FIELD: manufacture of electrolytic cells using preheated electrolytes and solutions; manufacture of electrolytic cells for stationary sections and transfer (mechanized) lines of galvanochemical treatment. SUBSTANCE: method of manufacture of electrolytic cells for treatment of parts from hangers includes molding the rectangular reservoir with bottom, side and end walls by welding or casting from material which is neutral relative to content of cell followed by applying protective coat or placing insert made from inert material; positioning and/or securing loop for jet washing of parts held by hangers above electrolyte (solution) surface and catchers of electrode rods with anodes and/or cathodes, as well as technological accessories and additional units on upper framing of cell. Reservoir is made in form of modules articulated over their side and/or end walls: technological module including bottom and side and end walls; vapor localizing and shielding module containing two outer and two inner vertical baffles of different height which are located along side walls of technological module and are rigidly connected by their sides with solid walls whose height corresponds to respective size of inner vertical baffles; they are provided with holes for removal of vapors by means of side ventilation discharges articulated with respective section of outer vertical baffles; liquid and/or air jet treatment module including solid side and end walls which are rigidly interconnected, members for shielding splashes and entrapping drops of working medium, distributing manifolds for delivery of liquid and/or compressed air which are fitted with units for forming jets of working medium; reservoir has cover made in form of flange with catchers mounted on its end side for electrode rods with anodes and/or cathodes and technological accessories. Technological module is molded together with transversal baffle connected with two longitudinal baffles on one and side; longitudinal baffles are rigidly or detachably secured on second end wall of technological module or on second transversal baffle; outer and inner vertical baffles of vapor localizing and shielding module, as well as side walls of liquid and/or air jet treatment module and side sections of cover are provided with guides which are rigidly connected with these members; height of outer vertical baffles of vapor localizing and shielding module is equal to total height of side wall of this module and liquid and/or air jet treatment module when they are in articulated state; upper edges of sections of end walls of vapor localizing and shielding module located between its inner vertical baffles, as well as lower edges of end walls of liquid and/or air jet treatment module which is articulated with vapor localizing and shielding module are provided with through slots of respective profile for receiving and locking the distributing manifolds of jet treatment loop; electrode rods with anodes and/or cathodes received by respective catchers are located above sections of reservoirs formed by respective outer and inner vertical baffles of vapor localizing and shielding module and are articulated with this module by side walls of liquid and/or air jet treatment module; at least one section of technological module formed by end wall and sections of side walls of this module, as well as by its respective transversal baffle is provided with cover having holes for receiving and/or fastening the required auxiliary units and equipment. EFFECT: extended functional and technological capabilities of method; enhanced unification and reliability of auxiliary equipment and electrolytic cell proper; reduction of toxic vapors. 8 cl, 3 dwg
