SU775820A1 - Electrotechnical equipment - Google Patents

Description

The invention relates to electrical installations, in particular to power devices for critical consumers, and can be applied to a group of power consumers.

A load power device with multiphase windings U] is known. Two lines are connected to the phases of the load, at the end of which there are on / off switches. However, the position of the circuit breakers corresponds to a three-phase ¹⁰ k. E., The second to connecting to a power source. The switches must be in opposite positions.

The closest technical Niemi The solution ¹⁵ is electrical installation comprising CVA synchronism independent voltage source trehfaenogo included through special power transformers, the unlike phases of the transformers ²⁰ are connected in series. The phases of the same name are connected through reactors. The load is connected to series-connected phases of transformers [2].

The disadvantage of this device is its complexity, since it additionally contains reactors and two transformers. Moreover, one of them works in the short circuit mode, therefore, the total installed power of the transformers exceeds twice the load power. Connecting independent sources through reactors increases the short-circuit currents in the network. Damage inside any transformer leads to failure of the entire device, to de-energize consumers, and consequently, to a decrease in the reliability of their power supply.

The aim of the invention is to reduce the cost of the device, by eliminating transformers and reactors, and increasing the reliability of power supply to the load.

This goal is achieved by the fact that in an electrical installation containing two independent synchronous sources, power and load, in which the load is made in two equal parts, with one phase A, B, C terminals connected to each other, to the connection point of the phase A terminals the phase C terminal of the first source is connected, the phase B terminal of the first source is connected to the phase C terminal, the phase C terminal of the first source is connected, the phase A terminal of the first source is connected, the second phase A terminal of the first consumer group is connected to the second terminal phase C house of the second group, and the phase B terminal of the second source is connected to this point, the second phase B terminal is connected to the second terminal of phase A of the second consumer group, and the phase A terminal of the second source is connected to this point, the second terminal phase C of the first group of consumers is connected to the second terminal of phase C of the second group of consumers, heifers, and the terminal of phase C of the second source is connected to this point.

In FIG. 1 shows a power supply device for receivers; in FIG. 2 vector stress diagram.

The device is as follows.

Electric receivers are divided into two groups of equal power 1 and 2. Phases

B, C of group 1 are connected to the phases of group 2 into a hexagon with a sequential transition from one group to another. Through one of the three vertices of this hexagon 3, 4, 5 are connected to the three phases A ₀ , B _{6 of the} first independent source 6. The other three vertices 7, 8, 9 are connected to the three phases of the second independent source 10 in antiphase.

The device operates as follows.

In normal mode, when both sources 6 and 10 are turned on, the phases of the group

A, B, C are connected to voltages C ^ V qB ^ A ^ -A ^ C ^ cm. vector diagram of FIG. 2), the phases of the second group are on. voltages C _g Αθ · In other words, a symmetrical three-phase voltage is applied to the phases of each group. When the first source of the 6th phase is disconnected, the phase receivers are paired and sequentially connected to the voltages AB, BC, C A, which are 1.73 more phase, therefore, the voltage is 1.73 / 2 ~ 0.865 of the rated voltage on the power receivers. Similarly, the device works when the second source 10 is turned off. In this case, the phases of the receivers turn out to be connected to the voltages AB, BC, CA. With a three-phase short circuit from the side of the first source 6, the phases of group 1 turn out to be connected to the voltages of AC, AO, CO, and the phases of the second group to the voltages of AO, CO, VO.

’That is, in this case, the receivers retain the full rated voltage, and this mode is normal. The three-phase short circuit mode from the side of the second source 10, 15 is also normal. In this case, the rated voltage is maintained at the receivers.

Thus, the proposed device allows you to save a sufficient 20 voltage at the sources of damage in the network.

