RU2042743C1 - Galvanic bath - Google Patents

Abstract

FIELD: electrochemical treatment of materials. SUBSTANCE: galvanic bath has outer and inner casings. A set of semi-cylindrical profiles are positioned on bottom of inner casing. Bath is further provided with mixing mechanism having perforated tubes with nozzles. Tubes are positioned along semi-cylindrical profile joints. Bath has pressure system, annular intake member and parts positioning device. Bath is characterized in that it has two actuating mechanisms for regulating flow rate, auxiliary mechanism for mixing and intaking of electrolyte. Inner and outer casings are provided with conjugating members. Bath inner casing is provided with transportation members. Pipelines of inner and outer casings are connected through removable members. Actuating members for regulating flow rate and auxiliary mechanisms for mixing and intaking of electrolyte are equipped with novel connections. EFFECT: wider operational capabilities, simplified construction and improved quality of treatment. 4 cl, 2 dwg

Description

 The invention relates to electrochemistry, in particular to technological units for electro and chemical processing of parts using the hydraulic method of mixing the medium to be processed, and can be used in galvanic and chemical industries.

Known galvanic bath containing a housing with an additional bottom, the anode and cathode, a device for mixing the processing medium in the form of a sparging tube located in the space between the main and additional bottom of the bath body and offset from the center to the anode [1]
The disadvantages of this device are the bubbling of the electrolyte and the resulting foam formation, increased evaporation of the electrolyte, oxidation of the metal (cathode) and, as a result, deterioration of the quality of the coatings, poor mixing in the electrolyte of heavier particles (for example, ultrafine particles of an aqueous suspension of diamonds) that fall into sediment and in the coating process (composite electrolytic in this case) are not involved.

The closest to the proposed technical essence and the achieved result is a galvanic bath containing the outer and inner bodies, the bottom of the last of which includes a set of semi-cylindrical profiles, a mixing mechanism, an annular intake element and a device for accommodating parts, and the perforated tubes are mounted with axial movement and connected by means of an oil seal with an annular intake element [2]
Such a device does not allow drainage of the electrolyte from the inner case, which limits its technological capabilities, in particular when the technology uses a one-time electrolyte without adjusting it, using, for example, chemical nickel plating or, if necessary, cleaning the inner surface of the bath from treatment products (for example, in case of phosphating solutions).

 In addition, the bottom of this device is quite difficult to manufacture, and the device itself does not allow or limits the replacement of failed elements.

 Finally, because of its design features, this device does not provide hydraulic mixing of the bath electrolyte at its end sides, which can lead to a decrease in the quality of processing of parts and (or) accumulation of associated processing products in these places.

 The technical result of the invention is to expand the technological capabilities of the device, simplifying the latter and replacing failed elements, as well as improving the quality of processing parts.

-образного профиля, а дополнительный механизм перемешивания и забора электролита выполнен в виде П-образного трубопровода с патрубками, расположенными с торцовых сторон внутреннего корпуса ванны и соединенными с дополнительными отверстиями последнего в нижних частях внутренних поверхностей соответствующих полуцилиндрических профилей и

-образных профилей боковых стенок, внутренний и внешний корпусы ванны оснащены или выполненны в верхней части боковых стенок корпусов, внутренний корпус ванны оснащен элементами его транспортировки, соединение трубопроводов по крайней мере между внутренним и внешним корпусами ванны, осуществляется через посредство соответствующих разъемных элементов, а перфорированные трубки с соплами размещены вдоль мест сочленения полуцилиндрических профилей между собой и с полуцилиндрическими профилями соответствующих частей боковых стенок внутреннего корпуса и выполнены с двухрядной перфорацией в нижней части, причем выход напорной системы соединен с входом первого исполнительного механизма для регулирования расхода, выход которого соединен с входом второго исполнительного механизма для регулирования расхода и входами дополнительного механизма перемешивания и забора электролита, а выход второго исполнительного механизма для регулирования расхода соединен со сливом.This is achieved by the fact that the galvanic bath containing the outer and inner bodies, the bottom of the last of which includes a set of semi-cylindrical profiles, a mixing mechanism made in the form of perforated tubes with nozzles, a pressure system, an annular intake element and a device for accommodating parts, according to the invention is equipped with two actuators for regulating the flow rate, an additional mixing mechanism and electrolyte intake, each of the side walls of the inner body of the bath is made as a whole sheet at least

