RU2251756C1 - Self-testing protective gear - Google Patents

Abstract

FIELD: ensuring electric safety for people and animal in agriculture.

SUBSTANCE: self-testing of proposed differential protective gear is effected by pulse generator, polarized relay, and additional differential current sensor whose coil is provided with pulse generator that functions to ensure desired test intervals and distribution of test signals among control circuit channels of polarized electromagnetic relay incorporating warning device, power conductors of supply mains being passed through magnetic core opening of additional current sensor.

EFFECT: provision for periodic self-testing of protective gear magnetic circuit for condition.

1 cl, 1 dwg

Description

The invention relates to the field of electrification of agriculture, in particular for ensuring electrical safety of people and animals.

Known patent No. 2149476 "Modular differential switch", IPC N 01 N 83/14, 2000. The device comprises a multi-pole switch selected from among multi-pole switches, differing in the number of poles and having connecting clamps, the number of which corresponds to the number of poles located on the side connecting surface of the multi-pole switch, differential protection unit, selected from the number of differential protection units, differing in the number of poles and having connecting wires in ETS, corresponding to the number of poles arranged on the hard plate.

As a prototype, a device was adopted (Jacobs A.I., Lukovnikov A.V. Electrical safety in agriculture. - M .: Kolos, 1981. - 239 p., P. 151-153), containing a leakage current sensor, which is current transformer, switching device in the form of power contacts, relay-drive disconnecting power contacts, device health monitoring button, artificial leakage current limiting resistor. The leakage current sensor contains a toroidal magnetic circuit with a winding acting as a secondary one. Through the "window" of the magnetic circuit, the power conductors of the supply network, both phase and zero, pass, performing together the role of the primary winding of the transformer. In the absence of leakage current in the circuit after the device is turned on, the sum of the currents of these conductors is zero, i.e. the primary current is zero and there is no current in the secondary winding; when a leakage current appears, the sum of the currents of the phase and neutral conductors is equal to the leakage current, it differs from zero, and a current appears in the secondary winding. When the leakage current reaches the set value, the secondary current causes a protective shutdown of the device, i.e. opening power contacts by actuating the drive.

The known invention has the disadvantage that in the event that a short-circuited electrical circuit appears in its magnetic circuit, the latter acts as a demagnetizing element, while increasing the response current of the device, i.e. changes the protective characteristic of the leakage current. Such a short-circuited circuit appears when the PE and N conductors are electrically connected in the circuit section after switching on the differential apparatus or in the case of connecting one or more of the same phase conductors before and after the differential apparatus is switched on as a result of corresponding insulation damage or accidental and deliberate errors during installation of the electrical installation.

The technical solution to the problem is to provide periodic self-testing of the state of its magnetic circuit to detect the occurrence of a short-circuited circuit and inform the user about it.

The task is achieved in that the protective device containing a differential current sensor, consisting of a toroidal magnetic circuit with a winding acting as a secondary one, power conductors of the supply network passing through the magnetic circuit window, switching device and actuator of the commutator drive, and also has a pulse generator , an electromagnetic polarized relay control signaling device and an additional differential leakage current sensor with a toroidal magnetic circuit and two windings, one of which is connected to the first channel of the pulse generator, and the other is connected to an electromagnetic polarized relay control signaling device, which is connected to the second channel of the pulse generator, while through the "window" of the magnetic circuit of an additional differential current sensor, power conductors of the mains are drawn, and in the electromagnetic circuits two diodes are included in the polarized control relay of the signal device to prevent the signal from being transmitted back to the pulse generator and to prevent Magnetization reversal windings of an additional differential current sensor, respectively.

The novelty of this proposal is that the protective device uses an additional differential current sensor, which provides a self-test of the state of the magnetic circuit of the device in order to detect the occurrence of a short-circuited circuit and inform the user about it, and also uses a two-channel pulse generator that ensures the frequency of self-testing.

The drawing shows a diagram of a protective apparatus.

