WO2015091883A1 - Connecting bridge for switching device - Google Patents

Abstract

Disclosed is a connecting bridge (1) for a switching device (2), said connecting bridge (1) having an electrical switching contact (3) and a contact carrier (4) and the switching contact (3) being arranged on said contact carrier (4). According to the invention, the contact carrier (4) has at least one first sectional part (5) and at least one second sectional part (6), the first sectional part (5) comprises a first material, the second sectional part (6) comprises a second material, said second material differing from the first material, and the first sectional part (5) and the second sectional part (6) are interconnected.

Description

 Switching bridge for switching device

The invention relates to a switching bridge for a switching device according to the preamble of claim 1.

As a switching bridge, the part of a switching device is referred to, which is movably disposed in the switching device, and which carries a switching contact. To close a switching path in the switching device, we moved the jumper and the at least one

Switching contact of the switching bridge with another switching contact of the switching device, which may be either fixed to the housing or also movable, brought into contact. In this case, when the switch contacts arranged on the switching bridge switching contact is pressed against the other switching contact. A high contact pressure is important to achieve a long life of the contacts.

The switching bridge must be well electrically conductive, since this is directly in the electrical current flow. In addition, the switching bridge must have sufficient mechanical strength and dimensional stability to transfer the contact pressure from one contact device to the other switching contact. Switching bridges are usually formed from a copper-based alloy, wherein the switching contact is formed from a different material, and is arranged on this switching bridge.

A disadvantage of such copper jumpers is the low mechanical strength. To compensate for this approximately, it is known to improve the rigidity of the jumpers by special formations. However, such jumpers are each used only for a very specific type of switch and a very specific current. In addition, such switching bridges have a high volume and a high mass, since copper has a low mechanical strength while high density. This also has a negative influence on the turn-off behavior of such a switching device, since a large inertial mass must be moved, whereby the switch-off is extended, resulting in a high contact erosion. The object of the invention is therefore to provide a switching bridge of the type mentioned, with which the mentioned disadvantages can be avoided, which is a high

Having conductivity and a high strength or dimensional stability, and which is simple, flexible and can be produced with little manufacturing and storage costs. This is achieved by the features of claim 1 according to the invention.

Thereby, a switching bridge can be formed, which can be formed both in terms of high strength and high conductivity. This also has a lower mass than a strength comparable copper bridge, whereby in particular the contact opening speed is increased and the

Contact erosion can be reduced. In addition, starting from a basic form, different switching bridges for differently sized switching devices can be formed, wherein the contact carrier can be constructed depending on the requirements in terms of conductivity and strength from the different layers. As a result, the manufacturing and storage costs can be significantly reduced. As a result, a flexible manufacturing can be supported. As a result, the development and test costs for different switching bridges of different switching devices of a series can be significantly reduced.

The subclaims relate to further advantageous embodiments of the invention.

It is hereby expressly referred to the wording of the claims, whereby the claims at this point are incorporated by reference into the description and are considered to be reproduced verbatim.

The invention will be described in more detail with reference to the accompanying drawings, in which only preferred embodiments are shown by way of example. Showing:

Fig. 1 shows a first preferred embodiment of an objective switching bridge in axonometric representation;

2 shows a schematic and non-proportional view of the switching bridge according to FIG. 1 in elevation, with first layer parts shown hatched to distinguish them;

3 is a schematic representation of a switching device with a switching bridge; 4 shows a second preferred embodiment of a switching bridge;

Fig. 5 shows a first layer part of a switching bridge of FIG. 1 in sectioned and not proportional representation

6 shows a third preferred embodiment of an objective switching bridge in axonometric representation; and

Fig. 7, the switching bridge of FIG. 6 in a second axonometric representation.

1, 2, 6 and 7 show a switching bridge 1 for a switching device 2, wherein the

1 comprises an electrical switching contact 3 and a contact carrier 4, wherein the switching contact 3 is arranged on the contact carrier 4, wherein the contact carrier 4 has at least a first bearing part 5 and at least one second bearing part 6, wherein the first bearing part 5 comprises a first material, wherein the second bearing part 6 comprises a second material, wherein the second material is different from the first material, and wherein the first bearing part 5 and the second bearing part 6 are connected to each other, and thus form the contact carrier. Thereby, a switching bridge 1 can be formed, which can be formed both in terms of high strength and high conductivity. This also has a lower mass than a strength comparable copper bridge, whereby in particular the contact opening speed is increased and the

Contact erosion can be reduced. In addition, starting from a basic form, different switching bridges 1 can be formed for differently sized switching devices 2, wherein the contact carrier 4 can be constructed from the different layer parts 5, 6 depending on the requirements with respect to conductivity and strength. As a result, the manufacturing and storage costs can be significantly reduced. As a result, a flexible manufacturing can be supported. As a result, the development and test costs for different switching bridges 1 different switching devices 2 a series can be significantly reduced.

