branching this conductor so that the streamlines are collected there and at the ends of the metal conductor enter and exit in increased numbers. The one facing the anode The end of the conductor becomes the cathode and the end of the conductor facing the cathode to the anode.

The drawing illustrates in a schematic representation the in the new process occurring processes on a device suitable for carrying out the method.

Between the anodes 6 and 7 is a closed

silvering spoon ι hung in the usual way as a cathode. Between the anode 7 and the cathode 1 finds an approximately even distribution of the Stromlinden instead, and this side of the spoon is therefore covered with an evenly thick layer of Silver plated. On the other hand, however, there is between the anode 6 and the spoon 1 a conductor that collects streamlines is introduced into the electrolyte, which is not connected to the Cathode, still with the anode, still with an outermost power source in a metallically conductive connection. This intermediate conductor consists of a metal pin 4, which at its end facing the anode a Metal plate 3, preferably a piece of silver 2 at its end facing the cathode wearing. In addition to its end faces facing the electrodes, there is the metal intermediate conductor insulated from the electrolyte by a cladding S.

Because the electrical resistance between the anode 6 and the cathode 1 is where the conductor 3, 4, 2 is the lowest, there is a compression of the streamlines between the plate 3 and the axis 6 instead. This is to an even greater extent between the metal piece 2 and the curvature apex Spoon monkey is the case, since the streamlines collected in conductor 4 are only small here Cross-sectional area for the exit into the electrolyte is available. Because now the apex of the spoon in the vicinity of this small exit surface of the im metal conductor is moved to the collected streamlines, at this point there is one increased metal deposition instead.

By appropriate choice of the distance between the ends of the center conductor and the electrodes as well as suitable dimensioning of the size and shape of the central conductor lets stich! an uneven or even streamline distribution depending on the requirements of the object to be treated reach. The more the path of the current within the bath from the electrolyte is transmitted to the metallic line, the stronger is the collection of the streamlines sent out by the anode and their effect on certain parts of the cathode.

The new method of collecting and distributing the streamlines can be done in simpler This is also used for moving electrodes, for example for eating utensils that are moved or wandered in silver baths will. According to the invention, the conductor collecting the streamlines is then connected to the cathode rod non-conductive, so that it can be used or lifted together with the cathode and closed through the bath move is. If a piece of metal acting as a soluble anode is used on the side of the metal conductor facing the cathode, with the progressive dissolution of this metal piece, the distance between the metal conductor and the cathode increased, this distance can always be reduced to the required level are insulated by connecting the metal intermediate conductor to the cathode rod in an adjustable or readjustable manner is. If the metal intermediate conductor is made of a material that is used in the The solution in question is not anodically attacked, so of course is unnecessary an adjusting device.

Just like according to the invention, the streamlines for the purpose of increased effect a certain area of the cathode can be collected, this can also be done in with regard to the anodes, if special effects are brought about on them should be.

The invention can also be used with advantage in the many electroplating processes, in which the insufficient depth effect of the electrolyte is still perceived as disturbing today. For example, should a Hollow bodies are evenly coated with metal on the outside and inside, so according to the invention a metal intermediate conductor is connected to the object to be galvanized in such a way that it is anodic acting end of the intermediate conductor sends a sufficient amount of streamlines into the cavity. By choosing the right Distance between the anode and the opposite end of the center conductor it is ensured that a sufficient number of streamlines are collected in the intermediate conductor will. If the object to be galvanized is connected as a cathode in the bath, the one acting as a current line collector acts as a mediator Intermediate conductor then the power supply to the otherwise inaccessible to the streamlines, inner parts of the object. It is entirely at the discretion of the executor, by choosing the distances and the shape

level of the center conductor any uniform or uneven distribution of the To bring about streamlines without the arrangement of special, with external current sources connected auxiliary anodes! • would be necessary.

Claims (4)

Patent claims: i. Electrolytic process, characterized in that part of the streamlines between the electrodes by 'arrangement of a no power supply collected from the outside, metallic conductor in the electrolyte and distributed will. 2. Device for performing the electrolytic process according to claim i, characterized in that the metal conductor, in addition to its end faces facing the electrodes, the size of which Shape and distance are dimensioned according to the proportion of the streamlines to be influenced, against the electrolyte is isolated. 3. Device for exercising the electrolytic Method according to claim 1, characterized in that the streamlines Collective conductors are non-conductive connected to the cathode and can be used and lifted together with the cathode. to move through the bathroom. 4. Device for performing the electrolytic process according to claim 1, characterized in that the conductor collecting streamlines is adjustable in its distance from the electrodes. For this purpose ι sheet of drawings.