DE19631817C1 - SF¶6¶ gas-insulated switchgear for distribution networks - Google Patents

Abstract

An SF6 gas-isolated switch installation for several switchboard sections, each with a three-pole separating switch and an earthing device. A switchboard section is equipped with a separating switch designed as a transformer switch. This can be a load-break switch, whose phases are combined with cutouts, or a load-isolating breaker. The switch installation has for the support of mobile switch contacts and the connection of cables and/or cutouts appropriate lead-throughs in the housing walls and switch shafts mounted on said walls, as well as omnibus bars for the fixed contact of phases L1, L2 and L3, and individual phase quenching devices directly connected to the omnibus bars (9). The quenching devices of the load-break switches that do not function as as transformer switches are equipped with sheet steel quenching chambers. Breaking ability must be enhanced with no extra space requirement. For this purpose blow-out coils (13, 13a) are introduced according to an arrangement which when in off position meets the requirements for a disconnected section, with a contact arrangement corresponding to the remaining load-break switches for the three phases of the switch designed as a transformer switch.

Description

The invention relates to an SF₆ gas-insulated switchgear for distribution networks with load disconnection switch cable panels and a switch disconnector fuse combination or a Lei Circuit breaker for transformer protection according to the preamble of claim 1 or 2.

Switchgear of this type is known. In network distribution stations usually means voltage switchgear used with three panels, two of which with ring cables connected and a control panel with high voltage fuses or a power disconnect switches for a transformer feeder.

From DE-OS 38 20 489 an SF₆ gas-insulated switch disconnector arrangement is known, in which the switch disconnectors are in an encapsulated case filled with sulfur hexafluoride (SF₆) Housing are arranged, a fixed and movable contact piece, one phase Earthing contact, and have an extinguishing device consisting of quenching plates, and in which the fixed contact pieces of the same phases are attached directly to a busbar and the extinguishing devices are each arranged next to these directly on the busbar are.

To keep such a switchgear smaller and more technically friendly To be able, are in a further development, which is the subject of DE 40 11 397 C2 has led to essential parts of the switch disconnectors in a prefabricated assembly have been summarized, inserted into the initially open housing and with the sem is connected. The earthing contacts belonging to the earthing device are at this switchgear attached to the switch shaft and easy to assemble.

The arc extinguishing devices arranged on the phases of the switch disconnectors have the task of quickly extinguishing the arc that occurs at this Switch off by opening the contacts and evaporating the last metal bridge caused by the heat of electricity. With alternating current, it depends on the charge carriers in the short time between a current zero crossing and the swinging up again effectively reduce sweeping voltage.

In addition to the extinguishing devices consisting of extinguishing sheets, there are other extinguishing devices known for electrical switchgear, including quenching coils in which the first arc is commutated and as a result of the current then flowing through the coil With a magnetic field that causes the arc to rotate and eventually is deleted.  

For example, EP 0 012 522 describes an electrical switching device with quenching coils on the fixed contacts. EP 0 021 577, EP 0 058 007 and EP 0 313 106 B1 also have electrical switching devices with quenching coils as arc quenching devices to counter was standing.

In the SF₆ switchgears mentioned above, the switch disconnector is a switch panel which is combined with a fuse attachment with high-voltage fuses with a striker, which are optionally encapsulated, the load break switch with a storage drive is equipped with a trip memory which is activated by a striker of one of these fuses can be actuated via a release linkage. Regarding the interaction of the security The switch disconnector leaves nothing to be desired. Also regarding the switch-off stung are in terms of the extinguishing plate arrangement used as a fire extinguishing device zen set.

It is an object of the invention to provide an SF₆ gas-insulated switchgear according to the preamble of Claim 1 and an SF₆ gas-insulated switchgear according to the preamble of the claim To create 2, which requires a constant increase in space for the switch arrangement have breaking capacity.

