DE282749C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

The subject of the present invention is an electrolytic decomposition cell which in a known manner only the anode is immersed in the liquid while the cathode rests on the diaphragm. The device is made such that the diaphragm with the cathode can be removed as a whole without removing the cell frame it will be damaged or bent.

ίο This is essentially achieved by that the cathode and diaphragm are attached to the outside of a solid cell frame, whereby an expanding cell space is created, the expansion of which is used for this purpose by attaching storage containers for the electrolyte to be decomposed to maintain the concentration of the liquid in the usual way, and also to circulate it, leading to the The consequence is that excessive use of the diaphragm and the cathode as a result of the prevents hydrostatic pressure of the liquid and these parts evenly on all sides are stressed and backflow of the cation is prevented.

The accompanying drawing shows a decomposition cell of this type in an exemplary embodiment in Fig. ι in the view, seen in Fig. 2 from the front side, in Fig. 3 in vertical cross section, and in Fig. 4 in vertical longitudinal section. Fig. 5 illustrates the set-up of the anode, which consists of several parts, and FIG. 6 clarifies the attachment of supports to the anode.

The one to accommodate the cathode and diaphragm attached to its outside The cell space used here consists, for example, of a base plate 12, the side walls 10 and the strips 11 connecting them on their upper sides In the exemplary embodiment, the strips 11 are more inward, and the walls 10 and 12 are attached on the outside. All parts of the cell frame are expediently made made of slate, cement or other suitable resistant material. The diaphragm 13 is on the sides of the bottom plate 12 and the other frame parts fixed by means of right-angled frames 14, which consist of conductive material and permeable from the edges of the asbestos or other Substance existing diaphragm by sealing strips 15 made of rubber or other Isolation material are separated. The edges of the diaphragms 13 lie on sealing strips 16 made of insulation material, which at the edges of the end walls 13 of the upper Strips 11 and the base plate 12 are attached. The frame 14 itself are to the Side walls of the cell frame fastened for example by clamps 17, which are against located on the strips 11 flanges or strips 18 and against corresponding Can place flanges or lugs on the diaphragm frame 14 and screw 19

be held in their position. The lower longitudinal strips of the frame 14 are in present embodiment by U-shaped brackets 20 and by their Get flanged ends penetrating screws 21 in their position. It can In addition, similar brackets 22 can be provided, which, as can be seen from FIG. 2, are Place across the front ends of the cell and screw 23 to the upward Bars of the frame 14 are attached. On the outside of the. Diaphragms 13 lay on the cathodes 24, which of any number, for example two Layers of wire mesh or a similar permeable material can exist, that can hold back the liquid in its pores. For attachment are in the In the present exemplary embodiment, the edges of the cathodes are perpendicular to the outside bent over and in a suitable manner, e.g. B. is conductively connected to the diaphragm frame 14 by clamping rails 25 and screws 26. As a result, the electrolytic effect only takes place at the exposed point of the diaphragms.

The in this way of the diaphragms 13 or the cathodes 24 and "the strips 14 formed space is closed on the outside by panels 27, which by Mounting frame 28 and screws 29 can be maintained in position in a similar manner can and in the present exemplary embodiment still by any number of Reinforcing ribs 30 are stiffened, here for example from small with U-shaped Bends provided rods exist and with these bent parts partly against the outer plate 27, partly against the cathode. In this way you get a complete closed cathode chamber, removable as a whole, which can be freely removed from the cell frame can be removed and attached to it and therefore also allows easy cleaning of all parts without the cell frame it is bent or damaged as a result. By attaching these cathode chambers to the outside of the cell frame, so that they to a certain extent fill the part of the side walls left free by the strips 11, an expanded cell interior is created at this point, which makes it possible the anodes, which can consist of several parts in the usual way, at any distance from each other and from the cathode, and also space enough to hold a supply of the electrolyte to be decomposed or dissolved creates, which can be attached so that between the parts of the anode and those of The side walls created in the cathode chambers enable liquid to circulate will, which uniform concentration and elimination of harmful effects of the hydrostatic pressure of the liquid. The reservoir 50 for the electrolyte is arranged between the anode plates 35 and is for example by means of a tube 51, which can be removed with its bent edge 52 in a liquid seal 53 or the like can be used and its open end is optionally covered by a cap 54 can be, during operation with the concentration-maintaining supply of provided electrolyte to be dissolved. The container 50 and the supply pipe 51 are made for example made of rubber, slate, glass or other suitable material. It can of course, several such refill containers 50, which are used for the passage of the liquid are pierced, are provided. The reservoirs are placed just below the surface of the liquid in order to on the one hand to let the liquid act on all parts of the substance to be dissolved and in order to achieve an even concentration, since the liquid on the surface is at the weakest. Due to the sinking of the freshly dissolved or supplied parts creates a flow between the anodeo plates 35, which flows through slots c or other passages of the anode plates continues to the outside and the anode plates completely flows around. This also has the effect that the entire height of the diaphragm is presented with liquid of the same concentration is, and the effect of the downward increasing pressure of the liquid against the Walls of the cathode chamber or the diaphragm and otherwise through the hydrostatic Buckling of these parts, which easily results in pressure, is avoided without one the diaphragm or the cathodes need to be reinforced downwards.

In order to get the storage container (s) for the electrolyte in the correct position with respect to the anode, the anode plates 35, which can consist, for example, of upper parts a and lower parts b , and by rods 39 or by footings χ, χ no at some distance from the ground are connected to one another by webs 37, 38, which are inserted here, for example at 36, into dovetail-shaped incisions in the anode plates (carbon, graphite or the like). These webs are provided with openings 40, 41 through which rods or rods 42 made of carbon, graphite or other suitable material can be inserted, which pass through openings in the cover 33 and here, if necessary, through one between them and flanges 43 of the

Lid located seal 44 made of tar, paraffin ο. Like. Can be sealed. Means These rods 34 the supply of the current is done by clamps or mercury cups 45, while the power supply to the cathode is through clamps or mercury bowls 46 happens, which with the metal frame 14 to which the cathodes 24 are attached are conductively connected. There is also an outlet opening 34 on the cover for discharge of the gases that may develop.

The cation which separates out at the cathode is constantly washed down or dissolved, flows downwards at the cathode and can be removed in a suitable manner. Openings 60 are also provided in order to discharge the gases developing in the cathode chamber. The cell is charged with the liquid electrolyte, for example through tubes 55, from a storage container. The liquid level above the anode, which rises somewhat during decomposition, is indicated , for example, in FIG. 4 at x ^1.

Due to the circulation of the liquid brought about here and as a result of the perfectly even Liquid pressure also prevents the diaphragm from clogging quickly, To which the fact that the liquid is always at the level of the upper edge of the diaphragm also contributes, and

that there is always a great deal of concentration here. This also prevents backflow of the cation into the anode compartment 35 and excessive formation of hypochlorites prevented.

Claims (2)

Patent Claims: 1. Electrolytic decomposition cell, characterized in that the one the cathode (24) receiving frame (14) and outer walls (27) existing, as Entire cathode chamber on the removable from or with the diaphragm The outside of the open, frame-shaped side walls (11) of the cell is arranged, while in the enlarged one formed thereby, opposite to the cathode (24) Cell interior the anode plates (35) are attached, between which the iii known way the concentration the liquid-maintaining supply of the body to be decomposed is located. 2. decomposition cell according to claim 1, characterized in that the container (50) for the refill of the electrolyte immediately below the surface of the liquid and between the upper edges of the separated anode plates connected to one another by webs (37) (35) are arranged. 1 sheet of drawings.