Claims (2)

 The invention relates to electrical installations, in particular, to power consumers of responsible consumers, and can be applied to a group of power consumers. It is known a power supply device with multiphase windings ilj. Two lines are connected to the load phases, at the end of which there are on-off switches. However, the position of the switches corresponds to the three-phase K. 3., the second to the connection to the power source. The switches must be in opposite positions. The closest technical solution is an electrical installation, containing two independent synchronous three-phase voltage sources connected via special power transformers, the opposite phases of the transformers are connected in series. The horny phases of the sources are connected through reactors. The load is connected to the series-connected phases of transformers 21. A disadvantage of this device is its complexity, since it additionally contains reactors and a transformer left. Moreover, one of them operates in the short-circuit mode, therefore, the total installed power of transformers exceeds twice the load power. Connecting independent sources through reactors increases the short-circuit currents in the network. Damage inside any transformer leads to failure of the entire device, to a de-energization of consumers, and consequently, to a decrease in the reliability of their power supply. The aim of the invention is to reduce the cost of the device, by eliminating transformers and reactors, to improve the reliability of the power supply to the load. This goal is achieved by that in an electrical installation containing an ava independent synchronous source of power and a load in which the load is produced in two equal parts, for-. than one terminals of phases A, B, C are interconnected, the phase C output of a source source is connected to the connection point, the phase B terminal of the first source is connected to the connection point of phase B terminals, the phase terminal is connected to the connection point of phase C terminals And the first source, the second output of phase A of the first group is connected to the second end of phase C of the primary group, and the output of phase B of the second source is connected to this point, the output of phase B of the first group is connected to the second output of phase A of the second group consumers, and this point is connected to output phase A of the second source; second output phase C of the first group. " consumer points connected to the second. the output of phase C of the second group of consumers, and the output of the phase C of the second source is connected to this point. FIG. 1 shows the receiver power supply device of FIG. 2 - vector voltage chart. The device is as follows. Electric receivers are divided into two groups of equal power 1 and 2, Phases AJ B, C of group 1 are connected to phases A; В „С group 2 to a hexagon with a continuous transition from one group to another. Through one, three vertices of this hexagon 3, 4, 5 are connected to the three phases A, B, C of the first independent source 6, the other three vertices 7, 8, 9 are connected to three A B .. of the second independent source 1 and in antiphase. The device works as follows. In the normal mode, when both sources 6 and Yu are turned on, the phases of group 1 A, B, C are connected to the GB-BgA.QAgC voltages (see the vector diagram of Fig. 2G, the phases of the second group are on, the voltage C And C. C A, B, Others. About 10 o lO o | o Saunas, a symmetrical three-phase voltage is applied to the phases of each group. When the first source is disconnected, the 6 phases of the receivers are connected in pairs and in series with the AV, BC С А, which is 1.73 more than phase, therefore, on the electric receivers, the voltage of 1.73 / 2 0.865 from the nominal is maintained. The operation works when the second source is disconnected 10. In 4th case, the phases of the receivers turn out to be connected to voltage B, BC, CA. With three short short circuits from the first source 6, the phases of group 1 turn out to be connected to voltage AC, AO, CO, and the phases of the second group on the voltage AO, CO, VO, i.e. in this case, the full nominal voltage is retained at the receivers, and this mode is normal. The three-phase short-circuit mode from the side of the second source 10 is also normal, in this case the nominal voltage on the receivers remains. Thus, the proposed device allows to maintain sufficient voltage at the sources in the event of damage to the network. The invention Electrotechnical installation, containing two independent synchronous power sources and a load, characterized in that, in order to reduce the cost and increase the reliability of operation, the load is made in two equal parts, one of the outputs of their phases A, B, C are interconnected, The point of connection of the phase A leads is connected to the phase C output of the first source, the phase B connection of the first source is connected to the phase B connection point, the phase A terminal of the first source is connected to the connection point of the phase C terminals, the second phase output And the first part of the load is connected to the second output of phase C of the second part of the load and the point of phase B of the second source is connected to this point, the second step of the phase B of the first part of the load is connected to the second end of phase A of the second part of the load and the point of the second source is connected to this point The second phase C view of the first part of the load is connected to the second phase terminal. In the second part of the load C, the phase C terminal of the second source is connected to this point. Sources of information taken into account during the examination 1. USSR author's certificate M 463192, cl. H 02 J 9 / O6, 1972. 2. USSR Author's Certificate No. 59999, cl. H, 1973 .. 775820 uQiljij