WO2017186456A1 - Electric protective device - Google Patents

Abstract

The invention relates to an electric protective device (1). Said protective device (1) comprises: a grounding switch (3) that includes two electric contact terminals (7, 9) and at least one movable contact element (11, 13) for establishing an electric switching contact between the contact terminals (7, 9); a surge arrester (5) that has an electrically insulating arrester housing; a current transformer (50); and a spark gap (56) between the current transformer (50) and the surge arrester (5). The arrester housing is a first insulator column (15) of the grounding switch (3).

Description

description

Electrical protection device The invention relates to an electrical protection device comprising a grounding switch and a surge arrester.

In particular, the invention relates to such electrical protection devices for transformers. Earthing switches grounded electrical equipment parts. Surge arresters are used to limit overvoltages in electrical lines and equipment. The invention has for its object to provide an improved electrical protection device comprising at least one earthing switch and a surge arrester.

The object is achieved by the features of claim 1.

Advantageous embodiments of the invention are the subject of the dependent claims. An electrical protection device according to the invention comprises a grounding switch, a surge arrester with an electrically insulating arrester housing, a current transformer and a spark gap arranged between the current transformer and the surge arrester. The earthing switch has two electrical contact terminals, two insulator columns, on each of which one of the contact terminals is arranged, and at least one movable contact ^element for producing egg ^¬ nes electrical switching contact between the contact terminals. The arrester housing is a first insulator column of the earthing switch.

According to the invention, therefore, the surge arrester is integrated in the earthing switch by an isolator column of the earthing switch. also forms an arrester housing of the overvoltage ^¬ Abieiters. As a result, compared to a conventional protection device with a grounding switch and a separate surge arrester, the manufacturing costs of the protection device are reduced since no separate arrester housing is required for the surge arrester. In addition, the dimensions and thus the space requirement of the protective device are reduced, since the surge arrester is arranged in an already required insulator column of the grounding switch. In addition, the assembly effort for on-site installation of the protective device is advantageously reduced by the component reduction.

An embodiment of the invention provides that a first electrical contact terminal of the earthing switch also a

Arrester connection of the surge arrester is. This refinement of the invention eliminates both a separate arrester connection of the surge arrester and an electrical connection of an arrester connection of the surge arrester to the earthing switch, thereby further advantageously reducing the manufacturing costs of the protection device and the assembly effort for their on-site assembly.

A further embodiment of the invention provides that a second electrical contact connection of the grounding switch is permanently connected to a movable contact element. Therefore, the movable contact element via the second contact terminal of the earthing switch can be electrically contacted duration ^¬ way, for example via a cable connection.

A further embodiment of the invention provides a motor drive for moving at least one contact element. Since ^¬ by the switching contact can advantageously be automated and safe to use made by a motor-driven movement of a contact element. A further embodiment of the invention provides that the electrical protection device has exactly one movable contact ^¬ element, which connects the switch contact between her ^forthcoming first switching position, in which it connects the two contact terminals with each other, and a switch ^¬ contact interrupting second Switching position is movable. In this case, a first contact connection is preferably arranged fixedly on the first insulator column. This embodiment of the invention thus provides only a movable contact element for opening and closing of the switching contact, whereby a particularly simple and cost-effective design of the protection ^¬ device is achieved.

A first further embodiment of the aforementioned embodiment of the invention provides that the contact element is firmly connected to egg ^¬ ner second insulator column of the earthing switch and the second insulator column is rotatably gela ^¬ siege about its longitudinal axis, so that the contact element by rotations of the second insulator column between the two Switch positions is movable. An alternative further embodiment provides that the contact element is pivotally mounted on a second insulator column of the earthing switch, so that the contact ^¬ element is movable by pivoting between the two switching positions. In both refinements, the contact element is arranged on the second insulator column. The ^refinements at ^¬ differ in that the contact element is moved indirectly by rotations of the second insulator column in the first case, while it is moved directly in the second case. An indirect movement of the Kontaktele- mentes is particularly advantageous when the direct Be ^¬ movement is technically difficult or costly. In a direct movement, for example, the first insulator column can be arranged above the second insulator column, whereby a vertical construction of the protective device is made possible.

