The invention relates to a cut-off device comprising a conductive element and a movable piston, the piston being able to move between a first position for the passage of the current in the conductive element and a second current cut-off position, the piston being configured to break the conductive element during its passage from its first position to its second position, the piston being positioned in a receiving cavity of a receiving element when said piston is in its second position, the receiving cavity being delimited by at least one inner wall of the receiving element, the inner wall being made of electrically insulating material. The receiving element further comprises fins made of electrically insulating material and extending inside the receiving cavity from said at least one inner wall of the receiving element.

A fluid connector for coolant includes a chamfered lip and a fir tree circumferentially aligned with at least one O-ring on an outer body of the fluid connector. The fluid connector is configured to receive an end piece. The end piece has a standard SAEJ2044 end form. The fluid connector utilizes a housing to form a ribbing and support a seal. An integrated inverter assembly includes a main cover and an opposing back cover; a coolant channel disposed between a coolant channel cover and a coolant channel separating body; wherein power electronics of the integrated inverter assembly are thermally coupled to the coolant channel; wherein at least one of a coolant inlet or a coolant outlet of the coolant channel comprises a fluid connector; and wherein the fluid connector comprises a chamfered lip on an end of the fluid connector.

An inverter assembly includes an integrated coolant coupling port; a fluid connector having a chamfered lip and a fir tree circumferentially aligned with at least one O-ring on an outer body of the fluid connector; and a flexible hose configured to couple the integrated coolant coupling port to the fluid connector.

To provide an electric circuit breaker device including a conduction part that can be easily cut. An electric circuit breaker device includes a housing made of synthetic resin, a rod-like projectile made of synthetic resin and arranged in the housing, a conductor portion arranged in the housing to extend across a front face of one end portion of the rod-like projectile, and an igniter arranged in the housing to face another end portion of the rod-like projectile and configured to generate pressure to fire the rod-like projectile toward the conductor portion. In one embodiment, the conductor portion includes a first conductor plate extending across the front face of the one end portion of the rod-like projectile and including a recess portion, and a second conductor plate coupled to the recess portion of the first conductor plate. In another example, the conductor portion includes a first conductor plate arranged on the front face of one end portion of the rod-like projectile, and a second conductor plate and a third conductor plate coupled, at a corresponding one of edge portions of the second conductor plate and the third conductor plate, to respective opposing edge portions of the first conductor plate.

An alternatively changeable electric circuit comprising a voltage source, an electric load electrically connected with said electric voltage source via a basic electric conductor having a primary branch and a secondary branch, and an alternative conductor connected in parallel to said basic electric conductor, wherein upon fulfillment of a predetermined circumstance, said primary branch is physically interrupted, causing an electric current which initially flowed through said primary branch to be redirected through said alternative conductor. The alternative conductor comprises two electric conductive sections which are aligned with each other and spaced apart at a distance, forming an electrically insulating gap there-between. The primary branch includes an electrically conductive section, which upon the predetermined circumstance is removable from the primary branch and displaceable into said gap between said two electric conductive sections, causing the alternative conductor to become bridged and electrically conductive.

An alternatively changeable electric circuit comprising a voltage source, an electric load electrically connected with said electric voltage source via a basic electric conductor having a primary branch and a secondary branch, and an alternative conductor connected in parallel to said basic electric conductor, wherein upon fulfillment of a predetermined circumstance, said primary branch is physically interrupted, causing an electric current which initially flowed through said primary branch to be redirected through said alternative conductor. The alternative conductor comprises two electric conductive sections which are aligned with each other and spaced apart at a distance, forming an electrically insulating gap there-between. The primary branch includes an electrically conductive section, which upon the predetermined circumstance is removable from the primary branch and displaceable into said gap between said two electric conductive sections, causing the alternative conductor to become bridged and electrically conductive.

