RU2310875C1 - Method and device for determining parameters of magnetic field - Google Patents

Abstract

FIELD: measuring engineering.

SUBSTANCE: method comprises measuring intensity of electric current generated by an electric motor, determining a parameter of the magnetic field of the electric motor as a function of the electric current intensity, comparing the parameter of magnetic field with the permissible level of the parameter, and indicating the result with an indicator.

EFFECT: expanded functional capabilities.

2 cl, 1 dwg

Description

The invention relates to methods and devices for monitoring magnetic field parameters, for example, electrical installations of traction and transformer substations, and can be used to indicate the maximum permissible level of a magnetic field parameter at workplaces.

A known method of determining the parameters of the magnetic field (Measuring parameters of electric and magnetic fields BE - METR-AT-002. Operation manual. MGFK 411173.004RE. M .: LLC "NTM-protection", 2001. - S.3-5), including the conversion of magnetic field oscillations into voltage fluctuations, amplification of these oscillations with their subsequent detection, analog-to-digital conversion of this signal and its analysis.

The disadvantage of this method is the multi-stage signal conversion.

A device is known for determining the parameters of the electromagnetic field of electrical installations (Electric and magnetic field meter VE-METR-AT-002. Operation manual. MGFK 411173.004RE. M.: NTM-zashchita, 2001. - 13 p.), Including a sensor - magnetic field parameter meter, amplifier, analog-to-digital converter, processor, indicator.

A disadvantage of the known device is the use of complex, expensive items of equipment, the inability to use for continuous monitoring of the magnetic field in electrical installations.

The purpose of the invention is the continuous monitoring of the magnetic field parameters of electrical installations with the determination and indication of its levels at workplaces.

This goal is achieved by using the elements of the electrical installation as a magnetic field sensor and a power source.

The invention according to claim 1 is that they measure the strength of the electric current generated by the electrical installation, lower it, determine the magnetic field parameter of the electrical installation depending on the measured electric current strength, compare the above magnetic field parameter with the specified maximum permissible levels of this parameter and display the result to the corresponding signal lamp, and the essence of the invention according to claim 2 is that the secondary winding of the measuring the current transformer of the electrical installation, to which two current relays KA1 and KA2 are connected, each relay having two block contacts, while in the initial state one of the block contacts of each current relay KA1 and KA2 is normally open, and the second of the block the contacts of each current relay KA1 and KA2 are normally closed, the normally open block contact of the current relay KA1 is connected in series with the normally closed block contact of the current relay KA2 and the indicator is a yellow warning light, and the normally open block contact is the current relay KA2 is connected to an indicator - a red warning light; A voltage relay KV with one block contact is connected to the secondary winding of the measuring voltage transformer of the electrical installation, while in the initial state it is normally open and connected in series with a normally closed block contact of the KA1 current relay and with an indicator - a green signal lamp.

The drawing shows a diagram of a device for implementing the method for determining the parameter of the magnetic field of electrical installations, consisting of a connection unit 1, a control and actuation unit 2, and an alarm unit 3, including a secondary winding 7 of a current measuring transformer with a current relay KA1 of the first control stage connected to it with normally open a block contact 10 and a normally closed block contact 11, a current relay KA2 of the second control stage with a normally open block contact 12 and a normally closed block contact 13, sec the actual winding 8 of the voltage measuring transformer with the KV voltage relay of the third control stage connected to it with block contact 9, as well as indicators - green 4, yellow 5 and red 6 signal lamps and a source for their power supply: “-” bus 14 and “+ "Bus 15 (tires of own needs of the electrical installation itself).

The proposed method works as follows.

The existing methods for determining the magnetic field parameters use special, complex and expensive measuring instruments for single measurements of the magnetic field parameter, which is displayed on the indicator device. Measurements are carried out with a certain periodicity (once every three years), in accordance with the requirements for monitoring the parameters of the magnetic field generated by the electrical installation in the workplace. However, the parameters of the magnetic field can change sharply over time due to changes in current load and exceed the maximum permissible levels, have a harmful effect on the personnel of the electrical installation.

