An electromagnetic relay includes: a base; a pair of fixed contact terminals, each including a fixed contact and a first fulcrum fixed to the base; a movable contact spring including a pair of movable pieces, each of the movable pieces including a movable contact contacting and separating from the fixed contact; an armature that is coupled with the movable contact spring, by a rotary motion around a second fulcrum; an electromagnetic device that drives the armature; and a permanent magnet arranged between the pair of fixed contact terminals and between the pair of movable pieces to generate a magnetic field. The first fulcrum and the second fulcrum are arranged mutually in opposite directions with respect to the movable contact or the fixed contact.

A game machine operating device mounted on a game machine with a game board and provided on a front side of the game board includes: an operation unit which receives an operation; and a projection unit which radiates light in a direction toward the game board to project a first image on an area in a field of view of a player viewing the game board. The projection unit includes: a first light source; and a light guide into which light emitted from the first light source is guided. The light guide has a light diffusion pattern formed on one or both of a front surface and a rear surface, wherein light is emitted through the light diffusion pattern to form the first image. A part on which the light diffusion pattern is formed is disposed to be directed in the direction toward the game board.

A game machine operating device mounted on a game machine with a game board and provided on a front side of the game board includes: an operation unit which receives an operation; and a projection unit which radiates light in a direction toward the game board to project a first image on an area in a field of view of a player viewing the game board. The projection unit includes: a first light source; and a light guide into which light emitted from the first light source is guided. The light guide has a light diffusion pattern formed on one or both of a front surface and a rear surface, wherein light is emitted through the light diffusion pattern to form the first image. A part on which the light diffusion pattern is formed is disposed to be directed in the direction toward the game board.

Systems and methods may provide for an energy harvester to power a mobile device. The energy harvester may include an energy harvesting portion to generate electrical power. At least one sensor may measure an environmental condition relating to generation of electrical power by the energy harvesting portion. A controller may generate a signal based on the measured environmental condition by the at least one sensor to the mobile device. Alternatively the signals from the at least one sensor are place in a memory on the energy harvester. In one example, the controller determines the power generated by the energy harvester and the controller signal includes this power information.

Systems and methods may provide for an energy harvester to power a mobile device. The energy harvester may include an energy harvesting portion to generate electrical power. At least one sensor may measure an environmental condition relating to generation of electrical power by the energy harvesting portion. A controller may generate a signal based on the measured environmental condition by the at least one sensor to the mobile device. Alternatively the signals from the at least one sensor are place in a memory on the energy harvester. In one example, the controller determines the power generated by the energy harvester and the controller signal includes this power information.

A system includes a circuit interruption device, such as a circuit breaker, contactor or other switch of an automatic transfer switch (ATS) or a similar device providing power to an input of an ATS, and a monitoring circuit, such as a controller of the ATS, coupled to the circuit interruption device and configured to monitor voltages at inputs and outputs of the circuit interruption device, to monitor an auxiliary contact signal associated with auxiliary contacts of the circuit interruption device, and to determine a status of the auxiliary contacts responsive to the monitored voltages and auxiliary contact signal.

The invention relates to an electromagnetic contactor including: first and second magnetic cores, the second core being mobile relative to the first core; a control rod mobile between an inoperative position and a supply position, the control rod comprising a shoulder, in inoperative position: the shoulder comprises one surface in contact with the first magnetic core, the first magnetic core and the control rod separating a first chamber extending between the first and second magnetic cores and a second chamber in which the contact plate is located, and at least one opening made between the first chamber and the second chamber allowing the transfer of air from the first chamber to the second chamber when the second magnetic core moves from the inoperative position to the magnetized position.

An apparatus comprises a switchgear having at least one couple of stationary conducting terminals and a switching device, such as a circuit breaker, having at least one couple of corresponding movable conducting terminals. The switching device is movable with respect to the switchgear along a connection/disconnection direction between a connection position, wherein the switching device is electrically and mechanically connected to the switchgear by engagement of the movable conducting terminals with the corresponding stationary contacting terminals by means of contact assemblies coupled either to the movable conducting terminals or to the stationary conducting terminals, and a disconnection position, wherein the switching device and the switchgear are electrically and mechanically disconnected. The apparatus further comprises at least one vibration-limiting device integrally coupled to either one movable conducting terminal of said at least one couple of movable conducting terminals or to one corresponding stationary conducting terminal of said at least one couple of stationary conducting terminals and conformed such that: when the switching device is approaching the connection position moving along said connection/disconnection direction, the vibration-limiting device does not interfere with the other of the one movable conducting terminal or the one corresponding stationary conducting terminal; when the switching device is in the connection position, in case of vibrations of the one movable conducting terminal transversal to said connection/disconnection direction, the vibration-limiting device interferes with the other of the one movable conducting terminal or the one corresponding stationary conducting terminal so to limit the vibrations amplitude.

An apparatus comprises a switchgear having at least one couple of stationary conducting terminals and a switching device, such as a circuit breaker, having at least one couple of corresponding movable conducting terminals. The switching device is movable with respect to the switchgear along a connection/disconnection direction between a connection position, wherein the switching device is electrically and mechanically connected to the switchgear by engagement of the movable conducting terminals with the corresponding stationary contacting terminals by means of contact assemblies coupled either to the movable conducting terminals or to the stationary conducting terminals, and a disconnection position, wherein the switching device and the switchgear are electrically and mechanically disconnected. The apparatus further comprises at least one vibration-limiting device integrally coupled to either one movable conducting terminal of said at least one couple of movable conducting terminals or to one corresponding stationary conducting terminal of said at least one couple of stationary conducting terminals and conformed such that: when the switching device is approaching the connection position moving along said connection/disconnection direction, the vibration-limiting device does not interfere with the other of the one movable conducting terminal or the one corresponding stationary conducting terminal; when the switching device is in the connection position, in case of vibrations of the one movable conducting terminal transversal to said connection/disconnection direction, the vibration-limiting device interferes with the other of the one movable conducting terminal or the one corresponding stationary conducting terminal so to limit the vibrations amplitude.

An electromagnetic actuator of an electrical contact includes: a stationary portion including at least one coil generating a magnetic field centered on a longitudinal axis; at least one core concentrating magnetic flux, installed within the coil, and including a plate spreading the magnetic flux and defining an active surface perpendicular to the longitudinal axis, and at least one element returning magnetic flux; an armature translationally movable along the longitudinal axis and relative to the stationary portion between first and second positions, by a force induced by the magnetic field; and at least one device returning the armature elastically to a predetermined position of the first position or second position. The spreading plate includes at least one rib closing magnetic field lines between the spreading plate and the armature, protruding relative to the active surface on the armature side and housed on one edge of the spreading plate.