The invention relates to a short-circuiting device for use in low-voltage and medium-voltage systems for the protection of property and persons, comprising: a switching element, which can be operated by the tripping signal of a fault detection device; two mutually opposite contact electrodes having power supply means, which contact electrodes can be brought into contact with an electrical circuit having connection points at different potential; furthermore, in at least one of the contact electrodes, a movable contact part, which is under mechanical preload and executes a movement to the further contact electrode with the assistance of spring force in the event of a short circuit; and a sacrificial element as a spacer between the contact electrodes, with an electrical connection between the sacrificial element and the switching element on the one hand and one of the contact electrodes on the other hand, in order to deliberately cause current-flow-induced thermal deformation or destruction of the sacrificial element. According to the invention, the movable contact part is in the form of a hollow cylinder which is closed on one side, and a spring for generating preload is inserted in the hollow cylinder. The hollow cylinder is movably guided in a complementary cutout in the first contact electrode, a sliding contact thus being formed. In the region of the base of the closed hollow cylinder, the cylinder wall of said hollow cylinder transitions into a cone at the outer circumference. Furthermore, a first pin-like extension, opposite to which a second pin-like extension insulated from the contact electrodes is situated, extends within the hollow cylinder, proceeding from the base. The sacrificial element, in the form of a bolt or screw, is arranged between the first and the second pin-like extension. A cutout, which has an internal cone and is matched to the external cone of the movable contact, is provided in the second contact electrode. The external cone and the internal cone form a bounce-free short-circuit contact region having frictional locking and interlocking connection on account of plastic deformation which occurs. Furthermore, according to the invention the switching element is designed as an auxiliary short-circuiter on the basis of an electric match.

The invention relates to a short-circuiting device for use in low-voltage and medium-voltage systems for the protection of property and persons, comprising: a switching element, which can be operated by the tripping signal of a fault detection device; two mutually opposite contact electrodes having power supply means, which contact electrodes can be brought into contact with an electrical circuit having connection points at different potential; furthermore, in at least one of the contact electrodes, a movable contact part, which is under mechanical preload and executes a movement to the further contact electrode with the assistance of spring force in the event of a short circuit; and a sacrificial element as a spacer between the contact electrodes, with an electrical connection between the sacrificial element and the switching element on the one hand and one of the contact electrodes on the other hand, in order to deliberately cause current-flow-induced thermal deformation or destruction of the sacrificial element. According to the invention, the movable contact part is in the form of a hollow cylinder which is closed on one side, and a spring for generating preload is inserted in the hollow cylinder. The hollow cylinder is movably guided in a complementary cutout in the first contact electrode, a sliding contact thus being formed. In the region of the base of the closed hollow cylinder, the cylinder wall of said hollow cylinder transitions into a cone at the outer circumference. Furthermore, a first pin-like extension, opposite to which a second pin-like extension insulated from the contact electrodes is situated, extends within the hollow cylinder, proceeding from the base. The sacrificial element, in the form of a bolt or screw, is arranged between the first and the second pin-like extension. A cutout, which has an internal cone and is matched to the external cone of the movable contact, is provided in the second contact electrode. The external cone and the internal cone form a bounce-free short-circuit contact region having frictional locking and interlocking connection on account of plastic deformation which occurs. Furthermore, according to the invention the switching element is designed as an auxiliary short-circuiter on the basis of an electric match.

A direct current electric circuit interrupting switch assembly for establishing of electric connection comprising a primary electric conductor and a secondary electric conductor integrated between a direct voltage electric source and at least one load; wherein said primary electric conductor of the switch assembly comprises of two branches, which are in parallel connected with each other, of which the first branch includes an electric fuse with a melting member and the second branch includes a pyroswitch with an interrupting member, which is capable to interrupt said second branch of the primary electric conductor extending through said pyroswitch, as well as an actuator, which is capable to ensure appropriate movement of said interrupting member due to interruption of said second branch of the primary electric conductor; wherein said pyroswitch comprises such interrupting member, which is within said pyroswitch displaceable from a first position, in which by means of it said second branch of the primary electric conductor is uninterrupted and in which said interrupting member is held at a sufficient distance apart from the secondary electric conductor, into a second position, in which the electric circuit throughout the second branch of the primary electric conductor is interrupted and the interrupting member is held in an electric conductive contact with the secondary conductor of the switch assembly.

Electric drive devices having at least one power electronics module including at least one voltage circuit having power electronics components such as a converter, transformer, frequency inverter, power capacitor, circuit breaker and the like, and at least one fuse for interrupting the voltage circuit in the event of excess currents and/or voltages. The invention also relates to a wind turbine and similar large industrial electrical systems having such a drive device. The device can comprise at least one pyrotechnic fuse with a propellant charge for the irreversible interruption of the voltage circuit, wherein the pyrotechnic fuse is arranged in the voltage circuit of the power electronics module or immediately adjacent to at least one power electronics component such as a converter, frequency inverter, transformer, power capacitor or circuit breaker.