-shaped profile, and the additional mechanism of mixing and sampling of the electrolyte is made in the form of a U-shaped pipe with nozzles located on the end faces of the inner body of the bath and connected to additional holes of the latter in the lower parts of the inner surfaces of the corresponding semi-cylindrical profiles and

-shaped profiles of the side walls, the inner and outer shells of the bathtub are equipped or made in the upper part of the sidewalls of the shells, the inner shell of the bathtub is equipped with elements for its transportation, the pipelines are connected at least between the inner and outer shells of the bathtub through perforated elements, and perforated tubes with nozzles are placed along the joints of the semi-cylindrical profiles with each other and with the semi-cylindrical profiles of the corresponding parts of the side walls the front housing and are made with double-row perforation in the lower part, and the output of the pressure system is connected to the input of the first actuator for controlling the flow, the output of which is connected to the input of the second actuator for regulating the flow and the inputs of the additional mixing and electrolyte intake mechanism, and the output of the second actuator to control the flow rate connected to the drain.

 In this case, the fastening of the transport elements to the inner body of the bath is carried out using a threaded connection.

 The external body of the bath is equipped with an emergency drain channel, and its bottom is made with a slope towards the drain.

 The sections of the U-shaped pipeline located on the end faces of the inner body of the bath, and the connection of the outlet of the pressure system with the input of the second actuator for controlling the flow rate are made with a bias towards the latter.

 Comparative analysis with the prototype shows that the proposed galvanic bath is characterized by the presence of two actuators for regulating the flow rate, an additional mixing mechanism and electrolyte intake, the execution of the last and each of the side walls of the inner bath body, the equipment of the inner and outer bathtubs with elements for their articulation (or the first with them), equipping the inner body of the bath with elements of its transportation and connecting the pipelines between the internal and external to rpusami bath using detachable elements, and a number of novel compounds administered actuators for flow control and further stirring mechanism and electrolyte fence.

 In FIG. 1 shows a galvanic bath with pressure system, view from the front side of the bath, section with a local cutout; in FIG. 2 galvanic bath (fragment), top view.

-образного профиля, перемешивающий механизм, выполненный в виде перфорированных трубок 5 с соплами, соединенный с помощью трубопроводов 6 с напорной системой, кольцевой заборный элемент 7, приспособление для размещения деталей (не показаны), исполнительные механизмы (ИМ) 8 и 9 для регулирования расхода, дополнительный механизм перемешивания и забора, выполненный в виде П-образного трубопровода 10 с патрубками 11, расположенными с торцовых сторон внутреннего корпуса 2 ванны и соединенными с дополнительными отверстиями 12 последнего в нижних частях внутренних поверхностей соответствующих полуцилиндрических профилей 3 и

-образных профилей боковых стенок 4 корпуса 2.The galvanic bath contains an outer casing 1, an inner casing 2, the bottom of which includes a set of semi-cylindrical profiles 3, and each of its side walls 4 is made in the form of a single sheet

-shaped profile, a mixing mechanism made in the form of perforated tubes 5 with nozzles, connected via pipelines 6 with a pressure system, an annular intake element 7, a device for accommodating parts (not shown), actuators (MI) 8 and 9 for regulating the flow , an additional mixing and fence mechanism, made in the form of a U-shaped pipe 10 with nozzles 11 located on the end faces of the inner housing 2 of the bath and connected to additional holes 12 of the latter in the lower parts tyah inner surfaces of the respective semi-cylindrical sections 3 and

-shaped profiles of the side walls 4 of the housing 2.

 The outer casing 1 and the inner casing 2 of the bath are equipped or made with elements of their articulation in the form of corner profiles 13 and 14, respectively.

 The inner housing 2 is equipped with elements 15 of its transportation.