The switching bridge 1, which can also be referred to as a contact bridge or contact arm, is the part of a switching device 2 which is movably arranged in the switching device 2 and which carries a switching contact 3.

The switching bridge 1 has at least one electrical switching contact 3, as well as a Contact carrier 4. The at least one electrical switching contact 3 is preferably formed comprising a silver alloy, and has a contact region 11, which is intended to be contacted with a fixed contact 17, 18 of a switching device 2.

The switching bridge 1 is provided for the movable arrangement in a switching device 2, and preferably has at least one bearing point or a storage area. It is preferably provided that the switching bridge 1 is to be pivoted in the switching device 2, or to be moved transversely to its longitudinal extent translational.

Fig. 3 shows a schematic representation of a preferred embodiment of a

Switching device 2 for a representational switching bridge 1, wherein differently designed switching devices for use with the subject switching bridge 1 are provided. The relevant switching device 2 has a first terminal 13 and a second terminal 14, and further a first and a second fixed contact 17, 18. The switching bridge 1 is formed according to FIG. 1, and has two electrical

Switching contacts 3 on. The relevant switching device 2 is designed as a so-called. Self-switch, such as a circuit breaker, and has a trigger 15, such as a short-circuit release, which can act on a switching mechanism 16 to optionally disconnect the switch contacts 3, 17, 18 and thus interrupting the Runges from the first

Terminal 13 to cause the second terminal 14. Furthermore, the switching device 2 has a manual control element 19 to manually open or close the switching contacts 3, 17, 18.

The contact carrier 4 has at least one first bearing part 5 and at least one second bearing part 6, or is constructed from such. Preferably, the contact carrier 4 of a predetermined plurality of such first and second layer parts 5, 6 constructed.

The first and second layer parts 5, 6 have different materials, or are formed of different materials, wherein the first layer part 5 a first

 Material comprises, the second layer part 6 comprises a, different from the first material second material. It is preferably provided that the first material has a high electrical conductivity, in particular that the first material is silver and / or copper and / or aluminum. Furthermore, it is preferably provided that the second material has a high mechanical strength, it being possible to provide that the

When selecting the second material, pay more attention to the strength or more the dimensional stability, therefore the rigidity, is laid. It is preferably provided that the second material comprises titanium or steel. Preference may also further

Magnesium based light alloys. However, it can also be provided that the second material is formed as a non-conductor, wherein it is preferably provided to form the second material as a fiber amplifier plastic, such as CFK or GRP. at

 Use of a plastic is preferably provided to perform any soldering prior to the complete assembly of the switching bridge 1.

By selecting the number of first layer parts 5 and second layer parts 6, both requirements with regard to the conductivity, as well as the strength or dimensional stability can be met. The switching bridge 1 according to FIG. 1 has, for example, twelve first layer parts 5, which in six packs each six first

Layer parts 5 are arranged, wherein each of the packs is flanked by three second layer parts 6. The switching bridge 1 according to the subject invention may have different shapes. Fig. 4 shows in this regard a switching bridge 1 for a circuit breaker. By a free choice of the geometrical configuration of the individual layer parts 5, 6 each shape can be formed per se from a combination of different first and second layer parts 5, 6. According to the particularly preferred embodiment as shown in FIGS. 1 and 2, it is provided that the first and second layer parts 5, 6 a substantially flat

Basic shape having a first side surface 7 and a second side surface 9, wherein it is preferably provided that a predetermined number of first layer parts 5 and / or a predetermined number of second layer part 6 each have substantially identical geometry or identical Seitenflächengrundrisse.

For the production of differently shaped switching bridges 1 it can be provided that different first layer parts 5 have different ground plans. Also, a deviation from the basic plan shape may be provided. FIGS. 6 and 7 show a third preferred embodiment of a switching bridge 1, wherein differently shaped second layer parts 6 are provided. The first layer parts 5 have a downwardly, away from the switching contacts 3, extended cross-section. The planar side surfaces 7, 9 allow a simple and above all modular adaptable to different requirements structure of the switching bridge 1, wherein the first and second layer parts 5, 6 are connected to each other adjacent side surfaces 7, 9. It is preferably provided that the at least one first layer part 5 and / or the at least one second layer part 6 are formed as a stamped part, which allows a rational and easily automatable production. Alternatively, in particular in the case of complex shapes, the production by means of laser cutting or water jet cutting can also be provided.

