Class / Patent application number | Description | Number of patent applications / Date published |
335008000 | Multipole or polyphase | 20 |
20090039987 | Switching Device Module - A switching device module comprising a frame ( | 02-12-2009 |
20090058573 | Power switching apparatus and method of controlling the same - A power switching apparatus includes a breaker unit, an operating unit, a measuring unit, and a controlling unit. The breaker unit is connected on a three-phase current line, and includes switches each corresponding to one of phases of the three-phase current line. The operating unit simultaneously turns on or off the switches. The measuring unit measures a current flowing in each phase, and determines a time point where current flowing in one of the phases becomes zero as a reference time point. The controlling unit controls, when interrupting load current, the operating unit to turn off the switches in a range from 20 degrees to 40 degrees of an electric angle from the reference time point. | 03-05-2009 |
20090128265 | SECONDARY TRIP SYSTEM FOR CIRCUIT BREAKER - A mechanism for a circuit breaker contact arm that allows current limiting by reducing the opening time is disclosed. A secondary trip assembly is arranged to actuate due to magnetic forces generated during an undesirable electrical condition such as a short circuit. The secondary trip system releases a contact arm assembly allowing the contact arm to rotate to an open position that interrupts the flow of electrical power. | 05-21-2009 |
20090160586 | Protection Switch - A protection switch includes a plurality of single-pole protection switch modules in a mechanically coherent unit forming a multi-pole protection switch configuration. Each module includes a housing, a switching arm, a moving contact on the switching arm pivotably movable against a fixed contact between closed and open positions, a manual operating mechanism for adjusting the switching arm between the closed and open positions and a tripping mechanism for automatically resetting the switching arm into the open position upon a tripping condition. The manual operating mechanisms of all modules are coupled so that the modules are only switched jointly. The tripping mechanisms of all modules are coupled so that the tripping mechanism of each also trips all others. A one-piece coupling is insertable between adjoining modules for both mechanically fixing the modules to one another and coupling the manual operating mechanisms and the tripping mechanisms of the adjoining protection switch modules. | 06-25-2009 |
20090174508 | Circuit Breaker with Electronic Sensing and De-Latch Activation - A circuit breaker and method includes a mechanical pole moveable between a latched position and an unlatched position to open an electrical connection between a pair of electrical contacts. An electronic tripping device is configured to respond to a sensor signal. The sensor signal is output from a condition sensor wherein upon receiving the sensor signal the electronic tripping device trips the mechanical pole into the unlatched position. | 07-09-2009 |
20090256657 | BREAKER INTERLOCK SYSTEM AND METHOD - Disclosed herein is a breaker interlock system. The system includes, a trip unit for a breaker, and a breaker receptive of the trip unit. The breaker is closable when the trip unit is assembled thereto and the breaker is non-closable when the trip unit is not assembled to the breaker. The interlock system is further configured to prevent disassembly of the trip unit from the breaker when the breaker is in a closed configuration. The breaker having a plurality of solenoids and each of the plurality of solenoids is in operable communication with the breaker to trip the breaker on command. A first of the plurality of solenoids is responsive to a signal from the breaker via the trip unit, and a second of the plurality of solenoids is responsive to an externally supplied signal from a source other than the electronic trip unit. | 10-15-2009 |
20110205003 | ELECTROMAGNETIC SWITCHING DEVICE HAVING A PLURALITY OF AREAS GRADUATED RELATIVE TO ONE ANOTHER - An embodiment of the present invention discloses an electromagnetic switching device including a housing including a mounting side and a connector side opposite the mounting side. The connector side includes one first and second main connection area for connecting first and second main lines to first and second fixed main contacts disposed in the interior of the housing. In the interior of the housing, movable main contact bridges are disposed via which one main current path each main current path includes one of the first fixed main contacts, one of the second fixed main contacts, and one of the main contact bridges. The main connection areas are located opposite one another. One first and one second central area are disposed between the main connection areas. The central areas each extend from the first to the second main connection area. The central areas are elevated relative to the main connection areas and disposed next to one another viewed from the first to the second main connection area. The first central area is more elevated relative to the main connection areas than the second central area. | 08-25-2011 |
