SU1647772A1 - Device for automatic switching on reserve facility - Google Patents

Abstract

The invention relates to electrical engineering and can be applied in reservation systems of responsible consumers in networks of kV. The goal is to increase the reliability of power supply. When the voltage decreases on the main source below the main power supply JO, J4cb cb J5Vjtf ft A of the lotreT fJ given by the reference voltage unit 14, the signal 1 appears at the output of the voltage relay 13, and the resolution unit 16 sends a signal to the time relay 25 s taking into account the block contacts of the switches of the main and backup sources. If the voltage at the main source does not recover within the time specified by the time relay 25, the output element 26 sends a signal to turn off the main source switch and turn on the backup source switch. When the voltage is restored at the main source, the voltage relay 13 supplies the input of the resolution unit 16 with a logic O, the resolution unit starts the time relay 25, which with a time delay through the output element gives a signal for the reverse switching of the switches. 1 il. Reserve Z & lit fe L ON VI VJ VJ Yu Ј

Description

The invention relates to electrical engineering and can be applied in reservation systems of responsible consumers in networks of 6-35 kV,

The purpose of the invention is to improve the reliability of power supply.

The drawing shows the functional diagram of the device.

The device contains switches 1 and 2 of the main and backup power sources.

A first voltage transformer 3 (TH) is connected to the primary primary source, and a second voltage transformer 4 is connected to the backup source. The power supply unit 5 is connected to the secondary windings of TH 3 and 4.

The power supply unit 5 consists of rectifiers 6 and 7 connected respectively to voltage transformers 3 and 4. The rectifier outputs are interconnected via a diode 8, directed by the anode to the first rectifier b, to which protection element 9 is connected, the output of which is the first output of the power supply unit, and the output of the second stabilizer 10, the output of the latter is the second output of the power supply unit . Elements 11 and 12 of matching their inputs are connected to the output of the stabilizer 10, and their outputs are the third and fourth outputs of the power supply.

Voltage relay 13, containing the reference voltage unit 14 and comparator 15, is connected by its inputs to the first and second outputs of the power supply unit, the first input being connected to the inverse input of the comparator 15, the second input to the reference voltage block, the output of which is connected to My comparator input, the output of which is a voltage relay output.

The resolution unit 16 is made on four AND-NOT 17-20 two-input logic elements, the first input is connected to the output of voltage relay 13, the second input is connected to the output of the first matching element 11 and through the first chain of series-connected disconnecting block contact 21 of the main source 1 switch and the closing block contact 22 of the backup source switch - with a common power bus. The third input of the resolution unit 16 is connected to the matching element 12 and through the second chain of the first source contact switch 23 of the main source 1 switch and the first disconnecting block contact 24 of the backup source switch 2 with a common busbar connected in parallel

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nutrition A time relay 25 is connected to the output of the resolution unit 16. The output element 26, connected by its input to the output of the time relay 25, includes 5 and 27 and a relay 28, in parallel with which a capacitor 29 is connected. The output of the output element 26 is the closing contacts 30 and 31, which are included in the switching electromagnets 32 and 33 and off 34 and 35, main and backup source switches.

The electromagnet off switch backup source is connected in series with the second closing

15 by a block contact 36 of the backup source switch and a second disconnecting block contact 37 of the backup source switch, forming a third chain; In parallel, a fourth chain is turned on, which is formed by the electromagnet of the main source switch, the third disconnecting block contact 38 of the main source switch, and the second disconnecting unit -contact 39 switch

25 backup source. The third and fourth chains are connected via the first closing contact 30 of the output element 26 to the first voltage transformer 3. The fifth chain is formed by series-connected electromagnet 35 for switching off the main source, by the third opening contact 40 of the main source switch. The sixth chain is formed by successively connected by an electromagnet 33 for switching on the switch of the backup source and fourth disconnecting block contacts 42 and 43 of the switches of the main and backup sources, respectively. Pta

40 and the chains of the chain are connected in parallel to each other and are connected via the second closing contact 31 of the output element 26 to the second voltage transformer 4. In normal mode, the voltage

45 is present on both inputs - main and backup networks, switch 1 is on, switch 2 is off. With rectifiers 6 and 7, the stabilizer 10 receives more of the voltages and, after stabilization, feeds the circuit.

The non-inverted input of the comparator 15 receives the voltage from the block 14 of the reference voltage, and the inverse input voltage is proportional to the voltage of the mains. As in the normal mode, the voltage at the inverted input is greater, then at the output of the voltage relay 13 is a logical O, which is fed to the first input of the resolution block 16. On the second and third inputs of the block 16 comes from elements 11 and 12

logical 1 depending on the position of the switches 1 and 2, characterized by the position of their block contacts 21-24. By applying O to the input, logic elements 18 or 19 are alternately disconnected from operation (in this case there is always 1 at their output). In the initial mode, the auxiliary contacts 21 and 22 are open, and the auxiliary contacts 23 24 are closed, therefore the logic element 19 is turned off (O is at its second input), and control is exercised along the circuit of elements 18-20. Since at the second input of the element 18 there is O, at the first input 1, then at its output there is 1. 1 at both inputs of the element 20 provides O at its output and the time relay 25 is in the state of waiting for a start command.

