DE160645C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

M 160645 CLASS 21 b.

The present invention aims to ensure a continuously reliable and power loss after Possibility of excluding current discharge for rotating carbon electrodes from galvanic Elements are created, which allows the rotating carbon electrode for the purpose of better utilization of their surfaces to submerge completely in the electrolyte without being required to produce the Ableitungskontaktes the axis of the rotating electrode through the cell wall to lead to the outside world. The latter has the disadvantage that when there is a leak The excitation fluid seeps through the bearing points to the outside.

A current discharge directly from the carbon electrode through the electrolyte to the outside world was only possible with the help of the complicated and expensive mercury contact devices, which did not even work reliably all the time possible.

According to the present invention, the derivation of the current through one is now made Coal causes existing contact lever, which outside of the electrolyte with the Pole terminal is connected and kept under pressure under the liquid level with the carbon electrode in constant contact will. The contact lever itself forms part of the carbon electrode, so that it is divided into a rotating and a stationary part. Wear on the contact surfaces of these both parts hardly take place, since the electrolyte acts there like a lubricant.

The subject of the invention is shown in the accompanying drawing.

Fig. Ι is a top view of the element.

FIG. 2 is a vertical section along line 2-2 of FIG. 1.

Fig. 3 is a vertical section of a battery formed from two elements in the sense the line 3-3 of FIG. 2.

Fig. 4 is a sectional view of the rotating carbon electrode in the direction of the axis.

The element vessel consists of a lower part 1 and an attachment 2. The latter carries the rotating carbon electrode with the engine and the contact lever.

The fixed electrodes 4 and 5 engage with their lower corners in incisions 6 of two blocks 3 in order to secure it against lateral displacement while they find their base on the upper edge of two transverse walls 7. The vessel 1 is provided on the inside with warts 8, which the outer electrodes 4 keep the appropriate distance from the vessel walls to thereby the To allow fluid a free passage space. The fixed electrode plates are cut out in the middle, like this that the hub 17 (Fig. 4) of the rotating carbon electrode not with the stationary Electrodes can come into contact.

On the two opposite inner broad sides of the attachment 2 sit two T-shaped designed hangers 11, 12, 11 spacer sleeves 10 between their upper transverse parts are held. The rotating carbon electrode

sits firmly on the in the hanging bearings ii, 12 mounted shaft 14, which is made of one of the aggressive effects of the electrolyte resisting, conductive ground is not necessary. The rotating carbon electrode is composed of two disks 15, 16, between which a hub 17 is arranged. Against the disc 16 is a stepped Washer 19 by means of screws 20 from a non-vulnerable mass, expedient Hard rubber, existing ring gear 18 pressed. With a hollow shaft is designated, which is stored in the upper part 2 of the element vessel and by a gear 22 which meshes with the ring gear 18, which transmits the rotating movement to the carbon electrode. On the end of the shaft 21 protruding from the upper part of the vessel 2 sits a belt or pulley 23 for the drive.

The electricity-consuming, coal-based and essential part of the invention forming contact lever 30 is swingable on a top of the vessel above the electrolyte 2 traversing axis 31 stored, the outwardly protruding End of the pole terminal 33 carries. A spring 32 strives to the lower end of the contact lever 30 to press against the hub 17 of the rotating electrode, with the inward curved contact surface of the contact lever around the surface of the hub 17 exactly connects.

If several elements are combined into a battery, then all contact levers 30 sit on a single axis that traverses the vessel attachments 2. The axis 31 can be made of conductive or non-conductive Material. If non-conductive material is used, the pole terminals can be attached directly to the upper Ends of the contact arms 30 are attached.

Claims (1)

Patent claim: Current dissipation for rotating carbon electrodes of galvanic elements, characterized in that the current is completely submerged in the electrolyte Carbon electrode is derived below the liquid level by means of a contact lever made of carbon. 1 sheet of drawings.