DE4008417A1 - Electrical connection elements for capacitors - has bridging strips with screw connections and expansion sections - Google Patents

Abstract

The electrical connection system is used for capacitors and has metal bridging contact strips (13) that have holes at each end (8) that align with the screw connection holes of the capacitors. The strips are formed with a 'U' shaped indent (6) that provides a certain amount of flexibility in length. This accommodates variations in the location of the capacitors. Additional holes (14) are provided to allow interconnections to be made and also external connections. ADVANTAGE - Simplifies connections between elements.

Description

The invention relates to a device for ver binding of the electrical connections of capacitors with screw connections and can be used especially for electrical connection of support and smoothing condensers converters can be used.

A device for connecting the electrical to short circuit of capacitors is for example from the BBC publication no. VDVK 90.580 D, "E120-Electrical Locomotives with three-phase drive for the Deutsche Bun desbahn ", page 22, where the electrical Connections of the support and smoothing capacitors one Converters in a conventional manner via iso gated copper cable connected. Especially when using GTO thyristors (gate turn-off thyristors) as current richterventile it can be disadvantageous that by Wiring inductors of not to be neglected of size, the size of which is not is predictable enough. For the optimal  Design of a current equipped with GTO thyristors richters, however, it matters by electricity Inductors formed external to the judge precisely recorded and kept as low as possible.

The invention has for its object a Vorrich device for connecting the electrical connections of Kon to create capacitors that are as inductive as possible and their inductance is calculated as precisely as possible can be net.

This task is accomplished by a connection device the electrical connections of capacitors Loosened screw connections, marked by a rigid, flat, electrically conductive connecting bridge, consisting of a straight, flat central section the ends of which have angled side legs are integrally formed, each with holes for Provide the condenser screw connections are.

The advantages that can be achieved with the invention are special in that when using the proposed Connecting bridges very short, rigid connections for the electrical connections of capacitors are created will. Due to the side bending of the connector an arrangement can advantageously be created be in the case of the current-carrying and current-carrying electrical conductor of a capacitor closely adjacent are, whereby a low inductance interconnection of Condensors is enabled. Because the connecting bridges are rigid are those in the capacitor connection formed inductors reproducible and therefore easily predictable. When using the in the front beaten way interconnected capacitors as support and smoothing capacitors in GTO-equipped  Power converters, it is advantageous if by external Connections formed additional inductors in the reproducible can be determined in advance to the Be circuit design of the GTO thyristors optimally.

Advantageous embodiments of the invention are in the Subclaims marked.

The invention is based on the in the drawing illustrated embodiments explained. It demonstrate:

Fig. 1 is a plan view of two and a lateral section through a connecting bridge,

Figure 2 shows a plurality of changes by means of connecting bridges switched capacitors.,

Fig. 3 is a side section through a reren containing more connecting bridges equipped Kondensa torschraubanschluß,

Fig. 4 shows a variant with connecting bridges connected by an isolator.

In Fig. 1 is a plan view of two and a side section through a connecting bridge. There are two flat, rigid, metallic connecting bridges 1, 2 can be seen, each consisting of a straight, flat central portion 3 and two at the ends of the cash out section 3 integrally formed side legs 4, 5 are made. The connecting bridges 1 , 2 are formed symmetrically to each other. The flat side legs 4 , 5 angled laterally from the central section 3 are rounded at their ends. The connecting bridges consist of an electrically highly conductive metal, preferably of copper, and can, for. B. are manufactured as sheet metal stampings from copper sheet.

At the location of the transition from the middle section 3 to a side leg 4 or 5 , a cross-sectionally U-shaped expansion bridge 6 or 7 is arranged. Due to the expansion bridges 6 , 7 , the connecting bridge is flexible within certain limits and can compensate for tolerances which occur when a large number of capacitors arranged horizontally next to one another and vertically one above the other are connected electrically.

The rounded ends of the side legs 4 , 5 are provided with holes 8 , 9 for carrying out the capacitor screw connections. The connecting bridges 1 , 2 are hen on all sides with an insulating coating 10 verses. The coating preferably consists of an epoxy. Excluded from the coating 10 are contacting rings 11 , 12 , which run circularly on both sides around the bores 8 , 9 and enable electrically conductive contacting of the connecting bridges with the capacitor screw connections and further connecting bridges. The middle section 3 of each connecting bridge has a semicircular lateral recess 13 on one side edge. The distance a between the recess 13 and a bore 8 and 9 corresponds exactly to the distance between the two capacitor screw connections of a capacitor. Because of the cutout 13 , it is possible to use one and the same connecting bridge universally for both the horizontal and vertical connection of capacitors (see also the exemplary embodiment according to FIG. 2).