When the voltage in the main network is lower than the reference voltage set by the block 14 at the output of relay 13, 1 appears, which causes O at the output of element 18, and at the output of element 20, 1 appears, which starts the time relay 25. If the voltage reduction is short-term, the circuit returns to its original position, and when the relay is continuously lowered, time 25 counts down the set time and gives the command to turn on the output element 26, the relay 28 of which by closing its contacts 30 and 31 turns off switch 1 and turns on switch 2. If switching occurs without failures, the block contacts 21 and 22 are closed, and the block contacts 23 and 24 are opened and the logic element 18 is taken out of operation (0 at the second input), control is exercised along the circuit of logic elements 17, 19, tO, one, At the output of the relay, the voltage 13 causes O at the output of the element 17 and, since 1 is present at both inputs of the element 20, O appears at its output. The device is ready for subsequent operation.

Restoration of the voltage on the main supply network provides the output of the relay 13 for the voltage O, 1 which is the output of the element 20, which starts the time relay 25. If this voltage is short-lived (due to the effect of relay protection or automation in the main network), the circuit returns to its original position. A full restoration of the power supply provides the timing of the time relay 25 and the return to the main power circuit is performed by turning off the switch 12 and turning on the switch 1.

Subsequent switchings are similar.

In the event that a consumer fails, for example, a block-contact switch 2, when switching to backup power, when the power is restored, both

power supplies can be connected in parallel. In order to prevent such a mode, block 16 blocks the operation of the device by continuously feeding time 25 and the capacitor 29 to the input of the relay.

is shunted by an open thyristor 27. Further operation of the device for automatic switching of the reserve is not possible. Similarly, blocking occurs in case of any other failures of switches,

Thus, in the proposed device for automatic switching on the reserve, the introduction of the resolution block, new connections, the specific performance of the resolution block and the power supply block allow organizing the algorithm of the device operation taking into account the real position in the network - the position of switching devices, the presence of voltage on the main and backup inputs , as well as the detuning from the operation of other devices when restoring the circuit, which allows to increase the reliability of power supply.

Claims (1)

Invention Formula An automatic switch-on device, containing the main and backup network switches, a voltage transformer that is connected to the main network, a power supply unit connected to a voltage transformer, the output of which is connected to a voltage relay, the output of which is through a resolution unit, a time relay connected to the output one element to be introduced into the circuit electromagnets on and off the main and backup network switches, characterized in that, in order to improve the reliability of power supply, a second voltage transformer connected to the backup network, six chains of main contacts of the main and backup network switches, power supply unit consists of two rectifiers connected respectively to the first and the second voltage transformer, a separation diode, a stabilizer, a protection element and two elements, the output of the first rectifier is the first output of the power supply unit, connected to the anode dividing diode and, through a protection element, to the first input of a voltage relay, to the second input of which through a stabilizer is connected to the cathode of a dividing diode, the output of the stabilizer, which is the second output of the power supply unit, is connected to the power inputs of all elements of the device and to the inputs of the matching elements, which are resistor voltage dividers, the outputs of which are the third and fourth outputs of the power supply, respectively, the voltage relay consists of a reference voltage block and a comparator, and the inverse The first input of the comparator is the first input of the voltage relay, the second input of which is the input of the reference voltage unit, the output of which is connected to the forward input of the comparator, the output of which is the output of the voltage relay that is connected to the first input of the resolution unit, the second and third inputs of which are connected respectively to the third and fourth outputs of the power supply unit, the resolution block contains four AND-NOT elements, the inputs of the first AND-NOT element are combined and are the first input of the resolution block and connected to the first input for the second element NAND, the second input of which is connected to the second input of the resolution block, the output of the first element NAND is connected to the first input of the third element NAND, the second input of which is connected to the third input of the resolution block, the output of the second element NANDEPUT to the first input of the fourth NAND element, to the second input of which the output of the third NAND element is connected, the output of the 4th NAND element is the output of the resolution unit that is connected to the time relay, the first chain consists of the first p connected in series auxiliary contact of the main source switch and the first break contact of the backup source and turned on between the second input of the resolution unit and the common power bus, the second chain consists of parallel connected first closing block contact switch the main source and the first disconnecting blocking switch of the backup source, which is connected between the third input of the resolution unit and the common power bus, the third chain consists of connected in series the second closing second disconnecting contact of the main power switch and the electromagnet off switch backup source, which is connected through the first closing contact of the output element to the first voltage transformer, the fourth chain consists of a sequentially connected third disconnecting block contact, a main source switch, a second disconnecting block contact, a backup source switch and a main source switch electromagnet which is connected in parallel to the third chain, The fifth chain consists of the third disconnecting contact block of the second switch of the backup source, the closing contact of the main source switch, and the shutdown electromagnet of the main source switch, which is connected to the second voltage transformer through the second closing contact of the output transformer, the pole consists of sequentially the fourth interlocking breaker contacts of the main and backup sources and the electromagnet on / off tel backup source.