 Mixing of the electrolyte is carried out by the pump 16.

 Perforated tubes 5 with nozzles are placed along the joints of the semi-cylindrical profiles 3 with each other and with the semi-cylindrical profiles of the corresponding parts of the side walls 4 of the housing 2 and are made with double-row perforation (not indicated) in the lower part.

 The nozzles for supplying the mixing medium are formed by the inner surface of the half-cylindrical profiles 3, half-cylindrical profiles of the corresponding parts of the side walls 4 of the bath body 2 and guides 17 Ω-shaped profile located above the perforation.

 The annular intake element 7 is made with double-row perforation (not shown), located on both sides of its vertical central axis, and is connected using fixation elements (not indicated) with pipelines 18 connected to the pump 16.

 The connection of the pipelines 6, 10, 18 between the bodies 1 and 2 of the bath is carried out by means of the corresponding detachable elements 19.

 The output of the pump 16 is connected to the input of the IM 8, the output of which is connected to the input of the IM 9 and the pipe 10 of the additional mechanism of mixing and intake of electrolyte, and the output of the IM 9 is connected to the drain.

 The body 1 of the bath is equipped with a channel 20 emergency drain, and its bottom is made with a slope (not shown) in the direction of the drain.

 The sections of the U-shaped pipe 10 located on the end faces of the bath body 2, and the connection of the output of the pump 16 with the input of the MI 9 (not shown).

 The location of the perforations of adjacent adjacent tubes 5 is made in a checkerboard pattern (Fig. 2).

 The device operates as follows.

 In the initial state, in the device for placing bath parts, the latter are absent.

 The pump 16 is, for example, in the off state.

 Using IM 8, the flow rate of the mixing medium flowing through the U-shaped pipe 10 and the pipes 11 connected to it through the openings 12 of the end walls of the bathtub body 2 was adjusted.

 IM 9 is in a closed state.

 Depending on the requirements of the process, immediately before or after loading the parts into the bath fixture, the pump 16 is turned on.

 In this case, the electrolyte of the body 2 of the bath is sucked in through two-sided perforation of the element 7 and through pipelines 18 enters the pump 16.

Further, this electrolyte from the output of the pump 16 enters:
through pipelines 6 to perforated tubes 5 (from opposite ends) through which it exits under pressure between the guides 17 and the inner surfaces of the profiles 3 and the semi-cylindrical profiles of the corresponding parts of the side walls 4 of the housing 2, providing minimal hydraulic resistance to the electrolyte jets and uniform upward stable flow of the latter;
through the MI 8 with the adjusted flow cross-section, the U-shaped pipe 10 and the nozzles 11 connected to it into the openings 12 of the end walls of the bath body 2, thereby shifting the electrolyte to the center of the body 2 to the treatment zone to intensify and improve the quality of the latter and remove the associated processing products from the end faces of the body 2 of the bath.

 After the process of processing parts, the latter is unloaded from the bathtub, and it is ready for processing (for example, chemical, as in this case) a new batch of parts.

 At the same time, foam formation and oxidation of parts are reduced (in contrast, for example, from bubbling mixing) or completely eliminated, which also improves the quality of processing.

 If necessary, drain the electrolyte (for example, in the case of a one-time use or development), the pump 16 is turned off, and IM 9 is transferred to the open state. In this case, the electrolyte through the holes 12 in the end walls of the body 2 of the bath, the pipe 11, made with a slope of the pipe 10 is fed to the drain. Part of the electrolyte from the pump outlet through its connection with MI 9, made with a slope, also enters the drain.

 If after the end of the drain it is necessary to replace the body 2 of the bath, due to the need, for example, to clean its inner walls and bottom from associated processing products, then the end walls of the body 1 of the bath, elements 19 are dismantled and with the help of elements 15 fixed, for example, by means of a threaded connection unload (output from the joint) of the body 2 from the body 1 of the bath, and instead of the body 2 in the body 1, you can place a new one in a relatively short time.