A further embodiment of the invention provides that the electrical protection device comprises two movable contact elements, which between a first switching position, in the they touch and connect the two contact terminals with each other, and a switching position interrupting the second switching position are movable. This embodiment of the invention thus provides for two movable contact elements for the production of the switching contact. Compared to only one movable contact element, the switching speed can thereby be advantageously increased if necessary by both contact elements are moved simultaneously. A further embodiment of the aforementioned embodiment of the invention provides that a first contact element is fixedly connected to the first insulator column, the second contact ^¬ element is firmly connected to a second insulator column of the earthing ^¬ switch and the first insulator column and the second insulator column each about its longitudinal axis are rotatably gela ^¬ siege, so that the contact elements are movable by rotations of the first insulator column and the second insulator column between the two switching positions. This further embodiment of the invention therefore provides for an indirect movement of the two contact elements by rotation of the insulator ^pillars connected to them. In particular, both insulator columns can advantageously be moved by a common drive, so that no two separate drives are required and the movement of the contact elements can be synchronized in a simple manner.

A transformer according to the invention comprises an inventive electrical protection device with the above already ge ^¬ called advantages.

The above-described characteristics, features and advantages of this invention as well as the manner in which they are achieved will become clearer and more clearly understood in connection with the following description of embodiments which will be described in connection with the drawings. Showing: 1 shows a first embodiment of an electrical protection device,

2 shows a second embodiment of an electrical

 Protection device

3 shows a third embodiment of an electrical

 guard

4 shows a fourth embodiment of an electrical

 Fender, and

5 shows a transformer with an electrical protection device.

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

1 shows a first embodiment of a electrical ^¬ rule protection device 1 in a side view. The protective device 1 comprises a grounding switch 3, a surge arrester 5, a current transformer 50 and a spark gap 56 arranged between the current transformer 50 and the surge arrester 5.

The earthing switch 3 has two electrical Kontaktanschlüs ^¬ se 7, 9 and a movable contact element 11 for producing an electrical switching contact between the contact terminals 7, 9. A first contact terminal 7 is fixedly arranged on a first insulator column 15. The Kontaktele ^¬ ment 11 is fixedly connected to a second insulator column 17 and formed as an electrically conductive contact arm, which at an angle of for example 90 degrees to a

Longitudinal axis of the second insulator column 17 protrudes from this. The insulator columns 15, 17 are spaced from each other on a support 19, wherein the longitudinal axes of the Isola ^¬ torsäulen 15, 17 are parallel to each other. The carrier 19 is mounted on a support 21. The second insulator column 17 is rotatably mounted about its longitudinal axis, so that the contact element 11 is movable by rotations of the second insulator column between two switching positions. In a first switching position shown in Figure 1, the contact ^element 11 connects the two Kontaktanschlüs ^¬ se 7, 9 together and thereby provides an electrical switching contact between the contact terminals 7, 9 ago. In the second switching position, the second insulator column 17 is rotated relative to the first switching position about its longitudinal axis, for example by about 90 degrees, so that the contact ^¬ element 11 does not touch the first contact terminal 7 and the switching contact between the contact terminals 7, 9 interrupts.

The rotation of the second insulator column 17 and thus also the movement of the contact element 11 is effected by a motor drive 23. The motor drive 23 comprises a fixed to the support 21 electric motor 25, a drive rod 27 and a gear 29. For rotation of the second

 Insulator column 17, the motor 25 sets the drive rod 27 in rotation about its longitudinal axis, which are translated by the gear 29 in rotations of the second insulator column 17 about its longitudinal axis.

The first contact terminal 7 has, for example, a groove for receiving one end of the contact element 11. In Be ^¬ the protection device 1 driving is applied to the first contact terminal 7, for example via a first connection cable 31, typically a high voltage, while the switching contact between the contact terminals 7, 9 is not closed. The second contact terminal 9 is permanently electrically connected to the Kontaktele ^¬ element 11 and arranged for example directly on the contact element. 11 Is applied to the second contact terminal 9, for example via a second Anschlusska ^¬ bel 33, a ground potential, so that the first Kontaktan ^¬ circuit 7 can be grounded through the preparation of the switching contact with the two ^¬ th contact terminal. 9 The surge arrester 5 is integrated with the grounding switch 3 in that the first insulator pillar 15 of the grounding scarf ^¬ ters 3 also forms a trap body of the surge arrester. 5 Furthermore, the first electrical contact terminal 7 of the grounding switch 3 is also a surge arrester of the surge arrester 5.