This task is performed in an SF₆ gas-insulated switchgear according to the generic term of Claim 1 and also in an SF₆ gas-insulated switchgear according to the preamble of Claim 2 each solved by their characteristic features. The generic Switchgear comprises several switch panels with three-pole switch disconnectors and one Grounding device, one of which is a panel with a transformer switch formed switch disconnector, the phases of which are combined with fuses, or may have a circuit breaker, and in which the fixed contacts of the Phases L1, L2 and L3 are firmly connected to busbars, on which extinguishing device lines are arranged for the individual phases, the deletion according to the invention directions for phases L1, L2 and L3 of the transformer switch Disconnector quenching coils and the quenching devices for the phases of the remaining scarf ter are known extinguishing chambers with quenching plates.

The arrangement of quenching coils on the transformer switch leads to an increased Breaking capacity of this switch for a given unchanged arrangement space, with the increased requirements for switch-fuse combinations or the elimination of short-circuit currents can also be taken into account.  

The extinguishing coils have one when the respective switch is switched off which meet the respective isolating distance conditions and ensure the switching capacity arrangement and design. In the switchgear according to claim 1 is the Spool edge area at least in the required minimum distance between the Switching contact and the distance from the switching contact corresponding to the fixed contact arranges, the coil axis of which is in the switch-off position includes a right or obtuse angle on the fixed contact side, and the quenching coils are white To ensure the switching capability, the base point of the arc is always above taking guiding element that extends into the immediate vicinity of the fixed contact and is arranged tangentially to the path of movement of the free end of the switching contact.

In the switchgear according to claim 2, the coil axis thereof is switched off position of the switching contact on the fixed contact side at an obtuse angle, the free end of the switch contact lies in the area of the coil axis and the coil radius is so large that the distance between the fixed contact side coil edge area and the switch contact at least the distance between the fixed contact and the switch contact corresponds, and the fixed contact-side coil edge area is sufficient to ensure the switching ability up to the immediate vicinity of the fixed contact and lies on the tan gente the path of movement of the free end of the switch contact.

The quenching coil and the fixed contact for the respective phase L1, L2 and L3 can expediently be arranged on a common cross member, which with the Busbar is connected for the respective phase and to which the movable switch Contact is pivotally arranged, such that this from the fixed contact NEN switch-on position in a switch-off position parallel to the crossmember and over it can be swiveled into an earthing position.

In both switchgear the quenching coils can preferably be arranged so that whose coil axis with the switch contact in the switch-off position on the Include an angle of 165 ° to 175 ° on the side facing the fixed contact.

In the switchgear according to claim 1, the quenching coils can also be arranged in this way and be designed so that these enclose the fixed contacts and that the guide element in the inside of the coil is directed.

To avoid increased erosion on the edges of the contacts at higher ones Switch-off currents can be the free ends of the movable switch contacts and the tear-off  edges of the fixed contacts must be provided with caps and burn-off strips that burn off stronger material than the respective contact material.

Finally, to facilitate assembly and reduce the need for Mon days required space in the switchgear with the quenching coils and the quenching chambers a module that can be inserted into the housing, which is initially open on the back be bound. This assembly can be made from the busbars with cross beams these fixed contacts, supports for the cross members and holding devices for Arrangement to be formed on the housing. The three belonging to the earthing device Earth contacts are attached to the switch shafts.

The invention is explained below using exemplary embodiments. The supplied show the following figures:

Fig. 1 is an SF₆-gas-insulated switchgear according to the invention in top view,

Fig. 2, the switchgear in rear view,

Fig. 3 is a phase of the combined with fuses circuit breaker,

Fig. 4 shows another embodiment of a phase of the switch disconnector combined with fuses and

Fig. 5 shows another fixed and switch contact version.

According to Fig. 1, the gas-insulated switchgear consists of a gas-tight housing 1 , in which three switch panels I, II and III are housed, each with a three-pole switch disconnector and an earthing device. The control panel l houses a load-break switch designed as a transformer switch, the phases L1, L2 and L3 of which are combined with fuses (not shown) via bushings 2 .

The switch disconnectors have switching knives 3 as movable switching contacts, which are designed as double knives. For phase L2, the switching knives 3 each rest directly on the respective bushings 2 , for phases L1 and L3 special switching knives are used which are connected to the associated bushings 2 by bearing pieces (not shown). The bushings 2 are all on the front side 4 of the housing 1st The switching knife 3 is actuated via a switch shaft 5 mounted on the walls of the housing 1 , which is connected via a lever 6 and a coupling rod 7 to the switching knife 3 . With the switch shaft 5 a Erdungskon clock 8 is directly connected.