20120326814 | Electric Protection Apparatus Comprising at Least One Breaking Module Controlled by a Control Device With Electromagnetic Coil - The present invention relates to an electric protection apparatus comprising at least one switching module fitted on a mounting support, and a control device with an electromagnetic coil juxtaposed with one of the above-mentioned modules, this device comprising a magnetic shield arranged in a plane substantially perpendicular to the plane of the mounting support, said shield being located between the control device and the switching module situated closer to said device, facing the coil of the control device, and comprising at least one ferromagnetic part shaped in such a way that said shield performs magnetic guiding of the arc as soon as separation of the contacts takes place so as to increase the propulsion component of the Laplacian force acting on the arc as soon as separation of the contacts takes place. | 12-27-2012 |
20140210575 | ELECTRICALLY OPERATED BRANCH CIRCUIT PROTECTOR - Electrical operation of circuit breakers utilizing a straight pull dc magnet system with positive means of locking in OFF position is provided. The operating dynamics have advantages in fault coordination and discrimination for motor branch circuits. The construction offers physical and economic advantages in control solutions. | 07-31-2014 |
20150091677 | Gas Circuit Breaker - An object is to provide a gas circuit breaker having improved reliability. To solve the above-described problem, a gas circuit breaker is characterized by having a fixed contact, a movable contact configured to come into contact with or separate from the fixed contact, an insulating enclosure internally having the fixed contact and the movable contact, the inside of the insulating enclosure being filled with an insulating gas, and an operating mechanism configured to allow drive force for movement of the movable contact to be generated, wherein the operating mechanism includes a mover including permanent magnets or magnetic bodies disposed in a direction along which the operating mechanism allows the drive force to be generated, and a magnetic pole disposed to be opposed to the mover, and having a winding. | 04-02-2015 |
20160164200 | DEVICE FOR ELECTRICAL CONNECTION HAVING AN AUXILIARY OUTPUT, AND SWITCHING APPLIANCE HAVING SUCH A DEVICE - A device connects an electrical conductor to an area for electrical connection of an electrical switching device, the switching device having an electrical switching module connected to the area for electrical connection. The connecting device has at least one primary unit for electrically connecting a primary conductor to the area for connection, and an insulating shell receiving each primary connecting unit. The connecting device additionally has at least one secondary unit for connecting a secondary electrical conductor, and, for each secondary unit, an electrically conductive link piece connected between said the secondary unit and a respective primary unit. | 06-09-2016 |
335009000 | With individual latch or trip means in each leg | 4 |
20100134221 | ADD-ON TRIP MODULE FOR MULTI-POLE CIRCUIT BREAKER - An add-on module adapted to be attached to the basic mechanical structure of a multi-pole circuit breaker includes multiple extended terminal plates each of which is adapted to replace one of the input and output terminals for one of the poles, multiple electromechanical transducers each of which is coupled to one of the extended terminal plates for producing a mechanical movement in response to a predetermined magnitude of electrical current in the extended terminal plate to which that transducer is coupled, a mechanical actuator coupled to the electromechanical transducers and to the movable contacts for operating the trip mechanism in response to a predetermined movement of any of the transducers, and a calibration element for adjusting mechanical movement of at least one of said multiple electromechanical transducers so as to control an aspect of trip actuation. | 06-03-2010 |
20100164657 | Add-On Trip Module For Multi-Pole Circuit Breaker - An add-on module adapted to be attached to the basic mechanical structure of a multi-pole circuit breaker includes multiple extended terminal plates each of which is adapted to replace one of the input and output terminals for one of the poles, multiple electromechanical transducers each of which is coupled to one of the extended terminal plates for producing a mechanical movement in response to a predetermined magnitude of electrical current in the extended terminal plate to which that transducer is coupled, a mechanical actuator coupled to the electromechanical transducers and to the breaker contacts for operating a trip mechanism in response to a predetermined mechanical movement of any of the transducers, and a mechanical reset arm coupling the reset mechanism to the mechanical actuator for resetting the actuator in response to the resetting of the host circuit breaker. | 07-01-2010 |
20150070113 | TRIPPING MECHANISMS FOR TWO-POLE CIRCUIT BREAKERS - A two-pole circuit breaker is provided that includes an electronic pole disposed between a first mechanical pole and a second mechanical pole. The first mechanical pole includes a first armature, and the second mechanical pole includes a second armature. The first and second armatures each are adapted to rotate in a first plane. The electronic pole includes a trip mechanism having a first trip arm disposed adjacent the first armature and a second trip arm disposed adjacent the second armature. The first trip arm and the second trip arm are each adapted to rotate in a second plane substantially orthogonal to the first plane. Numerous other aspects are provided. | 03-12-2015 |
