SU890510A1 - Device for protecting ac electric equipment from current leakage - Google Patents

Description

The invention relates to electrical engineering and can be used to protect against earth leakage currents and for continuous, selective monitoring of the insulation status of electrical installations, for example, an AC mains section.

A device for monitoring the leakage current, containing a signal source with a frequency different from the nominal [1].

The device does not have selectivity. There is also known a device for protection against current leakage, containing a control current source, an attachment filter, a current sensor, a frequency-selective organ and a phase-sensitive unit designed to determine the direction of current in the circuit of a protected electrical installation [2].

However, the device is intended to protect the leakage current of a concentrated object and the reference voltage to the phase-sensitive block is supplied from the control current source. To carry out selective insulation control, one control current source is used, connected to any point in the network for all elements of this network distributed over a considerable area, therefore it is necessary to lay numerous communication lines from the control current source to local frequency-selective organs. This circumstance complicates and increases the cost of installation _v and operation of the device, reduces its reliability.

The purpose of the invention is to simplify and improve reliability when using a device for a geographically distributed electrical installation.

This goal is achieved by the fact that the device for protection against current leakage in an electrical installation of alternating current, containing a control current source connected through a filter to connect to a controlled electrical installation, as well as for each element of the electrical installation, a current sensor, a frequency-selective amplifier, a phase-sensitive unit and measuring body, for each geographically concentrated group of elements of the electrical installation, a local reference voltage source is introduced, the output of which dklyuchen parallel to the second inputs of the phase-sensitive units corresponding group of elements.

Thus the local voltage reference may be made in the form of frequency-selective amplifier is connected to the secondary windings of the transformer controlled electrical voltages collected in open tre- _s gon, or as a standalone voltage controlled oscillator synchronized installation.

The drawing shows a functional diagram of the device.

The device consists of a control current source 1 connected to the primary electrical circuit through the connection filter 2, a current sensor 3, to which a frequency-selective amplifier 4 is connected, at the output of which a phase-sensitive block 5 is connected. A phase-sensitive ^{, s new} block is connected a reference voltage of the local reference voltage source 6, which consists of a voltage transformer 9 and the frequency-selective amplifier 10. The output of phase-sensitive Nogo unit ₂₀ included measuring element 7. reference numeral 8 show N element controllable.

When leakage currents to the earth appear, the signal generated by the phase-sensitive unit 5 is detected by measuring unit 7. The appearance of the signal is associated with a change in the phase of the monitored current. There are two possible versions of the local source of the reference voltage 6. The formation of the reference voltage by isolating a component with the frequency-selective amplifier 10 with the frequency of the control current from the direction on the open triangle of the voltage transformer 9 installed in the controlled electrical installation (see drawing). The use of this option can lead to a reduction in the length and number of connecting wires, depending on the relative position of the electrical equipment in a particular electrical installation. The formation of the reference direction using an autonomous generator ⁴⁰ synchronized with the frequency of the controlled electrical installation. This option takes advantage of the fact that the control current source operates on the principle of either dividing or multiplying the frequency of the controlled electrical installation.

Through the use of a number of local sources of reference voltage, the length of communication lines between the elements of the device is reduced, the reliability of its operation is increased due to the lower likelihood of a break in communication lines.

Claims (2)

In this case, the local source of the reference voltage can be made as a frequency-selective amplifier connected to the secondary windings of the voltage transformer of a controlled electrical installation assembled in an open triangle, or as an autonomous generator synchronized with a voltage of a controlled electrical installation. The drawing shows a functional diagram of the device. The device consists of a control current source 1 connected to the primary circuit of the electrical installation through an attachment filter 2, a current sensor 3 to which a frequency-selective amplifier 4 is connected, the output of which is connected to a phase-sensitive unit 5. A reference voltage from a local source is connected to the phase-sensitive unit a reference voltage 6, which consists of a voltage transformer 9 and a frequency-selective amplifier 10. At the output of the phase-sensitive unit, a measuring element 7 is turned on. At number 8, there is a con controllable element. When leakage currents appear on the ground, the signal produced by the phase-sensitive unit 5 is detected by the measuring body 7. The appearance of the signal is associated with a change in the phase of the monitored current. There are two possible versions of the local source of the reference voltage 6. Formation of the reference voltage by separating the component with the frequency of the control current from the direction on the open triangle of the voltage transformer 9 installed in a controlled electrical installation with a frequency-controlled amplifier (see drawing). The use of this option can lead to a reduction in the length and number of connecting wires, depending on the mutual arrangement of electrical equipment in a particular electrical installation. The formation of the reference direction using an autonomous generator synchronized with the frequency of controlled electrical installations. This variant uses the fact that the control current source operates on the principle of either dividing or multiplying the frequency of the monitored electrical installation. Due to the use of a number of local sources of reference voltage, the length of the communication lines between the elements of the device is reduced, and its reliability is increased due to the lower probability of a broken communication lines. Claim 1. A device for protection against current leakage in an alternating current electrical installation, containing a source of control current connected through an attachment filter to a monitored electrical installation, as well as a current sensor, a frequency selective amplifier, a phase-sensitive unit and a measuring unit for each element of the installation, characterized in that, in order to simplify and increase reliability when using a device for a geographically distributed electrical installation, for each geographically concentrated group of electrical elements introduced local source of reference voltage, the output of which is connected in parallel to the second inputs of the phase-sensitive units corresponding group of elements. 2. The device according to claim 1, characterized in that the local source of the reference voltage is made in the form of a frequency-selective amplifier connected to the secondary windings of a voltage transformer of a controlled electrical installation, assembled in an open triangle. 3. The device according to claim 1, characterized in that the local source of the reference voltage is made in the form of an autonomous generator of synchronized voltage of the controlled electrical installation. Sources of information taken into account during the examination 1. USSR author's certificate No. 426282, cl. H 02 H 3/16, 30.10.72. 2. USSR author's certificate number 421.083, cl. H 02 H 3/16, 08.02.72.