RU199253U1 - DEVICE FOR WELDING MAGNETIZED PIPELINES - Google Patents

Abstract

The utility model relates to the field of electric butt welding and can be used in the construction and repair of pipelines with residual magnetization. The technical result is to create a device that can significantly improve the quality of the weld by eliminating the effect of magnetic blast by automatically adjusting the amplitude of the welding current positive and negative. polarities at a constant frequency of current. A device for welding magnetized pipelines containing a welding rectifier with a falling current-voltage characteristic, an inverter-commutator with a control unit and a controller, additionally contains a push-pull high-frequency inverter and an electronic unit for regulating the amplitude of the welding current, while the inverter commutator is made with the possibility of smooth regulation of the frequency of the welding current in a given range, and the controller is configured to control a push-pull high-precision inverter and an electronic control unit a amplitudes of the welding current of positive and negative polarity in a given range. 2 ill.

Description

The utility model relates to the field of electric butt welding and can be used in the construction and repair of pipelines with residual magnetization.

The presence of pipes near power lines, as well as the electrochemical protection of pipes, the earth's magnetic field, elastic mechanical stresses, technological magnetization of pipes during their manufacture and transportation lead to the appearance of the effect of magnetization. But the greatest danger is posed by in-line diagnostics using the magnetic flaw detection method, i.e. diagnostics of main pipelines using in-line flaw detectors (crawlers), after which the value of the residual magnetic field in the groove of the welded joint can reach 100-150 mT (1000-1500 Gs) and more. The residual magnetization induced as a result of flaw detection causes the phenomenon of magnetic blast, i.e. deflection of the welding arc under the influence of a magnetic field.

When welding in a weak magnetic field, magnetic blast manifests itself as a static or slowly changing deflection (arching) of the welding arc. In a strong magnetic field, these are fast chaotic movements of the arc. The manifestations of magnetic blast impair the stability of the welding arc, cause strong spattering of metal or ejection of metal from the weld pool, change the depth of metal penetration, disrupt the metal transfer process in the arc, which complicates welding and leads to a decrease in the quality of the weld (appearance of lack of penetration, slag inclusions, cracks violation of the shape and structure of the seam), In very strong magnetic fields, the magnetic blast can be so great that it "blows away" the welding arc at the moment of ignition and welding becomes impossible (http://naukarus.com/sposoby-povysheniya-kachestva-svarki -gazoprovodov-za-schet-ptedvaritelnogo-ustraneniya-ostatoehnoy-namagnichennosti).

In addition, when cutting a pipe during its manufacture in the zone of heating and natural hardening of the pipe metal, conglomerates of permanent micromagnets are formed, which cannot be demagnetized except by heating the pipe to the Curie point, which cannot be done in field conditions.

The magnetization of pipelines creates great difficulties in their construction and repair. One of the ways to solve the problem of welding magnetized pipes is to demagnetize the pipe joints before welding, or to use the temporary demagnetization mode (compensation of the magnetic field of the pipe) during the welding process.

Known devices for welding magnetized pipelines (RU 112494, publ. 10.01.2012, RU 87041, publ. 20.09.2009, JP 2003290920, publ. 14.10.2003, CN 2899051, publ. 09.05.2007, US 2009072937, publ. 19.03. 2009), in which additional equipment is used to relieve excess magnetic field strength, specially designed for this, for example, a magnetic flux compensator, which is an inductance coil put on the joint to be welded. Such domestic special devices for demagnetizing pipelines, such as the AURA-7001-3 installation (http://totaltofg.ru/index/aura_7001_3/0-308), operate according to a similar principle. or device LABS-7K (http: // www. labs7.rf).

Such additional equipment requires additional energy consumption, specially trained operators, as well as increased labor intensity when installed on a pipeline in the field.

There are also known devices for welding magnetized pipelines, allowing them to be welded with local demagnetization of welded joints using auxiliary equipment, for example, a superimposed coil, with the help of which an alternating magnetic field is created, which allows minimizing arc deflection (RU 2344909, publ. 27.01.2009).

The disadvantage of such a device is its relative structural complexity, increased time required to install and move auxiliary equipment, the need to use an additional current source (transformer) for it.

The prototype of the claimed utility model is a device for arc welding of magnetized pipes (RU 2245231, publ. 27.01.2005).

The device for arc welding of magnetized pipes contains a welding rectifier, the output of which is connected to the input of an inverter with a control circuit containing a comparison unit, an amplifier, a reference voltage generation unit and a program unit. During the operation of the device, the direct current of the welding rectifier is converted by an inverter into an alternating current of a rectangular shape. When changing the polarity, the program block sets a fixed value for the maximum duration of the current flow of a given polarity. In case of deflection of the arc under the influence of an external magnetic field and a corresponding increase in its voltage, the comparison unit compares the arc voltage with a reference value specified by the reference voltage generation unit in the interval of a given period. At the moment the arc voltage reaches the reference value, the comparison unit through the amplifier gives the inverter a signal to change the polarity. Simultaneously, the signal from the amplifier enters the program block, which cancels the signal to change the polarity according to the program and sets a fixed value for the limiting duration of the current of the other polarity, and the process is repeated.

The device is based on the use of the method of controlling the frequency of alternating current depending on the magnetic field strength and, as a consequence, on the change in the arc voltage, which leads to the appearance of a residual effect of magnetic blowing when the frequency of the alternating current is controlled downward and negatively affects the quality of the weld.

The disadvantage of the prototype is the low quality of the weld due to the appearance of the effect of residual magnetic blowing.