 During the operation of the bath, emergencies associated with the leakage of electrolyte at the junction of the pipelines 6, 10, 18, nozzles 11, and also from the body 2 of the bath are possible. The presence in the housing 1 of the bath channel 20 and the execution of the bottom of the housing 1 with a slope towards the drain allows for emergency drain of the electrolyte, and consequently, the reduction of time associated with the repair of equipment, since it reduces the time for cleaning the space between the buildings 1 and 2 of the bath and, in addition to Moreover, it simplifies and improves the conditions for repair and (or) replacement of failed nodes.

The design of the bath allows the installation of additional equipment with minimal cost and time:
heaters-coolers (for example, on the pipeline connecting the inlet of the pump 16 with the outputs of the pipelines 18);
filters (for example, on the pipeline at the outlet of the pump 16);
Trunk sensors of pH, concentration of the main components of the electrolyte, etc.

 If necessary, the electrodes (for electrolytic baths) can be placed in the grooves (not shown in Fig. 2) of the element 7 or directly at the side walls 4 of the body 2 of the bath.

Thus, the proposed device in comparison with the prototype allows
significantly expand the technological capabilities of the galvanic bath by providing the possibility of draining the electrolyte from the bottom, including a set of semi-cylindrical profiles;
to simplify the design and replacement of failed elements by ensuring the modular implementation of the main parts of the bath;
to increase the quality of processing parts by at least 20-30% by ensuring mixing of the electrolyte on the end faces of the bath and the directional movement of the electrolyte towards the center of the latter.

 The implementation of the proposed device is quite simple and does not meet fundamental difficulties.

For example, as actuators for regulating the flow, depending on the way they are controlled (manual or automatic, remote), the device can use shut-off flanged valves type 15NZh58bk16 or pneumatic valves 25ch7p2, which can be controlled using electromagnetic distributors of compressed air type KE- 2 UHLCH (U _pit 24 V), controlled remotely (automatically).

 The inner body of the bath may be welded from sheets, for example, vinyl plastic of the appropriate profile and size, or obtained by injection molding from polypropylene.

 All pipe lines, connection and transportation elements can be made of titanium, fluoroplastic or acid heat-resistant rubber, depending on the purpose.

Claims (4)

1. Galvanic bath containing an external and internal housing, the bottom of the last of which includes a set of semi-cylindrical profiles, a mixing mechanism made in the form of perforated tubes with nozzles, a pressure system, an annular intake element and a device for accommodating parts, characterized in that it is equipped with two actuators for regulating the flow rate, an additional mechanism for mixing and collecting electrolyte, each of the side walls of the inner body of the bathtub is made in the form of a single fox and at least

-shaped profile, and an additional mechanism of mixing and sampling of the electrolyte is made in the form of a U-shaped pipe with nozzles located on the end faces of the inner body of the bath and connected to additional holes of the latter in the lower parts of the inner surfaces of the corresponding semi-cylindrical profiles and

-shaped profiles by the side wall, the inner and outer shells of the bathtub are equipped with or made with elements of their articulation in the form of corner profiles located in the upper part of the sidewalls of the shells, the inner shell of the bathtub is equipped with elements for its transportation, the connection of pipelines between at least the inner and outer shells of the bathtub is carried out through the corresponding detachable elements, and perforated tubes with nozzles are placed along the joints of the half-cylindrical profiles between themselves and half-cylindrical profiles of the corresponding parts of the side walls of the inner case and are made with double-row perforation in the lower part, the outlet of the pressure system connected to the input of the first actuator for controlling the flow, the output of which is connected to the input of the second actuator for regulating the flow and the inputs of the additional mixing and electrolyte intake mechanisms, and the output of the second actuator for controlling flow is connected to the drain.  2. The device according to claim 1, characterized in that the fastening of the transport elements to the inner body of the bath is made using a threaded connection.  3. The device according to claim 1, characterized in that the outer casing of the bath is equipped with an emergency drain channel, and its bottom is made with a slope towards the drain.  4. The device according to claim 1, characterized in that the sections of the U-shaped pipe located on the end sides of the inner body of the bath, and the connection of the outlet of the pressure system with the input of the second actuator for controlling the flow rate are made with a bias towards the latter.

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