RU42691U1 - DEVICE FOR MAGNETIZATION AND COMPENSATION OF RESIDUAL MAGNETIC FIELDS IN METAL STRUCTURES - Google Patents

Abstract

A device for demagnetization and compensation of residual magnetic fields in metal structures, containing a current source, demagnetizing circuit, a microcontroller with programmable waveform of the demagnetization current, a current sensor, a reversing current regulator, characterized in that a static converter is used as a current source, the demagnetizing circuit is connected in series with a current sensor, which forms a negative feedback circuit with a reversible current regulator through a microcontroller equipped with remote control.

Description

The utility model relates to general engineering, pipeline technology and can be used to demagnetize and compensate for residual magnetic fields in the welded gaps of metal structures and pipelines for transporting various media, such as water pipes, oil pipelines and gas pipelines, in order to eliminate magnetic blast and ensure high-quality electric arc welding.

A device for demagnetizing thick-walled structures containing a reversible rectifier used as the exciter of a DC generator, to the terminals of which a demagnetizing circuit is connected, a control circuit for a reversing rectifier with software devices and a current sensor (AS USSR No. 1372384, class N 01 F 13 / 00, bull. No. 5.1988).

The disadvantages of the known device for demagnetization are low resource and reliability, large weight and dimensions, since a DC generator is used as a current source (the so-called GD system, that is, a Generator-Motor).

The problem solved by the utility model is to increase the resource and reliability of the device, as well as reduce weight and size characteristics.

The essence of the utility model is that a device for demagnetization and compensation of residual magnetic fields in metal structures, containing a current source, a demagnetizing circuit, a microcontroller with programmable signal form of the demagnetization current, a current sensor, a reversible current controller, has a static converter as a current source, at the same time, the demagnetizing circuit is connected in series with the current sensor, which forms a negative feedback circuit with a reversing current regulator through microcontroller equipped with a remote control.

The implementation of the current source in the form of a static converter, connecting the demagnetizing circuit in series with the current sensor and forming a negative feedback circuit with a reversible current regulator through a microcontroller equipped with a remote control, allows to increase the resource and reliability of the device, as well as reduce weight and size characteristics.

The drawing shows a structural diagram of a device for demagnetization and compensation of residual magnetic fields in metal structures.

A device for demagnetization and compensation of residual magnetic fields in metal structures contains a current source 1, a demagnetizing circuit 2, a microcontroller with programmable waveform demagnetization current 3, a current sensor 4, a reversing current controller 5, a remote control 6.

A device for demagnetization and compensation of residual magnetic fields in metal works as follows.

Depending on the commands received from the remote control 6, a microcontroller with programmable signal shape of the demagnetization current 3 generates either alternating voltage pulses of a special shape, decaying according to a certain law (demagnetization mode), or a constant voltage, the level and polarity of which are set from the remote control b (compensation mode). This voltage (demagnetization mode or compensation mode) is the control one for the reversible current regulator 5. Thus, the current from the current source 1, which is used as a static converter, passing through the reversing current regulator 5, has parameters in the demagnetizing circuit 2 corresponding to the established mode. The inclusion of the demagnetizing circuit 2 in series with the current sensor 4, which forms a negative feedback circuit with a microcontroller with software setting the waveform of the demagnetization current 3 and a reversing current regulator 5, allows automatic maintenance of the current parameters of the set mode.

A device for demagnetization and compensation of residual magnetic fields in metal structures made according to the proposed structural scheme, in which a static converter is used as current source 1, has a long resource, reliability and low weight and size characteristics.

Claims (1)

A device for demagnetization and compensation of residual magnetic fields in metal structures, containing a current source, demagnetizing circuit, a microcontroller with programmable waveform of the demagnetization current, a current sensor, a reversing current regulator, characterized in that a static converter is used as a current source, the demagnetizing circuit is connected in series with a current sensor, which forms a negative feedback circuit with a reversible current regulator through a microcontroller equipped with remote control.