The current transformer 50 is arranged on the carrier 19. The spark gap 56 between the current transformer 50 and the surge arresters 5 is a discharge space between two electrodes 52, 54, wherein a first electrode 52 with the ers ^¬ th electrical contact terminal 7 and above with the surge arresters 5 is connected and the second electrode 54 is connected to the current transformer 50.

Figure 2 shows a second embodiment of an electrical ^¬ rule protection device 1 in a side view. The protective device 1 comprises a grounding switch 3, an overvoltage arrester 5, a current transformer 50 and a spark gap 56 arranged between the current transformer 50 and the surge arrester 5.

The earthing switch 3 has two electrical contact terminals 7, 9 and a movable contact element 11 for producing an electrical switching contact between the contact terminals 7, 9. A first contact terminal 7 is fixedly arranged on a first insulator column 15. The Kontaktele ^¬ ment 11 is pivotally mounted on a second insulator column 17 of the earthing switch 5 and formed as an electrically leitfähi ^¬ ger contact. The second insulator column 17 is fixedly arranged on a carrier 19. The first insulator ^¬ column 15 is disposed over the second insulating column 17, wherein the longitudinal axes of the insulator pillars 15, 17 on an overall raden lie. The carrier 19 is mounted on a support 21.

The second contact terminal 9 is permanently connected to the contact ^¬ element 11 electrically connected. The contact element 11 and the contact terminal 9 are pivotable between two switching positions. In a first switching position, the contact element 11 connects the two contact terminals 7, 9 with each other and thereby establishes an electrical switching contact between the contact terminals 7, 9, wherein the longitudinal axis of the

Contact element 11 is completely or almost parallel to the longitudinal axes of the insulator columns 15, 17. In the second switching position shown in Figure 2, the contact ^element 11 is in ei ^¬ nem angle of for example 90 degrees to the longitudinal axis of the second insulator column 17 from the second insulator column 17, so that the contact element 11 does not touch the first contact terminal 7 and the switching contact between the Kontaktan ^¬ circuits 7, unterbicht. 9 In the second switching position, the contact element 11 is supported by a support insulator 35.

The pivoting of the contact element 11 is effected by a motor ^¬ drive 23. The motor drive 23 includes a fixed on the support 21 electric motor 25, a drive rod 27 and a gear 29 for pivoting the Kontaktele- ments 11 of the motor rotates 25, the drive rod 27 in Dre ^¬ relationships about its longitudinal axis, which in through the gearbox 29 Swivels of the contact element 11 are translated.

During operation of the protective device 1, a high voltage is typically present at the first contact terminal 7, for example via a first terminal ^box 31, as long as the switching contact between the contact terminals 7, 9 is not closed. At the second contact terminal 9, for example, via a second connecting cable 33, a ground potential, so that the first contact terminal 7 by manufacturing the

 Switching contact with the second contact terminal 9 can be grounded.

The surge arrester 5 is integrated in the grounding switch 3 in that the first insulator pillar 15 of the grounding scarf ^¬ ters 3 also forms a trap body of the surge arrester. 5 Further, the first electrical contact terminal 7 of the grounding switch 3, a surge arrester of the surge arrester 5.

The current transformer 50 is arranged on the carrier 19. The spark gap 56 between the current transformer 50 and the surge arresters 5 is a discharge space between two electrodes 52, 54, wherein a first electrode 52 with the ers ^¬ th electrical contact terminal 7 and above with the surge arresters 5 is connected and the second electrode 54 is connected to the current transformer 50.

Figure 3 shows a third embodiment of an electrical ^¬ rule protection device 1 in a side view. The protective device 1 comprises a grounding switch 3, an overvoltage arrester 5, a current transformer 50 and a spark gap 56 arranged between the current transformer 50 and the surge arrester 5.

