Disclosed is a switch device with at least one contact point and a permanent magnetic arc blowing device which is paired with the contact point, wherein the arc blowing device has at least one second permanent magnet (15) as an auxiliary magnet, and the auxiliary magnet is arranged in the direct vicinity of the contact point (7.1), such that at least one section of the magnetic field (17) of the auxiliary magnet (15) amplifies the blow-out field in the transition region.

The invention relates to a contact unit and to a method for steering electric arcs on a contact unit, in particular for supplying vehicles with power via an overhead wire (20), the contact unit comprising a sliding contact device (19), the sliding contact device having a contact strip support (21) and a contact strip (22) disposed thereon, the contact unit having a steering device (24) for electric arcs (25) which is disposed on the contact unit, the steering device being provided with a magnet (30).

A switching device includes: a first terminal contact; a first fixed contact arranged at the first terminal contact; a contact bridge; a contact bridge carrier arranged at the contact bridge and having a barrier; a first movable contact arranged at the contact bridge; a second terminal contact; a second fixed contact arranged at the second terminal contact; a second movable contact arranged at the contact bridge; and a magnetic drive assembly including a coil and an armature, the armature being coupled to the contact bridge. The first fixed contact is in contact with the first movable contact in a switched-on state of the switching device. The first fixed contact is free of contact with the first movable contact in a switched-off state of the switching device. The second fixed contact is in contact with the second movable contact in the switched-on state of the switching device.

An air circuit breaker is disclosed. The air circuit breaker according to an embodiment of the present disclosure includes a cover magnet unit. The cover magnet unit is directly coupled to an upper cover which forms the outer appearance of the air circuit breaker. The cover magnet unit is positioned adjacent to a fixed contact and forms a magnetic field. Due to the formed magnetic field, an electromagnetic force in a direction toward an arc extinguishing unit is applied to a generated arc. Accordingly, the generated arc may be rapidly moved and extinguished. The cover magnet unit is inserted into a surface of the upper cover and is not exposed to the outside. Therefore, the generated arc is not in contact with the cover magnet unit. As a result, the cover magnet unit is not damaged by the generated arc.

An electromechanical switching device for breaking an electric current, the switching device including a stationary main contact; a movable main contact; a stationary arcing contact; a movable arcing contact, the stationary arcing contact and the movable arcing contact being arranged in parallel with the stationary main contact and the movable main contact; an actuating arrangement configured to move the movable main contact and the movable arcing contact; and a magnetic member arranged to generate a magnetic holding force in response to an electric current flow through the movable arcing contact when the movable arcing contact is in the closed position, the magnetic holding force acting on the movable arcing contact in a direction against the stationary arcing contact.

Disclosed embodiments relate to an electrically controlled switch for high current switching operations and with different configurations of fixed terminal contacts that includes a switch body, a couple of moving contacts, a guide that drives the couple of moving contacts up to an abutting position, a housing groove running perimetric in the switch body, and at least one contact bar for connecting each of the moving contact to a respective fixed terminal contact of the switch, wherein the contact bar is hosted within the housing groove and has a free end projecting from the switch body to form the fixed terminal contact through a corresponding aperture of the switch body located on a same lateral side or on opposite lateral sides, or on the base support, respectively.

Provided is a contact device including a first contact, a second contact that is movable relative to the first contact and is brought into contact with or separated from the first contact, a first body part including the first contact, a second body part including the second contact, and a yoke arranged adjacent to at least one of the first body part or the second body part. At least a part of the yoke is arranged along magnetic flux generated by a current flowing through one body part of the first body part and the second body part that is adjacent to the yoke, in a region where the first body part and the second body part overlap each other when viewed along an axis in which the first contact and the second contact move relative to each other while the first contact and the second contact are in contact with each other.

At a contact switch, an arc generated between two contacts is controlled. An arc binding mechanism 100 includes: a first contact 111 and a second contact 121 that are capable of being contacted and separated; and a substantially ring-shaped arc binder 130 that is made of a magnetic material, is electrically insulated from a circuit including the first contact and the second contact, has an axis in parallel with a direction of a gap between the first contact and the second contact in a case in which the first contact and the second contact are in a non-contact state, and is provided so as to encircle the gap.

Disclosed embodiments relate to an electrically controlled switch for high current switching operations and with different configurations of fixed terminal contacts that includes a switch body, a couple of moving contacts, a guide that drives the couple of moving contacts up to an abutting position, a housing groove running perimetric in the switch body, and at least one contact bar for connecting each of the moving contact to a respective fixed terminal contact of the switch, wherein the contact bar is hosted within the housing groove and has a free end projecting from the switch body to form the fixed terminal contact through a corresponding aperture of the switch body located on a same lateral side or on opposite lateral sides, or on the base support, respectively.

A DC electrical circuit breaker includes first and second movable electrical contacts. The circuit breaker includes a magnetic circuit including a magnet and generating a magnetic field able to guide an electrical arc in the direction of a quenching chamber, and having for this purpose curved field lines extending perpendicularly to opposite lateral walls of an electrical arc formation chamber, these field lines converging, in a central region of the arc formation chamber containing the contact zones, toward the quenching chamber while extending parallel to the longitudinal plane.