SU1348931A1 - Cable inlet compartment of cabinet of complete switchgear - Google Patents

Abstract

The invention relates to electrical engineering and is intended to protect from the open arc of the cable entry compartments of cabinets of complete distribution devices. The goal is to increase reliability. The goal is achieved by the fact that the current transformer (CT) 8 of the middle phase of cable cuts 2 is equipped with an uninsulated conductor 6, which is hollow and at one end connected to the output of the primary winding TT 8, placed on the cable cuts 2 side, and pin 5 from the middle phase, output cable from cable gutter 2, passed through the cavity of conductor 6 and connected to the input of CT 8. Thus, the CT 8 flows only around the short circuit current, since only the conductor 6 is in contact with the arc, not the phase 5 terminal. 3 h. item f-ly, 6 ill. (L co o G) co (Rig. 1

Description

The invention relates to electrical engineering and is intended for protection against open arc of the cable entry compartments of switchgear cabinets.

(KRU).

The aim of the invention is to increase reliability.

FIG. 1 shows the cable entry compartment of the switchgear cabinet; in fig. 2 is a section A-A in FIG. one; in fig. 3-5 shows designs of an uninsulated medium phase conductor and its branches; in fig. 6 is an electrical circuit for connecting an uninsulated conductor to its branches.

The cable entry compartment of the switchgear cabinet contains cable 1, cable gutter 2 and three phase outlets - left 3, right 4 and middle 5. The terminals of phases 3-5 are insulated, for example, with insulated tape or cotton soaked insulation. This insulation can be performed both on the entire length of the phase output and on a part of its length.

The output of the middle phase 5 is provided with an uninsulated conductor 6, which is separated from the output of the middle phase 5 by the above insulation. Uninsulated conductor 6 is connected electrically and mechanically to the upper terminal of the primary winding of the current transformer (CT) 8 by means of a metal bridge 7. The terminals of the extreme phases 3 and 4 of cable dressing 2 provide current transformers cable entry protection.

If the protection is performed on three CTs 8, as can be the case in networks with voltages up to 1000 V, operating with a grounded neutral, the output of the middle phase 5 of the cable gutter 2 must be equipped with an additional CTs 8.

A supply busbar 9 is connected to the lower terminal of the primary winding of the CT 8, rigidly fixed to the support insulator 10. The supply busbar 9 of the middle phase is connected directly to the output of the middle phase 5 via a tip 11.

Uninsulated conductor 6 with its right end 12 has no electrical contact with the output of the middle phase 5 and its tip 11.

The metal rack 13, mounted on the wall 14 of the cable compartment of the switchgear cabinet, secures the cable 1, and also fixes the supply joint 9 and the cable gutter 2.

The walls 14, 15 and the bulkhead 16 define the cable entry compartment in the volume of the switchgear cabinet and are made, as a rule, from sheet metal.

On top of cable 1, a ground fault protection CT 17 can be installed.

Plug-in contacts 18 and 19 provide inlet with the help of inlet connectors 20.

Connection to cable cuts 2 switches 21.

The switch 21 can be mounted on a rolling out carriage 22, allowing it to be rolled out of the switchgear cabinet during repairs.

Pins 18 and 19 open. The pinouts of phases 3 and 4, as well as jumpers 7, are fastened to the upper pin of the TT 8 by means of a bolt 23. The guide bus 9 of the outer phases and the tip 1 1 of the pin of the middle phase 5 to the lower pin of the ТТ 8 are also bolted 24.

Uninsulated conductor 6 may 5 be made of strip steel. It is installed with a gap in relation to the output of the middle phase 5 and has no contact with it, except through jumper 7, which is rigidly attached to it by welding or bolts.

Installing uninsulated conductor 0 6 over the output of the middle phase 5 allows the use of the open arc property to rise upwards due to heated gases and, therefore, to move from the output of the middle phase 5 to the uninsulated conductor 6, 5, which will provide output to the TT 8, which the middle phase is not surrounded by load currents, but only by short-circuit currents during an accident in the cable entry section of the switchgear cabinet.

