RU2744511C1 - Method of increase of reed switch sensitivity with control winding fixed near conductor with current - Google Patents

Abstract

FIELD: physics.

SUBSTANCE: invention can be used in power engineering to increase sensitivity of protection of electric installations against short circuits. Method of increasing sensitivity of a reed switch with a control winding consists in that current is supplied from a power source through connecting wires to a reed switch control winding, continuously measuring current in connecting wires, comparing it with first and second current standards, if current in connecting wires is less or equal to first reference current, then signal is sent on damage of connecting wires or control winding, if current in connecting wires is more or equal to second reference current, then current supply is stopped in reed switch control winding and signal is sent on availability of interference in connecting wires, further, continuous measurement of current in connecting wires and comparison with third reference current, and when it after some time t₁ after stopping supply of current to control winding becomes less or equal to the third reference current, current supply is resumed to control winding of reed switch.

EFFECT: technical result is elimination of excess sealed reed relay from interference in its control winding and control of integrity of connecting wires, control winding and power supply.

1 cl, 1 dwg

Description

The invention relates to the electric power industry, namely to relay protection technology, and can be used to increase the sensitivity of the protection of electrical installations against short circuits.

A known method of increasing the sensitivity of a reed switch with a control winding, fixed near a conductor with a current [Dikovsky Ya.M., Kapralov I.I. Magnetically controlled contacts - M .: Energiya, 1970], in which the reed switch is exposed to a constant magnetic field from a permanent magnet installed near the reed switch.

The disadvantage of this method is the demagnetization of the permanent magnet under the influence of a large alternating current.

A known method of increasing the sensitivity of a reed switch with a control winding, fixed near a conductor with a current [Kletsel M.Ya., Musin V.V., Alishev Zh.R., Manukovsky A.V. Properties of reed switches used in relay protection // Electricity - 1993. - №9. - S. 18-21.], In which a current of a certain magnitude is supplied through the connecting wires to the control winding of the reed switch.

The disadvantages of this method are the possibility of excessive actuation of the reed switch when an interference appears in the circuit of its control winding and the failure of the reed switch when the connecting wires in the power supply circuit of the control winding break.

The technical result is to prevent unnecessary actuation of the reed switch from interference in the circuit of its control winding and to identify damage to the connecting wires and control winding.

The technical result is achieved by the fact that in the method of increasing the sensitivity of the reed switch with a control winding, in which the current is supplied from the power source through the connecting wires to the control winding of the reed switch, according to the invention, the current in the connecting wires is constantly measured, compared with the first and second current standards, if the current in the connecting wires is less than or equal to the first current standard, then a signal is given about damage to the connecting wires or the control winding, if the current in the connecting wires is greater than or equal to the second current standard, then the current supply to the reed switch control winding is stopped and a signal is given about the presence of interference in the connecting wires , then they continue to constantly measure the current in the connecting wires, and compare it with the third current standard, and when, after some time t ₁ after stopping the current supply to the control winding, it becomes less than or equal to the third current standard, then the current supply to the winding is resumed reed switch control.

In the claimed method, in contrast to the prototype, the operations of measuring the current in the reed switch control winding, stopping the current supply to the reed switch control winding, if it exceeds the second current standard, are carried out, which allows the reed switch to fail when an interference appears in the reed switch control winding circuit. A signal is applied if the current in the connecting wires is less than the first current standard, which makes it possible to detect damage to the connecting wires and control winding, as well as a short circuit at the terminals of the power supply.

The essence of the invention is illustrated by a drawing, where FIG. 1 shows a device that implements a method for increasing the sensitivity of a reed switch with a control winding fixed near a conductor with a current.

A method for increasing the sensitivity of a reed switch with a control winding, fixed near a conductor with a current, can be implemented using a device that contains a unit 1 with a reed switch (BG) and a control winding put on it (not shown in Fig. 1), fixed near the conductor 2 with current. Some inputs of unit 1 (BG) are connected to power supply 3 (IP), other inputs are connected to block 4 of power supply interruption (BPP) to the reed switch control winding and to the power supply resumption unit 5 (BVP) to the reed switch control winding. The unit 6 for measuring the current (BIT) in the connecting wires is connected to the power supply 3 (IP), and the output to the first comparison circuit 7 (CC1), the second 8 (CC2) and the third 9 (CC3). The output of the first comparison circuit 7 (CC1) is connected to the signaling circuit. The outputs of the second 8 (CC2) and third 9 (CC3) comparison circuits are connected to the inputs of block 4 (BPP) for cutting off the power supply to the reed switch control winding and unit 5 (BVP) for resuming power supply to the reed switch control winding, respectively.

