SU1136249A1 - Circuit for generator voltage switchgear - Google Patents

Abstract

1. A SCHEME OF THE DISTRIBUTION DEVICE OF GENERATOR VOLTAGE, consisting of generators, primary transformers, switches and disconnectors, distinguished by the fact that, in order to increase the reliability in operation, it is made in the form of a polygon, each side of which is a circuit, which start of the generator and primary windings of the transformer are connected by a disconnector, and the end of 1 of these windings is connected with a switch. 2. The circuit according to claim 1, about the aphid arrays, so that, in order to allow for the isolated operation of each circuit, disconnectors are connected between adjacent circuits. 3. Scheme popp. 1 and 2, characterized in that, in order to enable the operation of a generator of one circuit with a transformer located near the circuit and repair of switches, the ends of the windings of generators and transformers of the same name (L mators of adjacent circuits are connected by additional switches.

Description

The invention relates to the power industry, namely to the distribution device scheme. The schemes of switchgears of power stations are known, in which the connection of generators between themselves is carried out on top-voltage tires of the hundred st If If the disadvantage of such schemes is their complexity. The generator switchgear circuit is also known} consisting of a generator of the primary windings of transformers, switches and disconnectors 2J. The disadvantages of the known block scheme are the impossibility of reserving the elements of the block and the impossibility of repairing any element without disconnecting the block. When either the generator or the transformer fails, the entire unit shuts off. The purpose of the invention is to increase reliability, to ensure the possibility of isolated operation of each circuit, and to enable operation of a single circuit generator with a transformer near a circuit and repair of switches. The goal is achieved in that the generator voltage switchgear circuit consisting of generators, primary transformer windings, switches and disconnectors is made in the form of a polygon, each side of which is a circuit in which the beginnings of the generator winding and the primary transformer winding are connected by an isolator, and the ends of the named windings - the switch, Moreover, between adjacent circuits can be executed disconnectors, In addition, the ends of the windings of the generators of the same name and t Ranformators of adjacent circuits can be connected with additional switches. Fig. 1 shows the triangle layout; FIG. 2 is a diagram of a quadrangle in FIG. 3; a diagram of a pentagon; FIG. FIG. 4 is a polygon diagram. Triangle, quadrangle, and pentagon circuits are schemes for three, four, five pairs of generators 1, the primary windings of 2 transformers connected by a switch 3 and disconnector 4, and three, respectively, five main circuits, respectively. Neighboring circuits are interconnected by jumpers with disconnectors 5. The cross connection between the circuits is made using additional switches 6, which connect the windings of the stators of the generators and the primary windings of the transformers of the adjacent circuits of the same name. If there are wool of generator-transformer pairs, a hexagon circuit is similarly assembled, but in most cases it is advisable to assemble two independent triangles, and the connection between them takes place on the higher voltage side of the transformers. In all the above schemes, the HV transformer windings are connected according to any of the known schemes and can operate in both insulated and grounded neutral modes. In contrast to the known schemes, the proposed one has a cross-connection between the circuits. Therefore, if one of the elements of the contour generator 1 or transformer 2 or switch 3, 6 (or when they are repaired) is damaged, it is possible to use intact circuit elements in the circuit. Simultaneous switching on of all switches 3 and 6 makes it possible to interconnect all generators 1 and transformers 2 circuits in parallel (FIG. 4), with additional switches 6 creating a kind of sectioning with a busbar ring system, where each section is connected to a generator 1 and a transformer 2 , G ... as the first example, consider the operation of the circuit when the output (output) of the transformer 2 of the circuit A (Fig. 1 and 4). The main circuit A is disassembled by switch 3 on the generator voltage and a switch on the HV side of transformers 2, Dp repair the damaged transformer 2 is separated on all sides by disconnector 4 and disconnectors of switches 3 and 6, Generator 1 circuit A by switch 6 is connected to circuit B, and It can also be connected to circuit B with another switch 6. When leaving generator 3 for circuit 1 circuit A, a transformer 2 of this circuit can be used in the same way (to reduce total losses and increase reliability). As a second example, consider the operation of the circuit when the output of transformer 2 of train A and generator 1 of circuit B is removed. on the generator voltage and the switch on the HV side of the transformer 2, and circuit B with its switch 3. Repair the generator 1 of circuit B and transformer 2 of circuit A are separated by disconnectors 4. If switch 6 between circuits B and A is off, it turns on and A new circuit consisting of the generator 1 of circuit A, transformer 2 of circuit B, switch 6 and disconnector 5 (Fig. 4) is assembled. The application of the invention will significantly improve the use of equipment. If at present the damage of one of the block elements leads to the exit of the entire block, then the proposed scheme allows all remaining operational equipment to be used, namely: if the generator is damaged (output for repair), you can connect transformer to the neighbor I of the circuit and transmit electricity through an additional transformer, which leads to a decrease in 494 total losses of electricity. Even greater efficiency will be if a generator is damaged in one of the circuits, and a transformer in the other. The proposed scheme allows to assemble a new circuit based on intact equipment. The invention also permits, without disconnecting from the operation of the main equipment, to repair all switches. A significant economic effect can be achieved due to the fact that all generators and primary windings of transformers can continue to operate if the insulation is damaged. Damage to the insulation with respect to the earth or between individual phases leads to the appearance of a point with a common potential, there is no short circuit current (TK), since there is no circuit through which it could close. T.k. it can only occur if the insulation is damaged in at least two points of the same phase, which is rarely the case. Damage to the insulation relative to the ground in various tracks of all three phases also does not lead to a short circuit. Thus, damage to the insulation at any point in the circuit does not cause overcurrents, which alleviates the condition of equipment operation. & 1 switches in this case commute only load currents. Lack of overcurrent to. allows, with timely monitoring, to disconnect for the revision and repair of equipment in order to prevent damage from thermal and dynamic effects of overcurrents.

Claims (3)

1. GENERATOR VOLTAGE DISTRIBUTION CIRCUIT in which the start of the generator winding and the primary winding of the transformer are connected by a disconnector, and the ends of the named windings are connected by a switch. 2. The scheme of pop. 1, characterized in that in order to enable the isolated operation of each circuit, disconnectors are connected between adjacent circuits. 3. The scheme popp. 1 and 2, characterized in that, in order to ensure the possibility of operation of a generator of one circuit with a transformer of a nearby circuit and repair of switches, the ends of the same windings of generators and transformers of adjacent circuits are connected by additional switches. 1 1136249, 2