The protective device contains a leakage current sensor, consisting of a magnetic circuit 1, on which the winding 2 is located, a switching device in the form of contacts 3, which are disconnected by the drive 4 connected to the winding 2. The manual control button of the differential device 5 is connected in series with the leakage current simulation resistor 6. On the magnetic circuit of an additional differential current sensor 7, windings 8 and 9 are located. A pulse generator that provides the frequency of self-testing and the distribution of test signals along the channels 10, the second channel of which is connected to the winding 8, an electromagnetic polarized relay 11 that monitors the state of the magnetic circuit of the protective device connected to the winding 9 and the first channel of the pulse generator 10. The contact of the relay 12 controls the status indicator of the magnetic circuit 13 (light, sound or other) . Section 14 of the short-circuited circuit with resistance Z _KZ , power conductors of the supply network 15 and 16 are drawn through the “windows” of the magnetic circuits of the main 1 and additional 7 differential current sensors. Semiconductor diodes 17 and 18 are included in the circuit of the relay 11 to prevent the signal from being transmitted to the pulse generator 10 and to prevent a change in the polarity of the voltage across the winding 9.

The principle of operation of the device is as follows. In the absence of a short-circuited circuit (Z _КЗ ∞), the pulse generator 10 periodically (for example, every 5 min) applies voltage to the polarized relay 11, while the relay closes its contact 12 and the signal device 13 operates, the diode 18 does not pass the signal to the winding 9, so as not to cause magnetization reversal. After that, the pulse generator 10 removes the voltage from the polarized relay, but the contact 12 remains in the "faulty" position and voltage is applied to the winding 8, a few seconds after the voltage is removed from the polarized relay, and a secondary EMF is induced in the winding 9, which has a polarity opposite to the initial pulse supplied to the polarized relay, the diode 17 does not pass the signal back to the pulse generator, while the relay 11 switches its contact 12 to the “normal” position and the signal device 13 is turned off . The protective device performs its traditional functions, i.e. in the absence of leakage current in the circuit after the device is turned on, the sum of the currents of these conductors is zero, i.e. the primary current is zero and there is no current in the secondary winding. When a leakage current appears, the sum of the currents of the phase and neutral conductors is equal to the leakage current, it differs from zero, and a current appears in the secondary winding. When the leakage current reaches the set value, the secondary current causes a protective shutdown of the protective device, i.e. opening power contacts by actuating the drive. When a short-circuited circuit (z _kz ≈ 0) appears, the demagnetizing effect of this circuit (a short-circuited coil on both magnetic circuits, according to the Lenz law) appears, the polarized relay 11 closes its contact 12, and the signal device 13 activates. After that, the pulse generator 10 removes the voltage from the polarized relay, but contact 12 remains in the “faulty” position and voltage is applied to winding 8, secondary EMF is induced in winding 9, which has a polarity opposite to the initial pulse, applied mu to a polarized relay, but because the EMF value is lower than the rated voltage of the relay 11, the relay does not switch its contact 12 to the “OK” position, and the signal device 13 does not turn off. A protective shutdown is not performed, but the user is notified of a malfunction of the protective device, which caused the device to lose its protective shutdown functions when a leakage current occurs.

Claims (1)

A protective device containing a differential current sensor, consisting of a toroidal magnetic circuit with a winding acting as a secondary one, power conductors of the supply network passing through the “window” of the magnetic circuit, a switching device made in the form of power contacts, and an actuator of the switch actuator connected to the differential winding current sensor and disconnecting power contacts for protective shutdown of the device, characterized in that it has a pulse generator, electromagnetic polarized relay control a signal device and an additional differential leakage current sensor with a toroidal magnetic circuit and two windings, one of which is connected to the first channel of the pulse generator, and the other is connected to an electromagnetic polarized relay control of the signal device, which is connected to the second channel of the pulse generator, and through the “window ”The magnetic circuit of an additional differential current sensor held power conductors of the supply network, and in the circuits of an electromagnetic polarized relay The control panel of the signal device includes two diodes to prevent the signal from being transmitted back to the pulse generator and to prevent the magnetization reversal of the winding of an additional differential current sensor, respectively.