In the middle section 3 of a connecting bridge there are also two bores 14 , 15 , each between recess 13 and expansion bridge 6 or 7 . These holes 14 and 15 have annular, not covered by the insulating coating 10 contacting rings 16 and 17, respectively. These additional Bohrun conditions 14 , 15 are used for screwing with busbars, which are used for the electrical connection of the capacitors to a feeding network or to a converter.

In the illustrated in Fig. 1 plan view of two Ver bond posts 1, 2 is shown the concrete, in the parallel occurring layer circuit of two capacitors of the connectors 1, 2. The two capacitors to be electrically connected are indicated by dashed lines. The capacitor screw connections are guided through the bores 8 , 9 . The two United connecting bridges 1 , 2 are arranged so that the angled from the central sections 3 side legs of two different connecting bridges from each other ent, whereby the two central sections 3 closely adjacent to each other.

The elevations created by the expansion bridges 6 face the capacitors. The cutouts 13 of both connecting bridges face away from one another. Between the two straight, mutually facing, not provided with a recess side edges of the Mittelab sections 3 , a gap with the width b remains. It is advantageous for a low inductance connection of the capacitors if the distance b is small.

In other words, the bend and the length of the side legs 4 , 5 , taking into account the width te c of the middle section 3 and the distance a between two capacitor screw connections of a capacitor to be interconnected, should be dimensioned such that when two mirror-symmetrically formed connections are bridged 1 , 2 results in a sufficient distance b between the two adjacent side edges of the Mittelab sections with regard to the electrical voltage acting on the capacitor. The cross section of the connecting bridge 1 , 2 is dimensioned sufficiently with regard to the currents to be conducted, in particular the distance d between the side edges of the central portion at the location of the recess is not too small.

FIG. 2 shows a number of capacitors connected by means of connecting bridges. In particular, three horizontally arranged capacitors 18 , 19 , 20 can be seen, among which a further, horizontal group of three, consisting of the condensers 21 , 22 , 23 . The two capacitor screw connections of each capacitor are arranged vertically one below the other. The capacitors 18 , 19 are connected to one another via horizontally arranged connecting bridges 24 , 25 and the capacitors 19 , 20 via horizontally arranged connecting bridges 26 , 27 . In the same way, the further capacitors 21 , 22 and 22 , 23 are interconnected via connecting bridges 28 , 29 and 30 , 31 . To connect the upper capacitor triple group 18/19/20 with the lower capacitor triple group 21/22/23 , the respective upper capacitor screw connections of the capacitors 19 and 22 are interconnected via a vertically arranged connecting bridge 32 . The recess 13 of the Ver connecting bridge 32 engages around the lower capacitor Torschraubanschluß the capacitor 19th The lower Kon triple group 21/22/23 is electrically connected to a further, not shown capacitor triple group, for which purpose a further vertically arranged Ver connecting bridge 33 is used.

For further electrical connection of the capacitors, a vertically arranged busbar 34 is contacted with the connecting bridge 25 at the location of the additional bore 14 . Likewise, another vertically arranged busbar 35 is electrically conductively connected to the connecting bridge 31 .

The direction of the current flow occurring in the individual connecting bridges and busbars is indicated by arrows. The vertically arranged connecting bridges 32 , 33 serve, for example, as current leads and the busbars 34 , 35 serve as current return conductors. The upper horizontal connecting bridges 24 , 26 , 28 , 30 each serve as a power supply and the lower horizontal connecting bridges 25 , 27 , 29 , 31 as a current return. From Fig. 2 it is clear to erse hen that the current flow of adjacent horizontal connec tion bridges is directed in opposite directions. The same applies to the vertical connecting bridges adjacent to busbars. Because of this bifilar configuration, in which the current conductors are arranged closely adjacent to each other with the opposite flow of current, the overall low-inductance connection of the capacitors results, with only a small outward-looking magnetic field.