The switching knife 3 can take three positions. In the switched-on state, the respective switch blade 3 contacts a fixed contact 10 which is firmly connected to a busbar 9 . The switch-on state is shown in panel III. In the switched-off state, the respective switching knife 3 is brought into a position which lies between the fixed contact 10 and the ground contact 8 . This switching state is shown in panel II Darge. In the earthed state, the respective switch blade 3 contacts the earth contact 8 , shown in the control panel I.

In the housing 1 there are three busbars 9 , on each of which the fixed contacts 10 of the respective phases L1, L2 and L3 of the switch disconnectors are arranged. Furthermore, net on the busbars 9 angeord for each phase L1, L2 and L3 fighting equipment, of which the extinguishing means to the phase of the backup free load break switch of the switching fields II and III equipped with quenching plates quenching chambers 12 and the extinguishing equipment to the phases of the fuses Combined load break switch of the control panel I are quenching coils 13 a. These ( 13 a) and the fixed contacts ( 10 ) are arranged on a cross member 14 connected to the respective busbar 9 , to which the switching blades 3 are aligned in parallel in the switch-off position. The quenching coils 13 a are arranged such that their coil axis A with the switch contact 3 in the switched-off position on the side facing the fixed contact 10 includes an obtuse angle of approximately α = 165 ° ( FIG. 3).

The quenching coils 13 a and the quenching chambers 12 are with the busbars 9 , the fixed contacts 10 arranged on the cross members 14 and connected to the busbars 9 via these fixed contacts 10 , supports 15 for the cross members 14 , holding devices 16 and struts 18 for arrangement on the housing 1 to one Assembled unit which can be inserted into the housing 1 via the rear side 19 before the same is sealed gas-tight.

The quenching coils 13 a each have an electrically connected to the end of the coil winding connected baffle 17 in the immediate vicinity of the respective fixed contact 10 , which has the width of a switching knife 3 and is arranged tangentially to the movement path of the free end of the same.

Fig. 2 shows the three busbars 9 and thereto via busbar sections 9 a arranged extinguishing coils 13. These are fixed to the crossbeams 14 , which also carry the Festkon contacts 10 , the crossbeams in turn being supported by the supports 15 , holding devices 16 and struts 18 on the housing. It can be seen that the control panel I does not require a larger arrangement space in the housing 1 than the control panels II and III.

In Fig. 3 the arrangement of a quenching coil 13 a is shown enlarged on one phase. The quenching coil 13 is held on a tab 20 , which is electrically coupled both with the winding start of the quenching coil 13 and with the cross member 14 and thus with the busbar 9 . The distance between the switch contact ( 3 ) and the fixed contact ( 10 ) is greater than the minimum required to comply with the isolating path conditions.

Fig. 4 shows an alternative quenching coil arrangement for the same switchgear, in which the quenching coils 13 a are arranged on a tab 21 such that the coil axis A with the switch blade 3 in the switched-off position includes a right angle β, the quenching coils 13 a Enclose fixed contacts 10 . The quenching coils 13 a in turn have an electrically connected to the end of the coil winding guide plate 17 in the immediate vicinity of the respective fixed contact 10 , which has the width of a switching knife 3 and is arranged tangentially to the movement path of the free end thereof.

The free ends of the switch blades 3 can be provided with caps 22 and the fixed contacts 10 with burn-off strips 23 in the illustrated embodiments of the switchgear assembly according to the invention for higher breaking currents to increase the erosion. The material of the caps 22 and the erosion bars 23 is more erosion-resistant than the base material of the respective contact 3 or 10 ( FIG. 5).

