DE3302411A1 - Device for filling anode baskets in electroplating systems with anode material - Google Patents

Abstract

A device for filling anode baskets in electroplating systems with anode material is characterised in that a channel containing a conveyor worm is fitted on, or next to, the anode bar with the anode baskets suspended from it, the channel having a filling funnel at one end and a duct-type outlet above each anode basket.

Description

DEVICE FOR FILLING

ANODE BASKETS IN GALVANIZING SYSTEMS WITH ANODE MATERIAL the The invention relates to a device for filling anode baskets in electroplating plants with anode material.

The anode material is used in the form of small pieces. The pieces can be spherical, cubic or cylindrical, for example.

In most electroplating processes, this is what is to be deposited Material was added back to the bath via soluble anodes. These anodes can die In the form of plates or rods that are attached to the live anode rail with suspension hooks attached to them or clipped directly to them.

The disadvantage of this method is that the plates or rods change in size through the dissolving process, while for maintaining it more evenly Deposition conditions in the electroplating bath the anode surface should remain constant. For this reason, the plate or rod-shaped anodes must be replaced before they are completely used up. The "leftovers" are usually sent to the supplier returned to be melted down. The proceeds for this are of course much lower than the price to be paid for the inheritance of this metal. Through this there are additional costs for the user of these anode shapes.

One has therefore looked for a way to overcome these disadvantages avoid. A suitable method for doing this is to use the soluble anode material to be filled into baskets in the form of small pieces. The wickerwork must be like this be chosen that a conductivity for the electroplating current is given to Transfer this to the anode material. On the other hand, the basket must be opposite Behave neutrally in the electrochemical process. Has proven to be a suitable active ingredient For example, titanium has been proven for copper and nickel baths.

The anode material is shaped into the titanium baskets filled in small pieces. The volume is reduced during the electroplating process of the anode pieces and thus the total volume of the anode material in the basket. To maintain A constant anode surface only needs new anode material from above to be added to the basket. The anode material is completely reconditioned, it so there are no residues.

However, the refilling of the anode material poses a certain problem insofar as the baskets arranged further inside are not in the case of wider bathrooms more can be reached from the edge of the container. Lifting the baskets by hand refilling the anode material is also not possible due to its weight.

In electroplating systems with a transport device, the latter is therefore ot used to dig out the anode baskets.

The baskets are thus moved outside of the container area and filled up there. However, this causes a considerable amount of time and thus Expenses. Production with the electroplating system can also be used during this time cannot be maintained.

The object of the invention is to eliminate these disadvantages and a easy and quick filling of the anode baskets in electroplating baths with anode material to allow, the anode baskets can be left in their places.

According to the invention the object is achieved in that on or next to the anode rail (3) with the anode baskets (4) hanging on it has a channel (1) a screw conveyor (11) arranged therein is attached, the channel (i) at one end a filling funnel (8) and over each ano- the basket (4) has a shaft-shaped outlet (6).

Further features of the invention are - that the shaft-shaped outlet (6) in the area from just below to just above the upper edge of the anode basket (4) ends, - that the screw conveyor (11) is movably mounted, - that the device Has a cover (12) - that the shaft-shaped outlets (6) in the longitudinal direction the device are displaceable.

The invention is described in more detail below with the aid of an exemplary embodiment described.

Figure I shows a cross section through the device with the channel (1), which is attached to the anode bar (3) by means of the tabs (2). At the The anode rail (3) are the anode baskets (4), which are only shown in sections here are hung with the hooks (5).

The feed shafts (6) are attached to the channel (1), wherein the channel (1) in the area of the shafts (6) breakthroughs (7) the size of the inner one Has cross section of the shafts (6). The filling funnel is visible above the channel (1) (8), the lower opening (9) of which opens into the channel (1).

The feed shafts (6) are attached to the channel (1) off-center namely they are on the side of the channel (1) after which the anode material (10) is pressed by the movement of the screw conveyor (11). The screw conveyor (11) itself is stored so that it does not touch the bottom of the channel (1). The distance between the channel bottom and the lower edge of the screw (11) depends on the size and shape of the anode material (10) voted. The upper opening of the channel (1) is closed with a cover (12), both the interior of the device and the anode bar (3) before dripping Bath fluid protects the galvanized parts when they are lifted out of the Bad is discharged.

Figure II shows a longitudinal view of the device.

It can be seen from it that the channel (1) is at least as long as that feed shafts (6) for filling all attached to the anode rail (3) Anode baskets (4) can be attached to her. The excerpts shown The screw conveyor (11) is mounted in the end plates (13) of the channel (1). Of the The screw conveyor (11) is driven by hand by placing a - not shown - crank is attached. The support of the channel (1) on the anode rail (3) takes place by means of several tabs (2) which are attached to the channel (i). The filling funnel is also located on the side where the hand crank is attached (8th).

The anode bar (3) is placed insulated on the edge of the container (15), which contains the electroplating bath.

The anode baskets (4) are filled in such a way that the Anode material is poured into the filling funnel (8). From there it slips it into the channel (1) with the screw conveyor (11) arranged therein. Go berserk The anode material is now moved in the axial direction of the screw conveyor (11) and falls through the first shaft (6) into the first anode basket (4). After this is filled, the anode material accumulates up to the upper edge of the shaft (6). Now further anode material is moved to the next shaft and the The next anode basket (4) is filled. This continues until all of the anode baskets are filled. If there is anode material between the screw conveyor (11) and the Jam the bottom of the channel (1), the screw conveyor (plumb) can move upwards, because they are not in a closed bore, but in one that is open at the top Is mounted slot.

Claims (5)

PATENT CLAIMS i f ½; Device for filling anode baskets in electroplating systems with anode material, characterized in that on or next to the anode rail (3) with the anode baskets (4) hanging on it has a channel (1) a screw conveyor (ii) arranged therein is attached, the channel (1) a filling funnel (8) at one end and a shaft-shaped one above each anode basket (4) Has outlet (6). 2. Apparatus according to claim 1, characterized in that the shaft-shaped Outlet (6) in the area from just below to just above the upper edge of the anode basket (4) ends. 3 Apparatus according to claim 1, characterized in that the screw conveyor (11) is movably mounted. 4. Apparatus according to claim 1, characterized in that it has a Has cover (12). 5. Apparatus according to claim 1, characterized in that the shaft-shaped Outlets (6) are displaceable in the longitudinal direction of the device.