DE102017203894A1 - Switch arrangement and air-insulated switchgear - Google Patents

Abstract

The invention relates to a switch arrangement (1) comprising a plurality of circuit breakers (5 to 7) and a circuit breaker (3). The circuit breaker (3) has two contact terminals (15, 17) whose electrical connection through the circuit breaker (3) can be interrupted. Each disconnect switch (5 to 7) has a contact arm (23) which is connected between a first switching position, in which it is electrically connected to a contact terminal (15, 17) of the circuit breaker (3), and a second switching position, in which he this contact terminal (15, 17) is electrically isolated, is movable.

Description

The invention relates to a switch assembly with a plurality of circuit breakers and a circuit breaker and an air-insulated switchgear.

Disconnectors are used in high- and medium-voltage switchgear to electrically separate plant components from each other, for example to carry out maintenance, inspection or conversion work safely. Disconnectors are powerless, that is connected without connected to the circuit breaker electrical loads. Circuit breakers, on the other hand, are designed to switch off current paths even under high current load, for example in the event of a short circuit, in order to protect system components from damage due to electrical overload. Because of the different functions of circuit breakers and circuit breakers, high-voltage and medium-voltage switchgear usually use both isolating switches and circuit breakers.

The invention has for its object to provide an improved switch assembly with multiple disconnectors and a circuit breaker and an improved air-insulated switchgear.

The object is achieved with respect to the switch assembly by the features of claim 1 and in terms of the air-insulated switchgear by the features of claim 13.

Advantageous embodiments of the invention are the subject of the dependent claims.

A switch assembly according to the invention comprises a plurality of circuit breakers and a circuit breaker, the circuit breaker having two contact terminals whose electrical connection is interruptible by the circuit breaker, each circuit breaker having a contact arm which is electrically connected between a first switching position in which it is electrically connected to a contact terminal of the circuit breaker. and a second switching position in which it is electrically isolated from this contact terminal, is movable, and each contact terminal is electrically connected to the contact arm of at least one disconnector in the first switching position.

The switch assembly thus combines a circuit breaker with a plurality of circuit breakers such that a current path between different circuit breakers can be interrupted by the circuit breaker. This advantageously causes a cost savings through the direct integration of the circuit breaker in the circuit breaker assembly. Furthermore, the on-site assembly work for the assembly of the switch arrangement is advantageously reduced. In addition, the direct integration of the circuit breaker in the circuit breaker arrangement advantageously allows a reduction in the space requirement of the switch assembly.

An embodiment of the invention provides that the circuit breaker is designed as a vacuum switch. Compared with circuit breakers, the switching chambers are filled with an insulating gas, such as sulfur hexafluoride, to extinguish arcs, the design of the circuit breaker as a vacuum switch has the advantage that no insulating gas, in particular no greenhouse gas such as sulfur hexafluoride, is used.

A further embodiment of the invention provides a frame on which all circuit breakers and the circuit breaker are arranged. For example, the frame has a support with a central region, on which the circuit breaker is arranged, and a plurality of support arms connected to the central region, on each of which a circuit breaker is arranged. This advantageously allows a compact design and a simple mounting of the switch arrangement.

A further embodiment of the invention provides at least one earthing switch for grounding a disconnector. This allows earthing of at least one circuit breaker by means of a grounding switch integrated in the switch arrangement, so that no external earthing switch is required for earthing this disconnecting switch.

A further embodiment of the invention provides at least one current transformer electrically connected to a contact connection of the circuit breaker. For example, the current transformer is designed as an optical current transformer. As a result, an electrical current flowing via a contact connection of the circuit breaker can advantageously be detected and monitored by a current transformer integrated in the switch arrangement. An optical current transformer advantageously makes it possible to measure the current on the high-voltage side with full potential isolation. The current-dependent signals of the optical current transformer are thereby guided by optical fibers to an evaluation electronics.

A further embodiment of the invention provides at least one voltage converter electrically connected to a movable contact arm of a circuit breaker. As a result, an electrical voltage applied to a contact arm of a circuit breaker can advantageously be detected and monitored by a voltage converter integrated in the switch arrangement.

A further embodiment of the invention provides that the circuit breakers are arranged distributed around the circuit breaker. As a result, the circuit breakers are advantageously arranged such that they do not interfere with each other.