The proposed method for determining the parameters of the magnetic field allows, first of all, to measure and control the parameters of the magnetic field near the installation continuously, as it determines the parameter of the magnetic field of the installation depending on the strength of the electric current consumed by the installation and creating this magnetic field.

Since not all levels of the magnetic field parameter arising near the electrical installation have a harmful effect on the human body, we choose from continuous values that level of the magnetic field parameters when its value exceeds the maximum permissible level of the magnetic field parameter.

Informing personnel at workplaces about exceeding the maximum permissible level is carried out by light indication.

The proposed device operates as follows.

The flow of current through the primary winding (not shown in the diagram) of the measuring current transformer of the electrical installation causes the current to flow in the secondary winding 7 of the measuring current transformer, which is proportional to the parameters of the magnetic field generated near the electrical installation, while the secondary winding 7 of the measuring current transformer acts as a magnetic field sensor .

When the current of the electrical installation, creating a magnetic field exceeding the first stage of the maximum permissible level of its parameter, flows, the current relay KA1 and its normally open block contact 10 with a normally closed block contact 13 of the current relay KA2 closes the circuit and voltage is supplied from the buses 14, 15 to power the yellow warning light 5, indicating to personnel the limitation of the time spent near the electrical installation.

When the current of the electrical installation creates a magnetic field that exceeds the second stage of the maximum permissible level of the parameter, the KA2 current relay and its normally closed block contact 13 of the KA2 current relay opens the power supply circuit of the yellow signal lamp 5, and the normally open block contact 12 closes the circuit and voltage is supplied from the buses 14, 15 to power the red signal lamp 6, indicating to the personnel the dangerous effect of the magnetic field and the prohibition of being near the electrical installation.

If there is no electrical installation current, the magnetic field parameter is zero, and in this case, block contact 10 of the KA1 current relay and block contact 12 of the KA2 current relay will be normally open, which opens the circuit from the power buses 14, 15, yellow 5 and red 6 signal lamps. If there is no electric current, but if there is voltage at the electrical installation, the voltage relay KV of the third control stage is activated and its block contact 9 closes the circuit through a normally closed block contact 11 and voltage is supplied from the buses 14, 15 to power the green signal lamp 4, indicating that the magnetic field parameter at the workplace is minimal, but the electrical installation is energized.

Thus, the application of the proposed method for monitoring the parameters of the magnetic field and the device for its implementation provides a three-stage (green, yellow, red) control and warning personnel accordingly about the permissible, harmful and dangerous effects of the magnetic field at the workplace of electrical installations. The simplicity of the design of the proposed device, the use of equipment elements of the electrical installation itself (secondary windings of measuring transformers and power supply bus of the electrical installation's own needs) excludes the use of a special magnetic field sensor and an additional power source and allows for the continuous monitoring of magnetic field parameters in any electrical installations with measuring transformers.

Claims (2)

1. The method of determining the parameters of the magnetic field of electrical installations, including measuring the parameter, converting it into electrical voltage, displaying it on the display, characterized in that they measure the strength of the electric current generated by the electrical installation, lower it, determine the magnetic field parameter of the electrical installation depending on the measured electric strength current, compare the above magnetic field parameter with specified maximum permissible levels of this parameter and output the result to the corresponding signal lamp. 2. The device for implementing the method according to claim 1, comprising a magnetic field sensor, an analog processing unit, a digital processing unit and an indicator, characterized in that the secondary winding of the measuring current transformer of the electrical installation is used as a magnetic field sensor, to which two series-connected relays are connected current KA1 and KA2, and each relay has two block contacts, while in the initial state one of the block contacts of each current relay KA1 and KA2 is normally open, and the second of the block contacts of each relay t OKA KA1 and KA2 are normally closed, the normally open block contact of the KA1 current relay is connected in series with the normally closed block contact of the KA2 relay and the indicator is a yellow warning light, and the normally open block contact of the KA2 current relay is connected to the indicator - a red signal a lamp; A voltage relay KV with one block contact is connected to the secondary winding of the measuring voltage transformer of the electrical installation, while in the initial state it is normally open and connected in series with a normally closed block contact of the KA1 current relay and with an indicator - a green signal lamp.