SU1690078A1 - Uninterrupted electric power supplying system - Google Patents

Abstract

The invention relates to the field of electrical engineering and can be used to supply responsible consumers from several synchronous sources of alternating current. The purpose of the invention is to increase the reliability of power supply by connecting several sources of alternating current to parallel operation. The uninterruptible power supply system contains alternating current sources, each of which is connected to a common consumer through an equalizing transformer, the primary windings of these transformers are shorted by a shunt key, and the secondary ones are connected in series in a closed circuit. New in the system is to supply the device with OR elements according to the number of sources, to the inputs of which signals are received to turn on other sources, and the output signal of the OR elements allows the opening of the shunt key. 1 il. Yo

Description

The invention relates to electrical engineering and can be used to supply responsible consumers with alternating current from several synchronous sources.

The purpose of the invention is to increase the reliability of power supply by connecting several AC sources for parallel operation.

The drawing shows a diagram of the proposed uninterruptible power supply system.

The system consists of three sources of 1 - 3 AC and load 4. Each source of AC contains a source of 5 EMF, equalization transformer

6, linear contactor 7, shunt switch 8, sensor 9 for turning on linear contactor 7, multi-input element OR 10 and two-input element AND 11. Phase load terminal 4 is connected to each source 5 of EMF through series-connected linear contactor 7 and primary winding of equalization transformer 6, shunted with a key 8. The output of the element 11 is connected to the control input of the shunt key 8, one input of the coincidence unit 11 is connected to the sensor 9 for turning on the linear contactor 7, and the other to the output of the multi-input element OR 10, the inputs which are connected to the outputs

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sensors 9 include linear contactors 7 other sources of alternating current, a linear contactor and a shunt key can be performed on electromagnet and line cells, as well as on thyristors, 5 connected in anti-parallel. If the linear contactor is made on electromagnetic elements, then a free contact block can be used as the sensor for turning on the linear contactor, 10 as shown in the drawing. If the linear contactor is made on thyristors, then the switch-on sensor of the linear contactor is advisable to be performed on the basis of a current transformer connected sequentially with a linear contactor.

The system works as follows. In the initial state, the load 4 is de-energized, i.e. linear contactors 7 are open in all AC sources, 20 Shunt switches 8 in all AC sources are closed, EMF sources in all AC sources generate sinusoidal voltages synchronous with each other. All 25 line contactors have external forced connection. Let the linear contactor 7 in the AC source 1 turn on first. At the same time, the sensor 6 for turning on the linear contactor 7 will operate and the signal 30 of the logical unit will go to the first input of its own element AND 11 and to one of the inputs of the multiple input elements OR 10 located in the alternating current sources 2 and 3. The contactors 7 in the sources 2 35, and 3 AC are not included, so the inputs of the multi-input element OR 10, located in the source 1 AC, receive logical zeros. Consequently, a logical zero arrives at the second input of the element 11 in 40 of the source of alternating current 1, the signal of the logical zero is present at its output and the shunt key 8 remains in the closed state. Thus, in the autonomous mode of operation 45, the equalization transformer 6 does not function and does not distort the output voltage of the source 5 of the EMF due to saturation in this mode of a kind of magnetic circuit.

Let the linear con- tactor 7 in the AC source 2 then turn on. At the same time, the own sensor 9 for turning on the line contactor 7 will operate and the signal of the logical unit will go to the corresponding element 11 and to the top 55 input of the multi-input element 10 in the AC source 1. Therefore, on both inputs of the element 11 in the source 1 of the alternating current there are signals of a logical unit, the output is a signal

of the logical unit with which the shunt key 8 is disconnected. A similar picture occurs in the alternating current source 2, here earlier on the lower input of the multi-input element OR 10 there was already a signal of the logical unit received from the alternating current source 1, therefore when the own sensor 9 turns on torus 7 at the input of its own element And 11 will be a logical unit and its own shunt key 8 will open. Thus, when the second AC source 2 was turned on, the power supply system was formed from two parallel operating AC sources. At the same time, the primary windings of equalization transformers 6 in both sources are not bridged, i.e. equalization transformers equalize the currents of the 5 EMF sources, which is required for normal operation.

Suppose now that the line contactor 7 is turned on in the AC source 3. At the same time, the own sensor 9 for turning on the linear contactor 7 is activated and the signal of the logical unit is fed to one of the inputs of the own element 11. Since the sources 1 and 2 of the alternating current were turned on, both signals of the multi-input element OR 10 are present units and, consequently, nz the second input element 11 will be a signal of a logical unit. Then the signal of a logical unit from the output of its own element 11 will turn off the shunt switch 8, and the equalization transformer 6 in the third AC source 3 also comes into operation. As a result, the power supply system was formed from three parallel operating sources of alternating current, in which the load current is divided between all sources approximately equally due to the included equalization transformers. If this turns out that the voltages of the sources 5 of the EMF in these sources differ from each other, then the equalizing current flowing through the secondary windings of the equalizing transformers 6 creates a magnetizing force (amperages) that align the currents of the sources with each other. In this case, the voltage at the load is equal to the average value of the voltages of the sources of emf.

In order to connect to parallel operation, K sources of alternating current must be an input element OR each source must have (K - 1) inputs

Claims (1)

Claims An uninterruptible power supply system containing synchronous AC sources, each of which has an equalizing transformer with a disconnecting shunt key and a line contactor connected in series with an EMF source, whose output terminals of the same name are combined and connected to a phase output terminal that differs from the purpose of improving the reliability of power supply by connecting to parallel operation of several sources of alternating current, the secondary windings of the balancing ransformatorov serially connected in a closed circuit and each AC power supply is further provided with a sensor incorporating a linear contactor, a multi-input element OR and a two-input element AND whose output is connected to the control input of the shunt key, one input of the element AND connected to the output of the switch-on sensor a linear contactor, another input of the element AND is connected to the output of a multi-input element OR, the inputs of which are connected to the sensors of turning on the linear contactor of other sources of re: mentoka.