Unit 1 with a reed switch and a control winding put on it can be implemented on a reed switch of the RGK-49 type. A rechargeable battery can be used as a power source 3 (IP). Block 4 (BPP) for cutting off the power supply to the reed switch control winding, unit 5 (BVP) for resuming the power supply to the reed switch control winding, unit 6 (BIT) for measuring the current in the connecting wires and the first 7 (CC1), the second 8 (CC2) and the third 9 (CC3) comparison circuits can be implemented on two current relays of the RT-40 type.

Тогда для обеспечения срабатывания геркона в блоке 1 при токе в проводнике 2 равном 100 А в обмотку управления от источника питания 3 (ИП) по соединительным проводам необходимо подать ток 0,53 мА.Let unit 1 with a reed switch and a control winding put on it be installed at a distance of 0.12 m from conductor 2, through which a current of 20 A flows in nominal mode, and in case of a short circuit in an electrical installation powered by a conductor 2-100 A. V _cf = 3.4⋅10 ^-4 T, control winding - the number of turns W = 5000 and the length of the winding

Then, to ensure the actuation of the reed switch in unit 1 at a current in conductor 2 equal to 100 A, a current of 0.53 mA must be applied to the control winding from the power source 3 (IP) through the connecting wires.

In the nominal operating mode of the electrical installation and in the absence of interference in the connecting wires, a current of 20 A flows through the conductor, which creates a magnetic field with an induction of 0.33⋅10 ^-4 T, and along the control winding - 0.53 mA, which creates a magnetic field with induction 1.7⋅10 ^-4 T. As a result, the total induction B _Σ = 2.03⋅10 ^-4 T acts on the reed switch in unit 1. The reed switch in block 1 does not work, since В _Σ <В _avg . In this case, the unit 6 (BIT) for measuring the current in the connecting wires measures the current and sends a signal about the current value to the inputs of the first 7 (CC1), the second 8 (CC2) and the third 9 (CC3) comparison circuits. Since the current in the connecting wires does not exceed the second current standard, equal, for example, 0.6 mA, there is no signal at the output of the second comparison circuit 8 (CC2), and block 4 (BPP) stops the supply of power to the reed switch control winding signal to the block 1 (BG) does not serve. The current continues to flow through the connecting wires. In this case, the current in the connecting wires exceeds the first current standard and less than the third current standard. Therefore, the first comparison circuit 7 (CC1) does not output a signal, and the third comparison circuit 9 (CC3) outputs. However, unit 5 (BVP) does not give a signal to resume the supply of current to the reed switch control winding, since its input has not previously received a signal from unit 4 (BPP) to cut off the power supply to the reed switch control winding.

When noise appears in the connecting wires, the current in them increases. Let it become equal to 1.2 mA. Unit 6 (BIT) for measuring the current in the connecting wires measures the current and supplies a signal about the current value to the inputs of the first 7 (CC1), the second 8 (CC2) and the third 9 (CC3) comparison circuits. Since the current in the connecting wires exceeds the second current standard, a signal appears at the output of the second comparison circuit 8 (CC2), and block 4 (BPP) for stopping power supply to the reed switch control winding outputs signals to units 1 (BG) and 5 (BVP) resumption of the current supply to the reed switch control winding, as well as to the signaling circuit about the presence of interference in the connecting wires. As a result, current ceases to flow through the reed switch control winding in block 1 (BG), and the reed switch does not work. After the interference disappears, the current in the connecting wires becomes equal to 0.53 mA. Since it is less than the second current standard, the signal at the output of the second comparison circuit 8 (CC2) disappears. In this case, the current in the connecting wires becomes less than the third current standard. Therefore, the third comparison circuit 9 (CC3) gives a signal to the input of unit 5 (BVP) of the resumption of power supply to the reed switch control winding, which, since the signal from unit 4 (BPP) of the reed switch control winding was previously received at its input, gives signal to the input of block 1 (BG). As a result, current starts flowing through the reed switch control winding again.

In case of short circuits at the terminals of the power supply or a break in the connecting wires, the current in them becomes less than the first standard. Therefore, the first comparison circuit 7 (CC1) gives a signal about the presence of damage in the connecting wires or a short circuit at the terminals of the power supply 3 (PS).

Claims (1)

A method for increasing the sensitivity of a reed switch with a control winding, in which current is supplied from a power source through connecting wires to the control winding of a reed switch, characterized in that the current in the connecting wires is constantly measured, compared with the first and second current standards, if the current in the connecting wires is less or is equal to the first current standard, then a signal is given about damage to the connecting wires or the control winding, if the current in the connecting wires is greater than or equal to the second current standard, then the current supply to the reed switch control winding is stopped and a signal is given about the presence of interference in the connecting wires, then they continue to constantly measure current in the connecting wires and compare it with the third current standard, and when, after some time t ₁ after the current supply to the control winding is stopped, it becomes less than or equal to the third current standard, the current supply to the reed switch control winding is resumed.

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