A further embodiment of the invention provides that at least one circuit breaker has a rotary insulator which is rotatable about its longitudinal axis and is coupled to the contact arm of this circuit breaker, that the contact arm between its switching positions by rotations of the rotary insulator is movable. This embodiment of the invention allows the movement of a contact element by a rotary insulator of a circuit breaker. This may be particularly advantageous if the contact element is arranged at an upper end of the circuit breaker, so that it is easier to drive the rotary insulator and to transmit its movement to the contact element as the contact element to drive directly.

A further embodiment of the invention provides that an interrupter unit of the circuit breaker is arranged in an insulator column. As a result, the interrupter unit can advantageously be electrically insulated from other components to which an electrical voltage is applied and can be arranged at a sufficient spatial distance.

A further embodiment of the invention provides a combination drive through which at least one movable contact arm of a circuit breaker and a movable switching element of the circuit breaker can be driven. As a result, separate drive units for movable switching elements of the circuit breaker and contact arms of disconnectors can advantageously be replaced by a common combination drive.

An air-insulated switchgear according to the invention has a plurality of switch arrangements according to the invention. In particular, all disconnectors and circuit breakers of several switch assemblies can be arranged on a connecting frame. The advantages of an air-insulated switchgear according to the invention result from the abovementioned advantages of a switch arrangement according to the invention. The arrangement of all circuit breaker and circuit breaker a plurality of switch assemblies on a common connection frame, a compact design and ease of assembly of the switch assemblies can be advantageously further improved.

• 1 eine Schalteranordnung mit einem Leistungsschalter und drei Trennschaltern und
• 2 einen Teil einer luftisolierten Schaltanlage mit mehreren Schalteranordnungen, die jeweils drei Trennschalter und einen Leistungsschalter aufweisen.

The above-described characteristics, features, and advantages of this invention, as well as the manner in which they will be achieved, will become clearer and more clearly understood in connection with the following description of exemplary embodiments which will be described in detail in conjunction with the drawings. Showing:

• 1 a switch assembly with a circuit breaker and three circuit breakers and
• 2 a part of an air-insulated switchgear with several switch assemblies, each having three disconnectors and a circuit breaker.

Corresponding parts are provided in the figures with the same reference numerals.

1 shows a perspective view of a switch assembly 1 with a circuit breaker 3 and three circuit breakers 5 to 7 ,

The circuit breaker 3 has two stacked tubular insulator columns 9 . 11 on. In the upper insulator column 9 is a breaker unit of the circuit breaker 3 arranged, which has at least one movable switching element for opening and closing a current path. Through the lower insulator column 11 a shift rod is guided, which is coupled to the at least one movable switching element. Furthermore, the circuit breaker 3 a circuit breaker drive 13 on, by which the at least one movable switching element via the shift rod is movable. The circuit breaker drive 13 is designed for example as a motor drive or as a spring-loaded drive.

The circuit breaker 3 has two contact connections 15 . 17 on top of that by the circuit breaker 3 interruptible current path are arranged and their electrical connection can be interrupted by the circuit breaker by opening the current path. A first contact connection 15 is at an upper end of the upper insulator column 9 arranged. The second contact connection 17 is at a lower end of the upper insulator column 9 arranged.

The circuit breaker 3 is designed, for example, as a vacuum switch which has a vacuum switching chamber or a plurality of vacuum interrupters connected in series, the movable switching elements of a movable insulating rod between a first switching position in which the current path is closed, and a second switching position in which the current path is interrupted moves can be.

Every disconnector 5 to 7 has a post insulator 19 , a rotary isolator 21 , a movable contact arm 23 and a circuit breaker drive 25 on. The contact arm 23 is at an upper end of the post insulator 19 arranged. Every contact arm 23 is between a in 1 shown first Switch position in which he uses a contact terminal 15 . 17 of the circuit breaker 3 electrically connected, and one in 1 dashed second switching position in which he from this contact terminal 15 . 17 is electrically isolated, movable.

Here is the contact arm 23 a first disconnector 5 in its first switching position with the first contact connection 15 of the circuit breaker 3 electrically connected. The contact arms 23 the other two disconnectors 6 . 7 are in their first switching positions each with the second contact terminal 17 of the circuit breaker 3 electrically connected. For example, the circuit breaker 6 . 7 output side can be connected to different current paths, so that the switch assembly 1 allows the opening and closing of different current paths.