20150332883 | ELECTRICAL SWITCHING APPARATUS AND LINEAR ACTUATOR ASSEMBLY THEREFOR - A linear actuator assembly is for an electrical switching apparatus, such as a multi-pole circuit breaker. The circuit breaker includes a plurality of pole units each having separable contacts. The linear actuator assembly includes a base unit comprising a housing, and a plurality of linear actuators. Each linear actuator is mounted within the housing in alignment with a corresponding one of the pole units. Each linear actuator actuates the separable contacts of the corresponding one of the pole units. A controller is adapted to control actuation of the linear actuators. | 11-19-2015 |
335010000 | With common latch or trip means | 5 |
20080246563 | LOW-VOLTAGE CIRCUIT BREAKER WITH INTERCHANGEABLE POLES - A low-voltage circuit breaker that comprises: a containment structure; a control mechanism; a plurality of circuit breaking poles, chosen between a first type of pole that comprises a first housing containing a first fixed contact and a corresponding first moving contact that can be coupled to said first fixed contact by means of its rotation around a point, and a second type of pole that comprises a second housing containing a second fixed contact and a corresponding second moving contact that can be coupled to said second fixed contact by means of a translatory movement along an axis; a first kinematic coupling between said control mechanism and said first moving contact, in the case of said poles belonging to said first type of pole, or a second kinematic coupling between said control mechanism and said second moving contact, in the case of said poles belonging to said second type of pole. | 10-09-2008 |
20090102584 | Multiple Axis Transmission System - An interface module is configured for transmitting a status change signal between a first circuit device that has a first circuit device couple and a second circuit device that has a second circuit device couple. The interface module may include a housing, a first coupling assembly that includes a first couple arm and a second coupling assembly that includes a second couple arm. Each of the first and second couple arms extends through the housing at a location that is spaced from the other and each of the first and second coupling assemblies is movable by the first circuit device couple and/or the second circuit device couple to transmit a status change signal there between. | 04-23-2009 |
20090278634 | Multiple Arc Chamber Assemblies for a Fault Interrupter and Load Break Switch - A fault interrupter and load break switch includes a trip assembly configured to automatically open a transformer circuit electrically coupled to stationary contacts of the switch upon the occurrence of a fault condition. The fault condition causes a Curie metal element electrically coupled to at least one of the stationary contacts to release a magnetic latch. The release causes a trip rotor of the trip assembly to rotate a rotor assembly. This rotation causes ends of a movable contact of the rotor assembly to electrically disengage the stationary contacts, thereby opening the circuit. The switch also includes a handle for manually opening and closing the electrical circuit in fault and non-fault conditions. Actuation of the handle coupled to the rotor assembly via a spring-loaded rotor causes the movable contact ends to selectively engage or disengage the stationary contacts. | 11-12-2009 |
20090278635 | Fault Interrupter and Load Break Switch - A fault interrupter and load break switch includes a trip assembly configured to automatically open a transformer circuit electrically coupled to stationary contacts of the switch upon the occurrence of a fault condition. The fault condition causes a Curie metal element electrically coupled to at least one of the stationary contacts to release a magnetic latch. The release causes a trip rotor of the trip assembly to rotate a rotor assembly. This rotation causes ends of a movable contact of the rotor assembly to electrically disengage the stationary contacts, thereby opening the circuit. The switch also includes a handle for manually opening and closing the electrical circuit in fault and non-fault conditions. Actuation of the handle coupled to the rotor assembly via a spring-loaded rotor causes the movable contact ends to selectively engage or disengage the stationary contacts. | 11-12-2009 |
20110115585 | LOW COST MULTI-POLE CIRCUIT BREAKERS WITH SHARED COMPONENTS - A multi-pole circuit breaker comprising a single main housing containing multiple circuit breakers for protecting multiple branch circuits. Each of the circuit breakers comprises a single line terminal for receiving electrical current from a utility line, a plurality of load terminals for supplying electrical current from the single line terminal to a plurality of branch circuits via load lines, and a plurality of neutral terminals for receiving electrical current returned from the branch circuits via neutral lines Line conductors inside the main housing connect the line terminal to the plurality of load terminals. Sensors inside the main housing generate signals representing characteristics of the electrical current flow in the branch circuits, and a signal processor uses the signals generated by the sensors for detecting abnormal conditions in the branch circuits and generating trip signals in response to the detection of an abnormal condition. A single tripping mechanism between the line terminal and the load terminals receives the trip signals and interrupts the flow of current to the branch circuits in response to a trip signal. | 05-19-2011 |