The technical result consists in creating a device that allows to significantly improve the quality of the weld by eliminating the effect of magnetic blast by automatically adjusting the amplitude of the welding current of positive and negative polarities at a constant frequency of the current.

The technical result is achieved in that a device for welding magnetized pipelines containing a welding rectifier with a falling current-voltage characteristic, an inverter-switch with a control unit and a controller, additionally contains a push-pull high-frequency inverter and an electronic control unit for the amplitude of the welding current, while the inverter-switch is made with the possibility of smooth regulation of the frequency of the welding current in a given range, and the controller is configured to control a push-pull high-precision inverter and an electronic unit for controlling the amplitude of the welding current of positive and negative polarity in a given range.

The essence of the utility model is illustrated by the following figures.

FIG. 1 - diagrams of the dependence of the welding arc voltage and welding current on time, where: U - arc voltage;

- напряжение дуги положительной полярности;

- arc voltage of positive polarity;

- напряжение дуги отрицательной полярности;

- arc voltage negative polarity;

- опорное напряжение дуги положительной полярности;

- reference arc voltage of positive polarity;

- опорное напряжение дуги отрицательной полярности;

- reference arc voltage of negative polarity;

I _c - welding current;

A1 ⁺ - the value of the increment of the welding current; Al ^- - value of reduction of welding current.

The diagrams in FIG. 1 explain the process of welding magnetized pipes using the claimed device, which ensures stable quality of the weld by eliminating the effect of magnetic blast.

Welding is carried out under the influence of external magnetic fields on alternating current of increased frequency. In accordance with the technological requirements, the value of the current of positive and negative polarity 1d and the frequency of the welding alternating current are preset. Depending on the magnitude of the disturbing effect of the external magnetic field during the welding process, the amplitude of the current of positive and negative polarity is regulated.

The transverse magnetic field, superimposing on the own field of the arc in the contour, can cause its deviation in one direction or another. Since an alternating electromagnetic force acts on the arc under the influence of an alternating current, the arc oscillates in both directions from the equilibrium position with a given alternating current frequency.

выше значения величины опорного напряжения

осуществляется регулировка амплитуды тока положительной и отрицательной полярности на величину А1⁺.When the arc deviates from the position coaxial with the electrode during the current flow of the corresponding polarity, its column is deformed and lengthened, which leads to an increase in the arc voltage. The arc voltage is compared with the reference voltage, and as the arc voltage increases

higher than the value of the reference voltage

the amplitude of the current of positive and negative polarity is adjusted by the value A1 ⁺ .

становится ниже значения величины опорного напряжения

и осуществляется регулировка амплитуды тока положительной и отрицательной полярности на величину Al^-.When the polarity of the current changes and the arc passes through the equilibrium position, the arc column is shortened, which leads to a decrease in the arc voltage. In this case, the arc voltage

falls below the value of the reference voltage

and the amplitude of the current of positive and negative polarity is adjusted by the value Al ^- .

FIG. 2 is a block diagram of a device for welding magnetized pipes. The device for welding magnetized pipes contains a welding rectifier 1 with a falling current-voltage characteristic, an input network rectifier 2, a smoothing filter 3, a push-pull high-frequency inverter 4, a power transformer 5 and an output high-frequency rectifier 6 connected to the input of a transistor switch-inverter 7. The latter is used to form alternating welding current with adjustable frequency at the power terminals of the source "+" and "-". The control system 8 consists of a unit 9, which serves to control the inverter-commutator 7, a controller 10, which serves to control a push-pull high-frequency inverter 4 and an electronic unit for regulating the amplitude of the welding current 11 of positive and negative polarities in a given range.

The device when welding magnetized pipes works as follows. A supply voltage of 380 V is supplied to the input mains rectifier 2, from the output of which a voltage of about 540 V is supplied through a smoothing filter 3 to a push-pull high-frequency inverter 4 operating at a frequency of 22 kHz. With respect to the output of the midpoint of the secondary winding of the power transformer 5, the rectifier 6 generates a bipolar voltage.

По изменению выходного напряжения электронный блок регулятора амплитуды сварочного тока 11 автоматически осуществляет регулировку амплитуды тока положительной и отрицательной полярности, что позволяет придать необходимые свойства сварочной дуге для получения качественного сварного соединения.The transistor switch-inverter 7 generates an alternating current with a value from 25 to 250 A. The frequency of the welding alternating current can be smoothly adjusted in a wide range from 200 to 800 Hz, in contrast to the prototype, where there is no adjustment. The controller 10, depending on the magnitude of the disturbing effect of the external magnetic field, compares the output voltage with the reference voltage

By changing the output voltage, the electronic unit of the welding current amplitude regulator 11 automatically adjusts the current amplitude of positive and negative polarity, which makes it possible to give the necessary properties to the welding arc to obtain a high-quality welded joint.

After welding the root pass at an alternating current of increased frequency, the magnetization of the pipes being welded drops to zero, which makes it possible to weld subsequent passes in DC mode on the same device. The transition to direct current welding is carried out by simply switching the operating mode of the inverter-commutator 7 without switching welding cables.

The tests carried out have proven the efficiency of the declared device for welding magnetized pipes.

Claims (1)

A device for welding magnetized pipelines containing a welding rectifier with a falling current-voltage characteristic, an inverter-commutator with a control unit and a controller, characterized in that it additionally contains a push-pull high-precision inverter and an electronic unit for regulating the welding current amplitude, while the inverter commutator is made with the possibility of smooth regulation of the frequency of the welding current in a given range, and the controller is configured to control a push-pull high-frequency inverter and an electronic unit for regulating the amplitude of the welding current of positive and negative polarity in a given range.

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