The grounding switch 3 has two electrical contact terminals 7, 9 and two movable contact elements 11, 13 for ^producing an electrical switching contact between the contact terminals 7, 9. A first contact element 11 is fixedly connected to a first insulator column 15. The second contact element 13 is fixedly connected to a second insulator column 17. Furthermore, the first contact element 11 is permanently connected electrically to a first contact connection 7, and the second contact element 13 is permanently connected to the second contact connection 9. Each Kontaktele ^¬ ment 11, 13 is formed as an electrically conductive contact arm which protrudes at an angle of, for example, 90 degrees to a longitudinal axis of the respective insulator column 15, 17 thereof. The insulator columns 15, 17 are spaced from each other on a support 19, wherein the longitudinal ^¬ axes of the insulator columns 15, 17 are parallel to each other. The carrier 19 is mounted on a support 21.

Each insulator column 15, 17 is rotatably mounted about its longitudinal axis ge ^¬ , so that the contact elements 11, 13 by rotations the insulator columns 15, 17 are movable between two switching positions. In a first switching position shown in Figure 3, the ends of the contact elements 11, 13 and connect the two contact terminals 7, 9 electrically to each other and thereby provide an electrical switching contact between the contact terminals 7, 9 ago. In the second switching position, each insulator column 15, 17 is rotated relative to the first switching position about its longitudinal axis, for example, ^¬ about 90 degrees, so that the contact elements 11, 13 do not touch and break the switching contact between the terminals ^¬ 7, 9.

The rotations of the two insulator columns 15, 17 are effected by a common motor drive 23. The motor drive 23 comprises an electric motor 25 fastened to the support 21, a drive rod 27 and a gear 29. In order to rotate the insulator columns 15, 17, the motor 25 rotates the drive rod 27 in rotation about its longitudinal axis Rotations of the insulator columns 15, 17 are translated.

One end of the first contact element 11 has, for example, a groove for receiving one end of the second contact ^element 13. In operation, the protection device 1, a high voltage is applied to the first contact terminal 7, for example via a first connection cable 31 to ^¬, typically on while the switching contact between the contact terminals 7, 9 is not closed. A Erdpoten- is applied to the second contact terminal 9, wherein ^¬ play, via a second connecting cable 33, TiAl, so that the first contact terminal 7 can be grounded through herstel ^¬ development of the switching contact with said second contact terminal. 9

The surge arrester 5 is integrated in the grounding switch 3 in that the first insulator pillar 15 of the grounding scarf ^¬ ters 3 also forms a trap body of the surge arrester. 5 Further, the first electrical contact terminal 7 of the grounding switch 3, a surge arrester of the surge arrester 5.

The current transformer 50 is arranged on the carrier 19. The spark gap 56 between the current transformer 50 and the surge arresters 5 is a discharge space between two electrodes 52, 54, wherein a first electrode 52 with the ers ^¬ th electrical contact terminal 7 and above with the surge arresters 5 is connected and the second electrode 54 is connected to the current transformer 50.

Figure 4 shows a fourth embodiment of an electrical protection device 1 ^¬ rule with an earthing switch 3 and a surge arrester 5 in a side view. This embodiment differs from the embodiment shown in Figure 3 essentially only in that the two insulator columns 15, 17 are arranged in a V-shape on the support 19, ie, the longitudinal axes of the Isola ^¬ torsäulen 15, 17 form a non-vanishing angle with each other and the ends of the insulator columns 15, 17 facing away from the carrier 19 have a greater distance from one another than the ends facing the carrier 19. Apart from that, the embodiment shown in Figure 4 corresponds to the embodiment shown in Figure 3. In particular, the grounding switch 3 has two movable contact elements 11, 13 for producing an electrical switching contact between two contact terminals 7, 9, wherein each contact element 11, 13 is fixedly connected to an insulator column 15, 17, which is rotatable about its longitudinal axis by a motor drive 23 , Further, the surge absorber 5 is integrated in the grounding switch 3, a first insulating column 15 of the 7 of the He is ^¬ dung switch 3, a trap body of the surge ^¬ abieiters 5 forms, and a first contact terminal He ^¬ dung switch 3, a Ableiteranschluss the surge nungsableiters. 5

