UA16117U - Electrode device - Google Patents

Abstract

The proposed electrode device for corrosion monitoring contains a casing and an electrode, which is installed in the casing. The casing of the electrode is installed at the monitored object by thread connection and insulating sealing gaskets. The end surface of the electrode does not protrude outside the casing.

Description

Description of the invention

The useful model refers to measuring equipment, in particular to electrochemical destruction meters 2 of the equipment.

A known electrode assembly consists of a copper cathode, a steel rod immersed in a hollow porcelain, a flange with sealing and insulating material, a nut for electrical input and a fastening nut (French Pat. 1245108 (1960)).

Among the reasons that prevent the achievement of the technical result noted below when using the 70 known electrode assembly is the fact that when installing the electrode assembly on the already working equipment, it is necessary to make additional holes in the equipment body for attaching the flange of the electrode assembly, which causes additional stress concentrations that are not taken into account in the design calculation, as well as additional labor costs. In addition, when using the known electrode assembly in equipment with moving working media, the electrode may be subject to erosion destruction, which may affect the 79 working mode of the electrode assembly.

The closest to the device claiming the same purpose is an electrode assembly for horizontal and vertical positioning of the cathode in devices, consisting of a fitting that is welded to the body of the technological equipment, a cathode flange and a fitting flange, between which an electrode is installed that crosses the entire capacity device, a set of sealing gaskets made of rubber and paronite, as well as an insulating gasket made of textolite. (Kuzub V.S. Anodic protection of metals from corrosion. - M.:

Chemistry, 1983. - 184 p., illustrations)

The reasons that prevent the achievement of the technical result specified below when using a known electrode assembly include the fact that when installing such an assembly on already working equipment, a welded connection is used, which affects the change in the structure and properties of the material of the equipment 22 near the welded seam, and so on additional technological and organizational preparation for welding works is necessary. The design of the electrode assembly includes sealing and insulating gaskets of various materials, which require additional costs during its manufacture and maintenance.

An electrode passing through the entire capacity of the technological equipment in the presence of moving media may be subject to erosive destruction, which may affect the operating mode of the electrode unit. - 30 The essence of a useful model is as follows. "-

Optimal management of technological processes, economic use of raw materials and energy resources, quality of manufactured products in many cases depend on accurate and continuous control of various technological parameters, rational use of the material base and high organization of repair and preventive Ge) works. 3o Analysis of the development of irreversible processes of corrosion of technological equipment of the chemical and oil refining industry plays a particularly important role in preventing emergency equipment failure and planning repair work.

The implementation of the analysis of the development of various corrosion processes is carried out in a number of ways, including both periodic and continuous. In recent years, there has been a steady trend towards the organization of continuous corrosion monitoring in production conditions in addition to periodic corrosion control. The use of corrosion control during the entire operation of the equipment ensures its operability at

With" minimum expenses.

With the help of continuous corrosion control of industrial equipment, a number of tasks can be solved: 45 determining the correctness of the choice of structural material and evaluating its characteristics during operation;

Ge") detection of changes in the mode of operation and deviations of technological parameters that affect the increase in the rate of corrosion; - timely receipt of data on the development of corrosion processes and early prevention of corrosion damage; - 70 the possibility of planning maintenance and repair of equipment, as well as reducing costs for current and major repairs; tm prompt use of anti-corrosion protection measures and assessment of their effectiveness; optimization of equipment operating conditions based on the relationship between technological parameters and the corrosion process (the change in technological parameters can be used to regulate the rate of corrosion); the use of corrosion monitoring as a component of the technological process management system, while the obtained data can complement the data of other methods of production control and ensure the improvement of the maintenance of technological installations; in this case, it is necessary to use computers to process information.

A relatively simple and immediate method of corrosion monitoring is the control of the corrosion potential and determination of the corrosion state of the metal based on known polarization characteristics.

To solve various practical tasks related to the continuous monitoring of corrosion processes of technological equipment, it is necessary to take into account the simplicity and cost-effectiveness of the implementation of the method described above.

The above-mentioned designs of known electrode units contain factors of manufacturing complexity, the use of sealing and insulating elements of different design and composition, and a non-rational 62 method of introducing the electrode unit into the body of the technological equipment.

The task of the useful model is to optimize manufacturing, installation, maintenance, and operational characteristics to determine the universal design of the electrode assembly.

The technical result is to modernize the known designs of electrode assemblies, to optimize production, installation and maintenance, as well as to eliminate the influence of their installation on the structure and mechanical characteristics of the design of the technological equipment.

The noted technical result in the implementation of a useful model is achieved by: - exclusion of additional welded seams, which are guaranteed stress concentrators and likely places of provocation of local corrosion processes and transcrystalline cracks of stainless steels; 70 - the simplicity of the design, which ensures a reduction in costs for the manufacture and maintenance of the electrode unit; - simplifying the assembly and disassembly of the electrode assembly, which directly affects the downtime of the equipment of large-capacity chemical industry enterprises.

When examining the distinctive features of the described electrode unit, no similar solutions were found that 7/5 allow to achieve the considered technical result.

On the basis of what has been stated, it can be asserted that the set of distinctive features set forth in the formula of a useful model is necessary and sufficient for obtaining the required technical result.

Figure 1 shows an electrode assembly for corrosion control.

The evidence confirming the possibility of implementing a useful model with the above-mentioned technical result is as follows.

The electrode assembly consists of an electrode 1, a body 2, a sealing gasket made of dielectric material 3, insulating gaskets 4 and 5, a mounting nut 6, a washer 7, a locking washer 8 and a nut for connecting the cable 9.

Electrode 1 is a rod that does not cross the flow of the working medium, which is moving, made of the same material as the technological equipment for which corrosion processes are monitored.

The body of the electrode unit 2 has a threaded section for installation in the body of technological equipment without the use of welding work and the execution of additional mounting holes, as well as a hexagonal part that ensures ease of installation and dismantling of the electrode unit, using a standard tool.

Sealing and insulating gaskets 3, 4, 5 are made of fluoroplastic or other material that provides similar mechanical and electrochemical characteristics to M zo.

All elements of the proposed design are performed by full-time production services, without the involvement of highly qualified specialists. "-

Thus, the evidence presented above indicates the fulfillment of the following set of conditions when using the claimed useful model: ise) - an electrode assembly that implements the claimed useful model, in its implementation is intended in the chemical and "- oil refining industry for monitoring various corrosion processes and can be used as a universal electrode unit for controlling corrosion processes. - there is no need to involve third-party organizations for the manufacture of the declared electrode unit, in the form in which it is characterized in the stated formula of the useful model. The elements that make up the structure are made by full-time production employees. The requirements for the manufacture of structural elements of the electrode assembly do not require high qualification of the performers; - assembly and disassembly of the electrode assembly is maximally simplified and minimized in time; ;" - the electrode assembly that implements the declared useful model, when it is implemented, is able to ensure the achievement of the result expected by the applicants.

The above fully applies to the proposed electrode assembly, the advantage of which is that its production does not require large production costs, and it can be quickly implemented on an industrial scale.

Me, The electrode assembly belongs to the category of measuring equipment and is of great interest as a universal electrode assembly. - 50 more

Claims (1)

The formula of the invention Electrode unit containing a housing installed in the corrosion control facility with a working electrode isolated from the housing by gaskets made of dielectric material, as well as gaskets for sealing, which is distinguished by the fact that the sealing and insulating gaskets are made of the same dielectric material material, the electrode has a contact surface that does not protrude inside the corrosion control object, and the housing is installed on the corrosion control object using a threaded connection and a hexagonal part. 60 b5