DE1496816B2 - DEVICE FOR GALVANIZING SHOOTABLE BULK PARTS - Google Patents

Description

The invention relates to a device for electroplating pourable bulk parts, consisting of a rotatable drum immersed in an electrolyte with a perforated M part made of electric non-conductive material, at least one in direct electrical contact with the mass parts Cathode and at least two anodes, one outside and the other inside the Drum is arranged, the latter opposite to the mass parts by a surrounding perforated Sheath made of electrically non-conductive material is insulated.

Such a device is e.g. B. from US-PS 12 54 046 known. In this known type a soluble inner anode is used, which is used with alkaline electrolytes, especially with alkaline-cyanidic Zinc electrolytes, has the disadvantage that the bath is enriched with dissolved excess zinc during operation will. Since this accumulation of dissolved excess zinc is detrimental to the gloss and ductility of the coatings influenced and the depth scattering and the electrical conductivity of the solution reduced and thereby the efficiency of the system is reduced accordingly, it must periodically with chemical and / or thermal agents are excreted. In addition, the soluble inner anode is of use The drum equipped with it is impossible in automatic machines, in which before and after the actual electroplating chemical and electrolytic pre- and post-treatment (e.g. electrolytic degreasing) occur.

The invention is based on the object of a device for electroplating pourable bulk parts to create, by means of which high-quality coatings with a high degree of effectiveness and reduced Maintenance of the electrolytes are achievable and in which the drum has no restrictions on their Applicability is subject to. This task is based on the known design outlined at the beginning according to the invention achieved in that the anodes located outside the drum consist of a soluble and the anode (s) located within the drum are made of an insoluble material.

In the case of alkaline electrolytes, this configuration leads to a constant electrochemical state Equilibrium; the anode system according to the invention with one or more insoluble anode (s) inside the drum and soluble anodes outside the drum determine an average anodic current yield, which is about 75% when using zinc and thus the cathodic current efficiency, which in such a case is known to be around 75 to 80%. As a result, excess zinc hardly falls so that the consequential disadvantages associated with an accumulation of excess zinc (see above) do not occur; also, the insolubility of the anode within the drum makes its use in Vending machines possible. This very positive result is therefore all the more surprising than the use of Internal anodes have been known in electroplating technology since the last century; however are always and only soluble inner anodes were used.

In order to distribute the electrical power, which is already quite favorable due to the use of one or more internal anodes To make the field even more uniform is provided in a further embodiment of the invention the tubular inner anode to arrange one or more disk-like anodes, their flat extension runs perpendicular to the axial direction.

In the drawing, a preferred embodiment of the device according to the invention is in the longitudinal and shown in cross section, which is explained below will.

A quantity of 1 pourable parts by mass is in a drum that is immersed in the electrolyte and rotates in the direction of the arrow; the transmission of the rotary movement takes place via a spur gear 2. The between soluble anodes 3 located drum consists of two supporting side parts 4, the drum shell 5 and a cover 6; The drum shell 5 and cover 6 are perforated and consist of an electrically non-conductive one Material. A metal tube 7 rigidly connected to the side parts 4 forms the axis of rotation and is separated from the material to be treated and electrically by a perforated plastic tube 8 surrounding it coaxially isolated.

The metal pipe 7 is connected to the positive pole of the direct current source by means of a cable 9; so it has the function of an insoluble anode.

The amount 1 of the pourable mass parts receives the potential of the cathode through two contact bolts 10; the connection to the negative pole of the rectifier is made by cable 11. The plastic pipe 8 and the drum housing are welded together; as a result of their mutual rotation Blockages or hindrances to the circulation by the rolling amount 1 prevented. The feed the cable 11 runs through the metal pipe 7; through the exit of the cable 11 into the interior of the Drum rings 12 are mechanically fixed.

The supply lines to the two poles of the power source should, if possible, not have sliding contact surfaces

take place; the contact resistances occurring at these points became a considerable impairment which usually lead to relatively low DC voltages.

A distance is provided between the metal pipe 7 and the surrounding plastic pipe 8; at a direct contact of the two components 7 and 8 would be due to the perforation of the plastic pipe 8 the anodic current density is several times greater.

Shall the deposition rate and the uniformity of the on the individual mass parts The coatings obtained can be increased further, additional disk-shaped anodes can be placed on the metal tube 7 be applied; this measure surprisingly brings about an increase in the aforementioned Effect with itself. The inside of the drum can, provided the anodes penetrating the amount 1 up to Extend the drum shell, be divided into chambers.

1 sheet of drawings

Claims (2)

Patent claims: 1. Device for electroplating loose bulk parts, consisting of a rotatable, in an electrolyte-immersing drum with a perforated jacket of electrically non-conductive Material, at least one in direct electrical contact with the mass-produced parts standing cathode and at least two anodes, one outside and the other inside the drum is arranged, the latter against the mass parts by a surrounding them perforated jacket made of electrically non-conductive material is insulated, characterized in that that the anodes (3) located outside the drum (4, 5, 6) consist of a soluble and the anode (s) (7) inside the drum (4, 5, 6) made of an insoluble material exist. 2. Device according to claim 1, characterized in that on the tubular inner anode (7) one or more disk-like anodes are arranged, the flat extension of which is perpendicular to the Axis direction runs.