RU2152271C1 - Gear cleaning surface of article with arc discharge - Google Patents

Abstract

FIELD: equipment related to construction and repair of main pipe-lines in oil and gas production industry. SUBSTANCE: gear has separable electric arc chamber, magnetic system, article subject to cleaning, package of electrodes for electric arc cleaning, water cooling system, system for pumping of protective, reducing or protective- reducing gases, filters, after-burners of reducing gas, mechanism moving plant of electric arc cleaning relative to cleaned article, mechanism opening and shutting doors of plant of electric arc cleaning. Filters and after-burners are arranged in turn across outlet of gases pumped through. EFFECT: increased productivity and quality and expanded assortment of cleaned surfaces. 1 dwg

Description

 The device relates to equipment for removing scale, rust and other contaminants from the surface of products at various stages of the technological processes of its processing and can be used in enterprises of ferrous and non-ferrous metallurgy.

 Known devices for cleaning the surface of products by arc discharge (ed. Certificate of the USSR N 256461, C 21 C 5/56, 1968; N 997889, B 21 B 45/04, 1981; N 1113196, B 21 B 45/04; 1983; N 1319391, B 21 B 45/04, 1981; N 1570863, B 23 H 7/36, 1988; N 1700843, B 08 B 7/00, 1986; US patent N 4122292, H 05 H 1/26, 1988; N 5201206, B 21 B 45/02, 1993; French patent N 2496523, B 01 K 1/00, 1987; N 2702973, B 21 B 45/04, 1994; UK patents N 1532075, H 05 B 7/08, 1984; N 2093388, C 21 D 1/14, 1990; Germany’s patent N 3106894, B 01 K 1/00, 1988; Terekhov VP Cleaning the surface of a wire with an arc discharge. Bull. Ferrous metallurgy, M., 1976 , N 7, pp. 49-50, VK Litvinov and others. "Plasma and electron-plasma processing and surface heating metal in the manufacture of wire and tape. "Iron and steel industry. A series of metal science and heat treatment, 1989, N 2, Maksimov L.Yu., Krivonos GA Ecologically safe cleaning of metals in the stream. Heavy engineering, 1997, N 5, s . 36, Fig. 3 and others). Of the known devices closest to the proposed is a "Device for cleaning wire rod by arc discharge (ed. St. N 1113196, B 21 B 45/04, 1983), which is selected as a prototype.

 The specified device provides electric arc cleaning only wire rod. To clean other products, for example, the external surface of pipelines before applying protective coatings, from spent protective coatings, the places of welded joints, it is necessary to change the sealing wires. To clean the surface of products with a complex profile, the implementation of sealing wiring is already a difficult technical task.

 In addition, the disadvantage of this device is its low productivity, due to the low cleaning speeds due to a breach of tightness in the electric arc chamber with an increase in the speed of drawing the product through the sealing wires.

 The aim of the invention is to expand the range of products being cleaned and increase productivity and quality of cleaning by increasing the speed of cleaning.

 This goal is achieved in that the device for cleaning the surface of the products by an arc discharge, containing an electric arc chamber with a ring water-cooled electrode and with a protective, recovery or protective-recovery gas pumping system covered by a magnetic system, and a power source equipped with additional electrodes integrated into an electrode package electric arc cleaning, the mechanism for moving the device relative to the surface of the product being cleaned, filters and afterburners, and the electric arc chamber is split (clamshell) allowing its placement on an erasable product such as a pipe. Filters and afterburners are arranged sequentially at the outlet of the pumped gases.

The block diagram of the proposed device is presented in FIG. 1 and section AA in FIG. 2, where the following notation is introduced:
1 - electric arc chamber,
2 - magnetic system
3 - product to be cleaned,
4 - a package of electrodes for cleaning the arc,
5 - water cooling system,
6 - power supply system of the electrodes,
7 - a system for pumping protective, reducing or protective-reducing gas,
8 - filters,
9 - afterburners,
10 is a mechanism for moving the installation of electric arc cleaning relative to the cleaned product,
11 - the mechanism for opening and closing the shutters of the installation of electric arc cleaning.

 The device operates as follows. Initially, the electric arc chamber 1 opens (at the same time the magnetic system 2 and the package of electrodes for electric arc cleaning 4, connected to it, extend) and the whole system is placed on the product being cleaned 3, for example, on the pipeline. Then, protective, reducing or protective-reducing gas is supplied to the electric arc chamber 3 from the pumping system 7. A voltage is applied to the package of electrodes of the electric arc cleaning 4 from the power supply system 6 and electric discharges are excited between the electrodes 4 and the product to be cleaned 3, while the magnetic system 2 the movement of these discharges on the surface of the workpiece 3. In this case, the entire installation of electric arc cleaning by means of the movement mechanism 10 moves along the workpiece 3. In this case, cleaning the surface of the product to be cleaned 3. By means of filters 8, the pumped gases are cleaned through the electric arc chamber 1. By means of afterburners 9, the combustion gases pumped through the electric arc chamber 1 are burned. arc cleaning 4, water cooling system 5 is carried out by a mechanism for opening and closing the shutters of the installation of electric arc cleaning 11.

 Inert gases, nitrogen, hydrogen, ammonia, propane and other gases or mixtures thereof can be used as pumped gases. By means of these gases, atmospheric air containing oxygen is displaced from the electric arc chamber 1, which interferes with the electric arc cleaning by re-oxidizing the surface and destabilizing effect on electric arc discharges.

 Pumping of reducing gases through the electric arc chamber 1 helps to accelerate the cleaning of the surface of the cleaned product 3 from oxides as a result of chemical reduction reactions on the surface of the cleaned product 3.

 Filters 8 trap smoke and aerosols that form in the area of electric arc surface cleaning, especially when cleaning old polymer coatings. In addition, the filters create gas-dynamic resistance to the penetration of atmospheric air into the electric arc chamber 1, in particular into the zone of electric arc discharges.

 Afterburners 9 are used for afterburning of pumped reducing gases (hydrogen, ammonia, propane, etc.) in order to prevent explosive atmosphere at the place of operation of the device for cleaning products by arc discharge.

 Thus, the proposed device in comparison with the prototype and other similar devices provides an extension of the range of cleaned products. This is achieved by the fact that the products to be cleaned are not introduced into the electric arc chamber through the sealing wires, the high-quality performance of which for various styles is a difficult technical task, but placed by expanding the electric arc chamber and placing it on the product being cleaned and moving it along the product being cleaned. In this case, the product to be cleaned remains stationary, and the installation of electric arc cleaning is moved at different speeds relative to its surface.

 The proposed device for cleaning the surface of products by arc discharge can dramatically solve the problem of cleaning new and old pipelines before applying protective coatings.

Claims (1)

 A device for cleaning the surface of products by an arc discharge, containing an electric arc chamber with a ring water-cooled electrode and with a system for pumping a protective, reducing or protective-reducing gas covered by a magnetic system, and a power source, characterized in that it is equipped with additional electrodes integrated into a package of electrodes of an electric arc cleaning mechanism of moving the device relative to the surface of the cleaned product, filters and afterburners, and the device is made with me arc chamber and electrodes for placing the device on the erasable product of various profiles and lengths, and filters and afterburners are arranged in series at the output of pumped gases.

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