In the in 1 shown embodiment is each contact arm 19 rod-shaped and pivotable about a pivot axis which is perpendicular to the longitudinal axis of the contact arm 23 through a support insulator end of the contact arm 23 runs. In an alternative embodiment, at least one contact arm 23 but also be designed differently or movable. For example, at least one of the contact arms 23 two contact arm sections connected by a hinge and in the movement of this contact arm between its two switching positions, an angle between the Kontaktarmabschnitten can be changed via the joint. Furthermore, at least one of the contact arms 23 pantograph-like and / or the movement of at least one of the contact arms 23 may be a pivotal movement about another than the aforementioned pivot axis, for example about a pivot axis, which is parallel to the longitudinal axis of the support insulator 19 is where the contact arm 23 is arranged.

The rotary isolator 21 every disconnector 5 to 7 is through the circuit breaker drive 25 of the disconnector 5 to 7 rotatable about its longitudinal axis and by a contact arm gear 27 to the contact arm 23 of the disconnector 5 to 7 coupled so that the contact arm 23 between its switching positions by rotations of the rotary insulator 21 is movable. The circuit breaker drives 25 For example, each formed as a motor drive.

The circuit breaker 3 and the circuit breakers 5 to 7 are on a rack 29 arranged. The frame 29 includes a carrier 31 with a central area where the circuit breaker 3 is arranged, and a plurality of carrier arms connected to the central region, to each of which a circuit breaker 5 to 7 is arranged. Furthermore, the frame has 29 support legs 33 on that on the wearer 31 are arranged and on which the switch assembly 1 can be set up.

Optionally, the switch assembly 1 Furthermore, at least one earthing switch 35 , at least one current transformer 37 or / and at least one voltage converter 39 on.

This in 1 shown embodiment of a switch assembly 1 points for each circuit breaker 5 to 7 a rod-like grounding switch 35 on that between an in 1 shown first grounding switch position and a second grounding switch position is rotatable about an axis of rotation perpendicular to its longitudinal axis. The earthing switch runs in the first earthing switch position 35 every disconnector 5 to 7 horizontally at about the level of the lower end of the post insulator 19 of the disconnector 5 , The earthing switch runs in the second earthing switch position 35 almost vertical and contacted with a grounding switch end 41 one at the upper end of the post insulator 19 arranged ground connection 43 of the disconnector 5 to 7 , The ground connection 43 is from a plate-like screen arranged above it 45 , which is made of a dielectric, electrically shielded. The motion trajectory of each earthing switch end 41 upon rotation of the earthing switch 35 from its first earthing switch position to its second earthing switch position is in 1 shown in dotted outline. The earthing switch 35 a circuit breaker 5 to 7 is powered by a grounding switch drive 47 who is attached to the carrier 31 is arranged, via a grounding switch gear 49 driven. The earthing switch drive 47 is for example a motor drive. The earthing switch 35 a circuit breaker 5 to 7 is on a earthing switch carrier 51 arranged at the lower end of the post insulator 19 of the disconnector 5 to 7 is arranged.

This in 1 shown embodiment of a switch assembly 1 also has a current transformer 37 on that with the second contact terminal 17 of the circuit breaker 3 electrically connected and for detecting a via the second contact terminal 17 flowing electrical current is formed. The current transformer 37 is designed, for example, as an optical current transformer.

Furthermore, the in 1 shown embodiment of a switch assembly 1 a voltage converter 39 on that with the movable contact arm 23 of the first disconnector 5 electrically connected and for detecting a on this contact arm 23 is formed adjacent electrical voltage.

In the in 1 shown embodiment of a switch assembly 1 have the insulator columns 9 . 11 of the circuit breaker 3 further outside annular Isolatorschirme 53 to extend creepage paths on the outside of flowing creepage currents. In alternative embodiments, the post insulators may also be used 19 and / or the rotary isolators 21 of the circuit breaker 5 to 7 such insulator screens 53 exhibit. The insulator columns 9 . 11 of the circuit breaker 3 and / or the post insulators 19 and / or the rotary isolators 21 of the circuit breaker 5 to 7 are each made, for example, of a porcelain or formed as a double tube with an outer tube made of a silicone and an inner tube made of a glass fiber reinforced plastic.

This in 1 The embodiment shown can be further modified in that the power switch drive 13 and a circuit breaker drive 25 or multiple circuit breaker drives 25 be replaced by a combination drive through which a movable switching element of the circuit breaker 3 and the contact arm 23 a circuit breaker 5 to 7 or the contact arms 23 several disconnectors 5 to 7 are drivable.

