DE374113C - Carbon anode - Google Patents

Description

Anodes made of carbon plates covered with finely divided metal are has already been proposed.

In such designs, the vertically set anode does not serve as a carrier active metal mass. The metal mass is namely in granulated, lump or Dust form housed in the permeable envelope surrounding the carbon plate, so that this serves as a carrier for the active material. The main purpose of the carbon plate is to conduct electricity.

Since the carbon plate is set up vertically, it cannot be covered with metal mass and has vacancies.

The consequence of this known design is that the current does not make its way through the applied metal takes, but directly from the bared point of the carbon in the electrolyte because the resistance is less here. But then the dissolution of the metal stops at the anode.

The new invention consists in the fact that the carbon plates are arranged horizontally and carry the metal in amorphous form.

Further inventions consist in the type of arrangement of several carbon plates and the other training of the anodes.

In the new invention, the horizontal storage of the anodes and through the division of the metal into amorphous form achieves that even with a small thickness of the active metal mass the surface of the anode remains completely covered, whereby the

ίο electricity is forced to make its way through that take amorphous metal.

Another important advantage is the arrangement of the insulating sleeves on the vertical ones Carbon rods to conduct the current solely through the active mass. The invention can be in different Way to perform. It is illustrated in the drawing in two embodiments, and although shows

Fig. Ι a longitudinal section through the carbon anode.

Fig. 2 shows a cross section along line I-I fig. r.

Figs. 3 and 4 show another embodiment in longitudinal and cross-section.

According to the invention, instead of a plate-shaped metal anode, a carbon anode is used, which carries the active metal mass on a free surface, from which the metal is dissolved. The carbon anode consists of several carbon plates a, which are stored on insulating plates b, for example in a removable or fixed frame c. A porcelain vessel or a wooden frame can serve as an insulating frame. There are several carbon carriers δ in this way combined in steps or tiered to form a total anode. The individual carbon plates are electrically connected by carbon rods d. The carbon rods can run out straight at their end or be designed to taper conically or, as shown for example in the drawing, be truncated conical.

The active metal mass g lies in an amorphous (colloidal) state on the carbon plates α. The carbon rods d are surrounded by insulating sleeves β . The insulating frame can be held together so that it can be easily taken apart by means of pins f. The power is connected to the carbon rod k which acts on the uppermost carbon plate α , the ends of which are outside the bath and which is also surrounded by an insulating sleeve. The attachment of the carbon rod h can be done in any way. The charcoal carriers b are conveniently U-shaped, as illustrated in the cross-section according to Fig. 2, so that they serve with their laterally protruding edges b _x and together with the frame c in the container to receive the finely crushed active material.

In the embodiment shown in Figs. 3 and 4, the carbon plates α are inserted into a porcelain frame i made from one piece. The carbon rods d are surrounded by porcelain sleeves k . The porcelain frame carries at the same time in appropriate distances from the uppermost carbon plate fixed transverse frame I, in which the top Kohlenj bars (Z ₁ by a metal-made threaded socket m are maintained. The upper carbon rods d _x are, as far as they are in the bath, with Porcelain sleeves k covered. As in the embodiment according to Fig. 1 and 2, the finely distributed active mass g lies on the coals.

By enlarging the. Surface, as the metal mass is finely crushed States, the dissolution rate is increased so that the electrolyte does not depleted of metal, which enables even and rapid electroplating.

Claims (5)

Patent Claims: 1. Anode made of carbon plates, which is provided with finely divided metal, characterized in that the carbon plates are arranged horizontally and that Wear metal in amorphous form. 2. Anede according to claim i, characterized in that that several carbon plates, the carrier of the active mass, step or tier to form a total anode are united. 3. Anode according to claim 1 and 2, characterized in that lying horizontally Troughs have a floor covering made of coal, on which the metal rests and where only the upper side is marked with 10c connected to the electrolyte. 4. Anode according to claim 1 to 3, characterized in that the trough through a detachable insulating frame made of porcelain is formed, the carbon plates are placed on the removable bottoms, with the frame and bottoms held together by pins will. 5. Anode according to claim 1 to 4, characterized in that the individual Carbon plates are conductively connected by carbon rods which are covered with insulating sleeves are. 1 sheet of drawings.