SU15591A1 - The form of the apparatus, designated in the patent number 10919 - Google Patents

Description

Patent No. 10919 describes a method and apparatus for directly making rubber sheets from milk juice by electrophoresis, based on the fact that a fluid-permeable diaphragm or non-conductor lining that is permeable to liquid is used to deposit rubber as a uniform, desired thickness. (gypsum, cloth, etc.) in order to remove, through its pores or through the layer between it and the anode of the electrolyte, gases evolved at the anode. At the same time, to implement this method, the patent describes the device of the apparatus in various forms. full; the anode is inserted into the porous diaphragm, which serves to deposit the rubber layer - during the electrophoresis process; a cylindrical shape with an electrolyte and an anode in it is attached to the porous diaphragm, and it is placed in a phyto tank that serves as both a cathode and so on.

In the proposed form of the apparatus between the lining and the cathode placed partition walls. The latter can be carried out in a manner that, although they hold up gas bubbles formed at the cathode and prevent them from being deposited in the rubber layer, they give the processable dispersion to flow to the cathode even without contact with partitions, or the partition can completely separate the cathode space from the space enclosing the diaphragm with the anode, and the liquid penetrates through the partition. In the first case, the partition may consist of both a liquid-impermeable material and a substance that permits it; in the latter case, only a diaphragm from perfectly permeable materials (for example, fabrics) or from semi-permeable materials (for example, parchment paper, porous ceramic materials, etc.) is permissible. This last device makes it possible, despite the distraction of the dispersed substance due to electrophoresis, to properly maintain the most uniform concentration of the D1 processed sperm. In the schematic drawing of FIG. Figure 1 shows a vertical section of a device in which the partitions placed between; Waiting for the cathode and the lining, not completely separate the cathode space from the space enclosing the lining with the anode; FIG. 2 and 3 are vertical sections of the apparatus in two modifications, in which the permeable fluid of the semipermeable partition separates both spaces completely.

FIG. 1 anodes, embedded in plaster forms .g, which serve as linings, are marked with the letter a; K-horizontally located under the anode forms s cathode; a c-vessel for the placement of all equipment containing rubber milk li; S-current source, to which electrodes a and k, b are attached, made, for example, of glass, cup-shaped bodies, which form a partition between the cathodia lining impermeable to liquids; the latter isolate gas bubbles d developing at the cathode from the rubber deposit, so that the uniformity of the last fte can be disturbed due to the presence of such bubbles. Partitions b can also be made of a liquid-permeable material, for example, of porous ceramic material or fabric. If the bureau consists of a permeable or semipermeable substance, then it can be installed so that it separates the procCTpaCTBCTBO containing the cathode from the space enclosing the anode and the lining so that the liquid can pass from one space to another only . If the latter consists of a semi-permeable material that permits a dispersion liquid, but which retains the dispersed substance, then at the same time concentration may occur by electroosmosis.

FIG. 2 the vessel with its liquid is crushed by a baffle b, for example, from uncharged clay into two parts and in the same way that the liquid can pej-AaHTb from space x to space f / only through the b partition b. In space W there is a lining, connected to the positive pole of the current source, in the form of, for example, a rotating and drum-shaped anode a, on which rubber can be directly deposited. However, the anode can also be provided with an anodic diaphragm, for example, a plaster lining t, and the cathode is placed in space // also with electrolyte. The space x is provided with a drive tube for fresh electrophoresis fluid tube /, and a space in the discharge tube for exhaust fluid e. Due to the electrophoretic effect of current, dispersed particles are deposited on the anode, the electroosmotic effect of the current drives the dispersion fluid through the partition b into the space //, from which B1 flows through pipe d, the sediment layer e, extracted from the bath by rotating the drum, is continuously removed from the latter.

With proper choice of conditions, it is possible to ensure that the supply through the pipe / dispersion is divided into two parts so that the dispersed substances collect on the drum and the dispersion liquid passes through the partition and flows through the pipe. .

FIG. 3 shows another embodiment of the apparatus in which the depositioning forms consist, for example, of porous gypsum diaphragms into which the anodes are embedded. The diaphragms are immersed in the space containing the processable dispersion x, so delimited by a wall b from the cathode space y, that liquid can pass from the anode space x to the cathode y only through the porous wall b.

If the cathode space is completely separated by a partition from the space where precipitation occurs, the passage of the dispersion liquid through the partition can be supported by hydrostatic pressure or suction. In the embodiment shown in FIG. 3, the cathode space / J is separated from the outside air and the exhaust pipe is equipped with a suction device j to accelerate