2 shows a perspective view of a part of an air-insulated switchgear 60 with three switch arrangements 1 , each with a circuit breaker 3 and three circuit breakers 5 to 7 exhibit. Each switch arrangement 1 is analogous to that in 1 illustrated embodiment, wherein the switch assemblies 1 however, unlike in 1 illustrated embodiment, no earthing switch 35 , Power converter 37 and voltage transformers 39 exhibit. The circuit breakers 3 and the circuit breakers 5 to 7 all three switch arrangements 1 are on a connection rack 62 arranged, that from racks 29 for each one switch arrangement 1 and these racks 29 interconnecting fasteners 64 consists. The three in 2 shown switch arrangements 1 For example, each connected to one phase of a three-phase alternating current.

This in 2 embodiment shown may be modified such that the switch assemblies 1 analogous to that in 1 shown embodiment grounding switch 35 and / or current transformer 37 and / or voltage transformers 39 exhibit. Furthermore, for example, the individual circuit breaker drives 13 the switch arrangements 1 through a common circuit breaker drive 13 be replaced, and / or multiple circuit breaker drives 25 various switch arrangements 1 can by a common disconnector drive 25 be replaced.

While the invention has been further illustrated and described in detail by way of preferred embodiments, the invention is not limited by the disclosed examples, and other variations can be derived therefrom by those skilled in the art without departing from the scope of the invention.

Claims (14)

A switch assembly (1) comprising a plurality of circuit breakers (5 to 7) and a circuit breaker (3), wherein - The circuit breaker (3) has two contact terminals (15, 17) whose electrical connection can be interrupted by the power switch (3), - Each circuit breaker (5 to 7) has a contact arm (23) which is electrically connected between a first switching position, in which it is electrically connected to a contact terminal (15, 17) of the circuit breaker (3), and a second switching position, in which he this contact terminal (15, 17) is electrically isolated, is movable, - And each contact terminal (15, 17) with the contact arm (23) of at least one circuit breaker (5 to 7) is electrically connected in the first switching position. Switch arrangement (1) according to Claim 1 , characterized in that the circuit breaker (3) is designed as a vacuum switch. Switch arrangement (1) according to Claim 1 or 2 characterized by a frame (29) on which all disconnectors (5 to 7) and the circuit breaker (3) are arranged. Switch arrangement (1) according to Claim 3 , characterized in that the frame (29) a support (31) having a central region on which the circuit breaker (3) is arranged, and a plurality of connected to the central region support arms, to each of which a circuit breaker (5 to 7) arranged is, has. Switch arrangement (1) according to one of the preceding claims, characterized by at least one earthing switch (35) for grounding a disconnecting switch (5 to 7). Switch arrangement (1) according to one of the preceding claims, characterized by at least one current transformer (37) electrically connected to a contact connection (15, 17) of the circuit breaker (3). Switch arrangement (1) according to Claim 6 , characterized in that at least one current transformer (37) is designed as an optical current transformer. Switch arrangement (1) according to one of the preceding claims, characterized by at least one voltage transformer (39) electrically connected to a movable contact arm (23) of a circuit breaker (5 to 7). Switch arrangement (1) according to one of the preceding claims, characterized in that the disconnecting switches (5 to 7) are arranged distributed around the circuit breaker (3). Switch arrangement (1) according to one of the preceding claims, characterized in that at least one circuit breaker (5 to 7) has a rotary insulator (21) which is rotatable about its longitudinal axis and thus to the contact arm (23) of this circuit breaker (5 to 7) is coupled, that the contact arm (23) between its switching positions by rotations of the rotary insulator (21) is movable. Switch arrangement (1) according to one of the preceding claims, characterized in that an interrupter unit of the circuit breaker (3) in an insulator column (9) is arranged. Switch arrangement (1) according to one of the preceding claims, characterized by a combination drive through which at least one movable contact arm (23) of a circuit breaker (5 to 7) and a movable switching element of the circuit breaker (3) are drivable. An air-insulated switchgear (60) having a plurality of switch assemblies (1) each according to one of the preceding claims. An air-insulated switchgear (60), characterized by a connecting frame (62) on which all disconnectors (5 to 7) and circuit breaker (3) of a plurality of switch assemblies (1) are arranged.

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