SU299912A1 - ICH LIBRARY - Google Patents

Description

The invention relates to the field of power engineering and concerns, in particular, high voltage direct current transmissions.

The invention can be applied to transducers with one, two or several parallel branches in each half chain or branches feeding different receiving substations.

Distributing devices for midpoints of converters of bipolar direct current power transmissions are known, made in the form of a single busbar section, to which elements of the midpoint circuit are connected via disconnectors or half-connected: inverters, protective, measuring, and other equipment.

However, in such devices, in the event of an accident (on midpoint tires or equipment of any connection to the tires) or in the event of a revision (or repair work), there is a complete loss of power transmission.

It is known a switchgear consisting of two sections of tires, which are constantly closed through a switch, with duplication on each section of the connections of the remote working ground line. The line is made up of two or more independently isolated bundles of wires, and each half-chain of the converter is fixed on its section.

tires. Such a solution ensures the accurate operation of the relay stitch protection of a nu-chain converter by automatically disconnecting the sectional switch and separating each half-rate converter to its bus section on its circuit of the remote working ground line, as well as eliminating energy flows to the emergency semi-chain through midpoint buses.

Such a device improves the reliability of the operation of direct-current power transmissions for transmissions operating in the base of the daily schedule with a large annual number of hours of maximum use. However, in the case of a revision or

The repair of the working current, even in the normal mode of transmission, flows for a long time through both circuits of the remote working ground line and through the ground itself, this is also associated with additional energy notaries.

In this case, it is necessary to remove from work the transverse differential protection of the wires of the remote working ground line, since the current in the wires flows into

different sides.

The aim of the invention is to increase the reliability of the device.

Neither of which are connected semi-chains of converter bridges.

FIG. Figure 1 shows an example of the connection of switchgear elements according to the "square" scheme for converters with one branch in semi-chains; in fig. 2 - the same, if there are two parallel branches in each half-chain of the converter; in fig. 3 shows an example of connecting the switchgear elements to a diagram of two connected "squares with two parallel branches in each half-chain of the converter; in fig. 4 shows an example of the connection of the switchgear elements according to the hexagon scheme with a busbar switch, if there are two parallel branches in each half-chain of the converter.

Two sections of busbars 1 v (2 switchgears are connected overlapping sets of 3 protection and measuring equipment and chain 4 lines of remote working ground 5. The branches 6–9 of half-chains 10 and // converter are connected to chains of two or three single-phase switches 12 current according to the "square" of two "squares or" hexagons with a bus connecting switch 13. Switches 12 and 13 are connected through disconnectors 14, branches 6-9 and are equipped with disconnectors 15 and 16.

Such a switchgear allows the following necessary operations:

1. Introduction to the audit or repair of busbar sections / or 2 switchgears by remote disconnecting (manually) the switches 12 and 13 adjacent to these sections (two switches in Fig. 1 and 2, four switches in Fig. 3, three in Fig. 4 switch). The same operation is carried out by automatically turning off the same switches 12 and 13.

2. Switch-over of a switch 12 or 13 to the revision or repair in the circuit with its disconnection on both sides by non-operative disconnectors 14. (The operation of the circuit is not disturbed).

3. Remote disconnection of any branch 6-9 of semi-chains 10 or // converter (after it is blocked by valve grids and the branch is disconnected by a linear disconnector / 5) by switches 12 adjacent to the node of its connection to the circuit.

The disconnection of any branch, for example 6, half-chain 10, is accompanied by an additional remote disconnection operation by disconnector 15 (outside the circuit of a square or hexagon) with locked valve grids, branch bridges 6 and disconnecting the branch from the line side with a linear disconnector 15 (see Fig. 2 and four).

4. Selection of semi-chains 10 and 1 on the busbar section 1 and 2 of the switchgear with their independent connection via line 4 to the remote working ground 5

when taken out for repair or after an accident on one of these half-chains. This is accomplished by remotely manually or automatically disconnecting the switches 12 of two opposite sides (squares (see Figs. 1, 2 and 3) or two switches 12 of triple chains adjacent to different sections of the junction 2 and junction switch 13 (see Fig. 4) .After the operation of the relay protection circuits of the corresponding half-chain 10 to 11, the switches 12 and 13 can be automatically put into operation again.

4. Ensuring the operation of only two cross-branches, for example, 6 and 9, with branches x 7 and S disconnected using switches 12 adjacent to the node of these connections, and the diagram in FIG. 2 and with the help of the corresponding disconnectors 14 of these branches.

In carrying out all these operations work

single-phase switches 12 and 13 of the non-alternating current in the DC circuit are greatly facilitated by the parallel circuit of low resistance across the earth. As soon as the arcing contacts disconnect

Circuit breaker 12 and 13 will cause an arc in which a voltage drop is required according to the required value, the direct current will begin to be fully transferred to the parallel current circuit. Switches 12 and 13, as well as disconnectors 14

(see Figs. 1 and 2) should be designed for the total operating current of the transmission, while in the circuits of Figs. 3 and 4 - only at half the current transfer (operating current only one branch 6-9). If the rated current

switches 12 vi 13 - disconnectors 14 (see FIGS. 3 and 4) is the limit on the scale of the apparatuses, then in the circuit of FIG. 1 and 2 it is possible to install two parallel-connected single-phase switches and disconnectors

instead of single phase.

For the considered schemes it is most expedient to use switches with forced extinguishing of the arc, for example air.

Each circuit of line 4 of the remote working ground 5 must be designed for the transmission of the total operating current of the electricity transmission. When imposing an accident in any of the branches

6, 8 or 7, 9 converters for revision of one of two switches 12 "hexagon, adjacent to the circuit of line 4 of the remote working ground 5, two branches 6, 8 or 7, 9 of the same semi-chain of 10 or 11 constant power transmission current.

Subject invention

Claims (3)

1. The midpoint switchgear of a bipolar converter of direct current, containing two sections of women with attached bridges, sets of auxiliary and remote working ground lines for a solid grounding of the midpoint of the converter, characterized in that, in order to increase reliability, between the bus sections there are two chains of two series-connected switches, to the connection points of which half-connected converter bridges are connected. 2. A distribution device according to claim 1 with half-chains made of parallel branches, characterized in that between the spindle sections there are two additional connected in series switches for a half-chain, to the junction of which one of the parallel branches is connected. 3. A switchgear according to claim 1 with half-chains made of parallel branches, characterized in that a third switch is turned on in series with these two switches, and parallel branches are connected between the points of connection of the switches. .ten sixteen sixteen fus.J rjn L :: J sixteen r L.JJ fuz i  J