In Fig. 3 is a side section through a capacitor with several connecting bridges capacitor screw connection shown, using the example of the upper capacitor screw connection 36 of the capacitor 19 shown in FIG. 2. Starting from the capacitor front surface 19 a, results in connection to the end of the capacitor screw 36 following structure: first spacer 37 - connecting bridge 26 (arranged horizontally) - second spacer 38 - connecting bridge 24 (arranged horizontally) - third spacer 39 - connecting bridge 32 (arranged vertically) - fourth spacer 40 - nut 41 . The spacers 37 to 40 are each made of conductive metal, preferably copper, and correspond in their outer diameter to the diam water of the contacting rings 11 , 12 , which ensures an electrically conductive connection between the individual connecting bridges and the capacitor screw connection.

In FIG. 4, an alternative embodiment is shown with associated connection bridges by an insulator, specifically with reference to a plan view of two and a lateral section through a connecting bridge. This variant is particularly suitable for the horizontal connection of capacitors, when two mirror-symmetrical connecting bridges are arranged closely adjacent (bifilar configuration). Examples of such arrangements are the connections of the condensers 18 , 19 , 20 by means of connecting bridges 24 to 27, and the connections of the capacitors 21 , 22 , 23 by means of connecting bridges 28 to 31 . In detail, two mirror-symmetrical and closely adjacent connecting bridges 101 , 102 can be seen in FIG. 4, the middle sections 103 of which are firmly connected to one another via an insulator 118 . Insulator 118 is preferably made of cast resin. The side legs 104 , 105 and expansion bridges 106 , 107 are neither covered by the insulator 118 nor by an insulating coating. The bores 108 , 109 each at the end of the side legs 104 , 105 are accordingly surrounded by metallic blank material. The further bores 114 , 115 are arranged within the insulator 118 and are therefore surrounded by contacting rings 116 , 117 .

In the embodiment according to FIG. 4 is particularly advantageous that the at high currents or Stroman prospects of starting and -abfallgeschwindigkeiten occurring forces are absorbed by the insulator 118, the Ab was ie b between the adjacent side edges of the bridge Ver bond is preserved.

In this embodiment variant, the cutouts in the central sections 103 of the connecting bridges 101 , 102 are no longer necessary and can be omitted if necessary. For reasons of rationalization, however, the recesses can also be provided if it is not necessary to produce different types of connecting bridges for horizontal and vertical mounting. Alternatively, the insulator 118 can be formed according to the shape of the recesses.

Claims (7)

1. Device for connecting the electrical connections of capacitors with screw connections, characterized by a rigid, flat, electrically conductive connecting bridge ( 1 , 2 , 24 to 33 , 101 , 102 ), consisting of a straight, flat central section ( 3 , 103 ), at the ends of which laterally angled side legs ( 4 , 5 , 104 , 105 ) are integrally formed, which are each provided with bores ( 8 , 9 , 108 , 109 ) for carrying out the capacitor screw connections ( 36 ). 2. Device according to claim 1, characterized in that the central portion ( 3 , 103 ) of the connec tion bridge ( 1 , 2 , 24 to 33 , 101 , 102 ) with at least one bore ( 14 , 15 , 114 , 115 ) for electrical connection with busbars ( 34 , 35 ) is provided. 3. Apparatus according to claim 1 and / or 2, characterized in that the connecting bridge ( 1 , 2 , 24 to 33 , 101 , 102 ) with at least one in cross section U-shaped gene expansion bridge ( 6 , 7 , 106 , 107 ) is. 4. Device according to one of claims 1 to 3, characterized in that the connecting bridge ( 1 , 2 , 24 to 33 ) is provided on all sides with an insulating coating ( 10 ), wherein each ring-shaped con contact rings ( 11 , 12 , 16 , 17th ) around the holes ( 8 , 9 , 14 , 15 ) remain free of coating agent. 5. Device according to one of claims 1 to 4, characterized in that a lateral, semi-circular recess ( 13 ) is arranged on the central section ( 3 ) of the connecting bridge ( 1 , 2 , 24 to 33 ), the distance (a) between the recess ( 13 ) and a drilling tion ( 8 , 9 ) in the side leg ( 4 , 5 ) corresponds to the distance between two capacitor screw connections of a capacitor. 6. The device according to at least one of claims 1 to 5, characterized in that two mirror-symmetrically formed connecting bridges ( 101 , 102 ) are arranged closely adjacent and mirror-symmetrically and rigidly connected to one another via an insulator ( 118 ). 7. The device according to claim 6, characterized by an insulator ( 118 ) made of cast resin.