RU135846U1 - DEVICE FOR DEMAGNIZING MAGNETIC SCREENS - Google Patents

Abstract

1. A device for the demagnetization of magnetic screens containing a low-frequency power source and a low-frequency demagnetization coil, the first input terminal of which is connected to the first output terminal of a low-frequency power source, characterized in that a relay and a relay control unit are connected, the output of which is connected to the control input the relay, and the signal input is connected to the relay input and to the second output terminal of the low-frequency power source, as well as the first and second rectifier diodes, while the cathode terminal of the first rectifier diode and connected to the first output of the relay, the anode terminal of the second rectifier diode is coupled to the second output switch, and the anode terminal of a first rectifier diode and the cathode terminal of the second rectifier diode connected to the second terminal of the demagnetization coil chastoty.2 low. The device according to claim 1, characterized in that an industrial frequency network is used as a low-frequency power source. The device according to claim 1, characterized in that the relay control unit is made in the form of a frequency period counter, the input of which is the signal input of the relay control unit, and a trigger with a counting input, the input of which is connected to the overflow output of the frequency period counter, and the output is the output of the unit relay control.

Description

The utility model relates to electrical engineering and can be used to demagnetize magnetic screens.

A device is known [RU 2335819, H01F 13/00, C2, 10.10.2008] containing a cylindrical body of magnetically soft material, on the surface of which at least one magnetizing belt is placed, consisting of uniformly spaced wedge-shaped poles of permanent magnets facing to the inner surface of the pipeline, and, on the outer surface of the poles, brushes of reinforced cables of magnetically soft material are attached.

The disadvantage of this device is the relatively narrow functionality.

The closest in technical essence to the proposed is a device [RU 2419906, C1, H01F 13/00, 05/27/2011] containing a solenoid, a low-frequency demagnetization coil, a high-frequency demagnetization coil, which are located coaxially one relative to the other and are connected to low power supplies frequency and high frequency, respectively, as well as power control devices connected, on the one hand, to the corresponding power supplies, on the other hand, to the control unit, and, at the input and output of the solenoid housing, Lena end sensors.

The disadvantage of this device is the relatively narrow functionality due to the fact that the device allows demagnetization of long materials and products made of ferromagnetic materials, but does not allow demagnetization of screens of magnetically soft materials with high magnetic permeability.

The problem to which the utility model is aimed is to expand the functionality to ensure the possibility of demagnetization of screens of magnetically soft materials with high magnetic permeability.

The required technical result is to expand the functionality by introducing an additional arsenal of technical means providing the ability to demagnetize screens of magnetically soft materials with high magnetic permeability.

The problem is solved, and the required technical result is achieved by the fact that in the device containing a low-frequency power supply and a low-frequency demagnetization coil, the first input terminal of which is connected to the first output terminal of the low-frequency power supply, according to the utility model, a relay and a relay control unit are introduced the output of which is connected to the control input of the relay, and the signal input is connected to the input of the relay and to the second output terminal of the low-frequency power supply, as well as the first and second rectifier diodes, while the cathode terminal of the first rectifier diode is connected to the first relay output, the anode terminal of the second rectifier diode is connected to the second relay output, and the anode terminal of the first rectifier diode and the cathode terminal of the second rectifier diode are connected to the second terminal of the low-frequency demagnetization coil.

In addition, the required technical result is achieved by the fact that a power frequency network is used as a low-frequency power source.

In addition, the required technical result is achieved in that the relay control unit is designed as a frequency period counter, the input of which is the signal input of the relay control unit, and a trigger with a counting input, the input of which is connected to the overflow output of the frequency period counter, and the output is the output relay control unit.

The drawing shows a functional electrical diagram of a device for the demagnetization of magnetic screens.

The device for the demagnetization of magnetic screens contains a low frequency power source 1 and a low frequency demagnetization coil 2, the first input terminal of which is connected to the first output terminal of the low frequency power source 1.

In addition, the device for the demagnetization of magnetic screens contains a relay 3 and a relay control unit 4, the output of which is connected to the control input of the relay 3, and the signal input is connected to the input of the relay 3 and to the second output terminal of the low-frequency power source 1.

The device for the demagnetization of magnetic screens also contains the first 5 and second 6 rectifier diodes, while the cathode terminal of the first rectifier diode 5 is connected to the first output of the relay 3, the anode terminal of the second rectifier diode 6 is connected to the second output of the relay 3, and the anode terminal of the first rectifier diode 5 and the cathode terminal of the second rectifier diode 6 are connected to the second terminal of the low frequency demagnetization coil 1.

As a low-frequency power source, an industrial frequency network of 220 V, 50 Hz can be used. The relay control unit can be made in the form of a frequency period counter (for example, in the form of a pulse shaper and a pulse counter connected in series), the input of which is the signal input of the relay control unit 4, and a trigger with a counting input, the input of which is connected to the overflow output of the frequency period counter (pulse counter), and the output is the output of the relay control unit 4. The frequency period counter can advantageously be set to a time interval of 0.5 s, which allows switching the voltage from the input of the relay 3 alternately to the time interval of 0.5 s to the first and second outputs of the relay 3.

A device for demagnetizing magnetic screens as follows.

The device is designed to demagnetize screens of magnetically soft materials with high magnetic permeability. It forms a strong magnetic field of low frequency due to the formation of an alternating field of low frequency from an alternating field of industrial frequency. This is done by passing a low frequency into the coil 1, which creates a magnetic field alternately, then the voltage is only positive half-cycles, then the voltage is only negative half-periods of the mains current 220 V, 50 Hz. It has been experimentally confirmed that the optimal mode is when switching is performed every 0.5 s. For this, a power frequency network of 220 V, 50 Hz can be used as a low-frequency power supply 1. The relay control unit 4 is configured for a time interval of 0.5 s, which allows you to switch the voltage from the input of the relay 3 alternately to the time interval of 0.5 s to the first and second outputs of the relay 3.

Thus, thanks to the introduction of an additional arsenal of technical means (in particular, the relay and the relay control unit, the output of which is connected to the control input of the relay, and the signal input is connected to the relay input and to the second output terminal of the low-frequency power source, as well as the first and second rectifier diodes, in this case, the cathode terminal of the first rectifier diode is connected to the first relay output, the anode terminal of the second rectifier diode is connected to the second relay output, and the anode terminal of the first rectifier diode and the cathode terminal of the second rectifier diode is connected to the second terminal of the low-frequency demagnetization coil), the functionality of the device is expanded, allowing it to be used to demagnetize screens of magnetically soft materials with high magnetic permeability.

Claims (3)

1. A device for the demagnetization of magnetic screens containing a low-frequency power source and a low-frequency demagnetization coil, the first input terminal of which is connected to the first output terminal of a low-frequency power source, characterized in that a relay and a relay control unit are connected, the output of which is connected to the control input the relay, and the signal input is connected to the relay input and to the second output terminal of the low-frequency power source, as well as the first and second rectifier diodes, while the cathode terminal of the first rectifier diode and connected to the first output of the relay, the anode terminal of the second rectifier diode is coupled to the second output switch, and the anode terminal of a first rectifier diode and the cathode terminal of the second rectifier diode connected to the second terminal of the degaussing coils low frequency. 2. The device according to claim 1, characterized in that an industrial frequency network is used as a low-frequency power source. 3. The device according to claim 1, characterized in that the relay control unit is made in the form of a frequency period counter, the input of which is the signal input of the relay control unit, and a trigger with a counting input, the input of which is connected to the overflow output of the frequency period counter, and the output is relay control unit output.

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