Figure 5 shows schematically an embodiment of a

Transformers 37 with an electrical protection device. 1 based on a circuit diagram. The transformer 37 of this Ausfüh ^¬ tion example is three-phase with three primary windings 39.1 to 39.3, three secondary windings 41.1 to 41.3 and a transformer core 43 to which the primary windings 39.1 to 39.3 and secondary windings 41.1 to 41.3 are wound formed. The primary windings 39.1 to 39.3 are interconnected by a delta connection. The secondary windings 41.1 to 41.3 are interconnected by a star connection. The protective device 1 can be designed as any of the embodiments described in Figures 1 to 4. The first contact terminal 7 of the protection from ^¬ device 1 is electrically connected to a neutral point 45 of the star connection of the secondary windings 41.1 to 41.3. The second contact terminal 9 is at a ground potential.

Although the invention in detail by preferred execution ^¬ examples has been illustrated and described in detail, the invention is not limited by the disclosed examples and other variations can be derived therefrom by the skilled artisan without departing from the scope of the invention.

Claims

claims

1. Electrical protection device (1) comprising

- A grounding switch (3) having two electrical Kontaktan- conclusions (7, 9), two insulator columns (15, 17), on each of which one of the contact terminals (7, 9) is arranged, and at least one movable contact element (11, 13 ) for ^producing an electrical switching contact between the contact terminals (7, 9),

a surge arrester (5) with an electrically insulating arrester housing,

 a current transformer (50)

 - And one between the current transformer (50) and the

Surge arrester (5) arranged spark gap (56), - wherein the arrester housing is a first insulator column (15) of the grounding switch (3).

2. Electrical protection device (1) according to claim 1, characterized in that a first electrical contact terminal (7) of the grounding ^¬ switch (3) and a surge arrester of the overvoltage ^{¬ is} abieiters (5).

3. Electrical protection device (1) according to claim 1 or 2, characterized in that a second electrical contact terminal (9) of the grounding ^¬ switch (3) permanently with a movable Kontaktele ^¬ ment (11, 13) is electrically connected.

4. Electrical protection device (1) according to one of the preceding claims,

marked by

a motor drive (23) for moving at least one contact ^¬ element (11, 13).

5. Electrical protection device (1) according to one of the preceding claims,

characterized in that having the electrical protection device (1) exactly one movable contact element (11) which is movable between the switching ^¬ contact-making first switching position in which it (7, 9) connects the two contact terminals to each other, and a switch contact interrupting the second switching position.

6. The electrical protection device (1) according to claim 5, characterized in that a first contact connection (7) is fixed to the first one

Insulator column (15) is arranged.

7. Electrical protection device (1) according to claim 5 or 6, characterized in that the contact element (11) fixed to a second insulator ^¬ column (17) of the earthing switch (3) is connected and the second insulator column (17) rotatably mounted about its longitudinal axis is, so that the contact element (11) by rotations of the second insulator column (17) between the two switching positions is movable.

8. Electrical protection device (1) according to claim 5 or 6, characterized in that the contact element (11) is pivotally mounted on a second insulator column (17) of the earthing switch (3), so that the contact element (11) by pivoting between the both switching positions is movable.

9. Electrical protection device (1) according to claim 8, characterized in that the first insulator column (15) on the second insulator ^¬ column (17) is arranged.

10. Electrical protection device (1) according to one of claims 1 to 4,

characterized in that the electrical protection device (1) comprises two movable con tact ^¬ elements (11, 13), the first between a Switching position in which they touch and connect the two contact terminals (7, 9) with each other, and a second switching position interrupting the switching contact are movable.

11. Electrical protection device (1) according to claim 10, characterized in that a first contact element (11) fixedly connected to the first insulator ^¬ column (15), the second contact element (13) fixed to a second insulator column (17) of the grounding switch ( 3) and the first insulator column (15) and the second insulator column (17) are each rotatable gela ^¬ around their longitudinal axis, so that the contact elements (11, 13) by Drehun ^¬ conditions of the first insulator column (15) and the second Isolator- column (17) between the two switching positions are movable.

12. Transformer (37) with a trained according to one of the preceding claims electrical protection device (1).