Uninsulated conductor 6 can be made in the form of a pipe (rigid or made of flexible steel hose).

In order to increase the protection zone of the uninsulated conductor 6 and extend it to the supply busbar 9, branch 25 can be electrically and mechanically connected to it by means of, for example, a rigid jumper 26, which is also insulated from the busbar 9 and the tip 11.

The jumper 7 additionally protects the terminals of the extreme phases 3 and 4 and the bolted connections 23 at the terminals of the extreme 0 phases 3 and 4.

By means of branch 25, tips 11, insulators 10 and plug-in contacts 18 are protected.

The branch 25 may be made in the form of a pipe (flexible with a rigid) from a metal strip.

In the case when the uninsulated conductor 6 is made in the form of a steel tube, it covers the current-carrying part 27 of the output of the middle phase 5, while in the pipe 6 there is 0 groove 28, due to which the heating of the steel pipe 6 is reduced due to the dissection of the paths that can be closed eddy currents.

The device works as follows.

In the case of a short circuit, accompanied by an open arc, such as arising between points 29, 30 and 31 on cable section 2, the arc from the output of the middle phase 5 is moved to the uninsulated conductor 6.

The movement takes place regardless of whether the cable cuts 2 receive energy from the phases of the modular switchgear switchgear or the busbars of the switchgear switchboard receive energy via cable 1, the cable cutter 2 works with an open arc as a reflective device for the arc. Therefore, the arc necessarily moves to points 29, 30 and 31 and involves the middle phase CT 8 in operation, as the short circuit current begins to flow through the inverter 21, the supply wiring and the current transformers 8 phases.

In this case, in the middle phase, the current flow is carried out by running out of the open arc to the uninsulated conductor 6. A short-circuit current flows through the jumper 7 to T 8 of the output of the middle phase 5. The TT 8 of the output of the middle phase 5 without time delay sends a signal to turn off the coil 32 turning off the switch 21.

Switch 21 will disconnect cable 1 incompletely. The operation of the TT 8 of the output of the middle phase 5 occurs only in emergency mode, when a short circuit takes place directly in the cable entry section of the switchgear cabinet and on the supplying OUJHHOBKC 20 switch 21.

In the case of a two-phase short circuit between the extreme phases (A and C) in a place located above the uninsulated conductor 6, CT 8 of the middle phase (B) is put into operation via jumper 7, which also leads to disconnection of the cable entry section of the switchgear cabinet without time delay.

The use of the invention makes it possible to increase the reliability of operation with arc short circuits and to reduce the amount of possible damage in the switchgear cabinet.

Claims (4)

1. Section of cable entry of the switchgear cabinet containing cable cuts with three phase leads, current transformers installed in the extreme phases, and supply busbar, characterized in that, in order to increase reliability, the output of the middle cable cuts is equipped with a non-insulated conductor , the wire is a jumper wire and an additional current transformer, and the uninsulated conductor is installed parallel to the cable grommet and connected to the first output of the primary winding the current transformer is connected with a conductive jumper, and the second output of the primary winding is connected to the output of the middle phase of the cable cuts with the help of a feed bus. 2. Section according to claim 1, characterized in that the uninsulated conductor is provided with a branch placed parallel to the feed busbar. 3. Section according to claim 1, characterized in that the non-insulated wire is made hollow and the cable gland is passed through it. 4.Backs on paragraphs. 1-3, characterized in that the branch from the uninsulated conductor is hollowed out and a supply busbar passed through it. five 0 Aa g 2 Fie.2 FIG. 3 Bb fig h FIG. five .6 Make up.1b Filippov Relaktor D. DolipichTehred I. VeresKorrector M. Maksimishinets Order 4804/53 Circulation 617 Signature VNIIPI USSR State Committee for Inventions and Discoveries I 13035, Moscow. G 35. Raushsk Nab., 4/5 Production and Printing Enterprise, Uzhtorod, ul. Project 4