The first layer part 5 and the second layer part 6 are connected to one another, wherein it is provided in particular that the first layer part 5 and the second layer part 6

positively connected with each other, whereby a release of the composite of first and second layer parts 5, 6 can be made significantly less likely.

It is preferably provided that - alternatively or in addition to the positive connection of the layer parts 5, 6 - the first and / or second, in particular all, layer parts 5, 6 are soldered or welded together, which may also be provided

concerned layer parts 5, 6 only partially to solder or verschscheißen.

In particular, it is provided that the electrical switching contact 3 with the

Contact carrier 4 is soldered, wherein in the course of this soldering process, the layer parts 5, 6 are soldered together in the area of the switching contact 3 with each other. Preferably, the individual first and second layer parts 5, 6 at a first

Side surface 7 at least one projection 8, as well as on a second side surface 9 a projection 8 gegengleiche recess 10. As a result, different first or second layers 5, 6 are stacked, and form an already partially positive connection, which are then secured, for example by soldering can. It can also be provided that the first and / or second, in particular all, layer parts 5, 6 are screwed or riveted together. 1 and 2 each show a rivet 12, and at least the recess 10. The recess 10, the projection 8, and optionally a through opening for a rivet 12 can be produced in the course of the preferred production of the layer parts 5, 6 by punching, so that a rational production continues to be supported. Fig. 5 shows a section through a first bearing part 5, wherein the recess 10 and the projection 8 are shown. It is preferably provided that a side surface plane of the first and second layer parts 5, 6, therefore, a plane of the flat side surfaces 7, 9 of the individual layer parts 5, 6 is arranged in the direction of movement of the relevant switching bridge 1 in the switching device 2.

It can thereby be achieved that any solder joints between the individual layer parts 5, 6 are advantageously subjected to shear, and also the layer parts 5, 6 each have a high resistance moment or area moment of inertia. The direction of the movement is detectable in many switching bridges 1 by bearing breakthroughs or the like outside of the switching device 2. It can also be provided that a contact region 11 of the switching contact 3 is substantially normal to one

Side surface plane of the first and second layer parts 5, 6 arranged, in particular soldered, which also leads to the above-mentioned effects.

Claims

claims 1. switching bridge (1) for a switching device (2), wherein the switching bridge (1) has an electrical switching contact (3) and a contact carrier (4), wherein the Switch contact (3) on the contact carrier (4) is arranged, characterized in that the contact carrier (4) at least a first bearing part (5) and at least a second Position part (6), that the first bearing part (5) comprises a first material, that the second bearing part (6) comprises a second material that the second material is different from the first material, and that the first bearing part (5) and the second bearing part (6) are interconnected. Second switching bridge (1) according to claim 1, characterized in that the first bearing part (5) and the second bearing part (6) are positively connected with each other. 3. switching bridge (1) according to claim 1 or 2, characterized in that the individual first and second layer parts (5, 6) on a first side surface (7) have at least one projection (8), and on a second side surface (9) a projection (8) opposite the recess (10). 4. switching bridge (1) according to one of claims 1 to 3, characterized in that the first bearing part (5) and / or the second bearing part (6) are formed as a stamped part. 5. switching bridge (1) according to one of claims 1 to 4, characterized in that a predetermined number of first layer parts (5) and / or a predetermined number of second layer part (6) each having substantially identical geometry. 6. switching bridge (1) according to one of claims 1 to 5, characterized in that the first and second layer parts (5, 6) with adjoining side surfaces (7, 9) are interconnected. 7. switching bridge (1) according to one of claims 1 to 6, characterized in that the first material has a high electrical conductivity, in particular that the first material is silver and / or copper and / or aluminum. 8. switching bridge (1) according to one of claims 1 to 7, characterized in that the second material comprises titanium or steel. 9. switching bridge (1) according to one of claims 1 to 8, characterized in that the first and / or second, in particular all, layer parts (5, 6) are soldered or welded together. 10. switching bridge (1) according to one of claims 1 to 9, characterized in that the first and / or second, in particular all, layer parts (5, 6) are screwed together or riveted. 11. switching bridge (1) according to one of claims 1 to 10, characterized in that a contact region (11) of the switching contact (3) arranged substantially normal to a side surface plane of the first and second layer parts (5, 6), in particular soldered, is , 12. Switching device (2) with a switching bridge (1) according to one of claims 1 to 11.