Claims (7)

1. SF₆-gas-insulated switchgear for distribution networks with a gas-tight housing for several, each having a three-pole switch disconnector and an earthing device, of which a switch panel is equipped with a switch disconnector designed as a transformer switch, the phases of which are combined with fuses, with busbars for the Fixed contacts of the phases L1, L2 and L3 and with extinguishing devices for the individual phases, the extinguishing devices of the switch disconnectors not used as transformer switches with quenching plates being provided with quenching chambers, the quenching chambers being connected directly to the busbars for holding moveable Chen switch contacts and the connection of cables and / or fuses suitable bushings on the walls of the long sides of the housing and with these gela ger switch waves, characterized in that the extinguishing devices for the Pha sen L1, L2 u nd L3 of the switch designed as a transformer switch with a switch contact arrangement corresponding to the other switches, quenching coils ( 13 a) in an arrangement which, when switched off, fulfills the isolating path conditions, for which purpose their coil edge area is at least at a minimum distance between the switch contact ( 3 ) and the fixed contact ( 10 ) is arranged at a corresponding distance from the switching contact ( 3 ) that the coil axis (A) with the switching contact ( 3 ) in the switched-off position has a right or obtuse angle (β; α) includes, and that the quenching coils ( 13 a) to ensure the switching ability each have a foot point of the arc taking over guide element ( 17 ) which extends into the immediate vicinity of the fixed contact ( 10 ) and tangential to the path of the free end the switching contact ( 3 ) is arranged. 2. SF₆ gas-insulated switchgear for distribution networks with a gas-tight housing for several switchgear, each with a three-pole switch disconnector and an earthing device, of which one switchgear panel is equipped with a circuit breaker designed as a transformer switch, the phases of which are combined with fuses, with busbars for the Fixed contacts of phases L1, L2 and L3 and with extinguishing devices for the individual phases, the extinguishing devices of the switch disconnectors not used as transformer switches being provided with quenching plates, quenching chambers, the quenching chambers being connected directly to the busbars, for holding movable ones Switch contacts and the connection of cables and / or fuses suitable guides on the walls of the long sides of the housing and with switch shafts mounted on them, characterized in that the extinguishing devices for phases L1, L 2 and L3 of the switch in the form of a transformer switch with a switching contact arrangement corresponding to the other switches, quenching coils ( 13 ) in an arrangement which, when switched off, meet the separation path conditions, for which purpose their coil axis (A) with the switching contact ( 3 ) in the switched-off position has a blunt contact on the fixed contact side Includes angle (α) and the free end of the switch contact ( 3 ) lies in the area of the coil axis (A) and the coil radius is so large that the distance between the coil edge area on the fixed contact side and the switch contact ( 3 ) is at least the distance between the fixed contact ( 10 ) and the switch contact ( 3 ), and that the fixed contact-side coil edge area of the quenching coils ( 13 ) to ensure the switching ability in the immediate vicinity of the fixed contact ( 10 ) and on the tangent of the movement path of the free end of the switch contact ( 3 ) is arranged. 3. Switchgear according to claim 1 or 2, characterized in that the quenching coils ( 13 ; 13 a) and the fixed contact ( 10 ) for the respective phase L1, L2 and L3 on a cross member ( 14 ) connected to the respective busbar ( 9 ) are arranged, to which the movable switch contact ( 3 ) is aligned parallel in the switch-off position. 4. Switchgear according to claim 1 or 2, characterized in that the dull win kel (α) is 165 ° to 175 °. 5. Switchgear according to claim 3, characterized in that the quenching coils ( 13 a) are arranged and designed such that they enclose the fixed contacts ( 10 ), and that the guide element ( 17 ) is directed into the coil interior. 6. Switchgear according to claim 2, characterized in that the free ends of the movable switch contacts ( 3 ) with caps ( 22 ) and the fixed contacts ( 10 ) at the tear-off edge with burn-off strips ( 23 ) made of a more erosion-resistant material than the respective con tact material are. 7. Switchgear according to claim 1 or 2, characterized in that the quenching coils ( 13 ; 13 a) and the quenching chambers ( 12 ) are connected to a module which can be inserted into the housing ( 1 ) which is initially open at the rear ( 19 ) and which consists of the busbar NEN ( 9 ) with cross members ( 14 ) attached to these fixed contacts ( 10 ), supports ( 15 ) for the cross members ( 14 ) and holding devices ( 16 ) for arrangement on the housing ( 1 ) is gebil det, and that three earthing contacts ( 8 ) belonging to the earthing device are attached to the switch shafts ( 5 ).