A push switch includes a vertically arranged reed switch, a hollow case disposed to surround the reed switch, an annular first magnet fixedly disposed on the lower side in the case to surround the reed switch and magnetized in the axial direction, an annular second magnet disposed to be axially movable on the upper side in the case to surround the reed switch and magnetized in a direction opposite to the first magnet, and a pushing member mounted to the second magnet to move the second magnet to an operating position close to the first magnet at the time of downward operation. The case is positioned so that in a non-operating state, the pushing member is not pressed down within the case. The contact point of the reed switch comes at the center between the first magnet and the second magnet in the axial direction.

A reed switch is positioned within a housing and an actuation or drive coil is wrapped around a central portion of the housing. A permanent magnet for biasing or holding the reed switch contact in a closed positioned is mounted in the housing outside of and spaced apart from the coil and in direct mechanical contact with a bare uninsulated portion of one of the reed switch leads.

A night vision goggle adapter including: a goggle mount assembly; a primary magnet generating a magnetic flux; a magnetic flux conducting unit having a first end and a second end; a first plurality of shunts; and a second plurality of shunts disposed about the goggle mount assembly; wherein the magnetic flux conducting unit may overlap the primary magnet and form a magnetic circuit for conducting the magnetic flux towards the second end of the magnetic flux conducting unit when none of the first plurality of shunts and none of the second plurality of shunts are overlapped by the magnetic flux conducting unit; and wherein the magnetic flux is shorted through one of the first plurality of shunts or the second plurality of shunts when the magnetic flux conducting unit is positioned to overlap one of the first plurality of shunts or one of the second plurality of shunts.

In an embodiment a switching device includes at least one stationary contact, a movable contact, an armature, a first permanent magnet, a second permanent magnet and a magnetic switch, wherein the movable contact is movable by the armature, wherein the first permanent magnet is attached to the armature, and wherein the second permanent magnet is arranged in a fixed position relative to the magnetic switch.

An electropermanent magnet key assembly of an information handling system comprising an electropermanent magnet (EPM) having a low-coercivity magnet and a high-coercivity magnet, wherein the EPM is capable of an on state generating a magnetic field and an off state disabling the magnetic field, a key cap, situated atop a pair of scissor plates, capable of downward movement, via action of the scissor plates, from a raised, neutral position in which a surface of the key cap is moved to a depressed position below the neutral position, wherein the downward movement of the key assembly may record a keystroke, a flange operably connected a first scissor plate of the pair of scissor plates and extending opposite of a hinge of the first scissor plate, such that the flange is attracted toward the magnetic field of the EPM situated beneath the pair of scissor plates to urge the first scissor plate to push the key cap to the neutral position in an on state, and a spring exerting a biasing force to rotate a rocker arm toward the flange for urging the flange away from the EPM opposite to the attraction of the magnetic field of the EPM, wherein the effect of the biasing force on movement of the flange is lesser than the effect of the magnetic field generated by the EPM on movement of the flange in the on state.

An electropermanent magnet key assembly of an information handling system comprising an electropermanent magnet (EPM) having a low-coercivity magnet and a high-coercivity magnet, wherein the EPM is capable of an on state generating a magnetic field and an off state disabling the magnetic field, a key cap, situated atop a pair of scissor plates, capable of downward movement, via action of the scissor plates, from a raised, neutral position in which a surface of the key cap is moved to a depressed position below the neutral position, wherein the downward movement of the key assembly may record a keystroke, a flange operably connected a first scissor plate of the pair of scissor plates and extending opposite of a hinge of the first scissor plate, such that the flange is attracted toward the magnetic field of the EPM situated beneath the pair of scissor plates to urge the first scissor plate to push the key cap to the neutral position in an on state, and a spring exerting a biasing force to rotate a rocker arm toward the flange for urging the flange away from the EPM opposite to the attraction of the magnetic field of the EPM, wherein the effect of the biasing force on movement of the flange is lesser than the effect of the magnetic field generated by the EPM on movement of the flange in the on state.

A reed switch assembly having a customizable length of activation is disclosed. One embodiment of the reed switch assembly may comprise a reed switch comprising a first reed contact, a second reed contact, a reed switch body enclosing the first reed contact and the second reed contact, and a bias magnet. The bias magnet may be positioned a certain distance away from the reed switch body to close the reed switch by a magnetic field. The reed switch assembly may further comprise a diversion blade that is configured to move in and out of a space between the reed switch body and the bias magnet. The diversion blade positioned in the space may open the reed switch by diverting the magnetic field applied by the bias magnet.

In an embodiment a switching device includes at least one stationary contact, a movable contact, an armature, a first permanent magnet, a second permanent magnet and a magnetic switch, wherein the movable contact is movable by the armature, wherein the first permanent magnet is attached to the armature, and wherein the second permanent magnet is arranged in a fixed position relative to the magnetic switch.

A push switch includes a vertically arranged reed switch, a hollow case disposed to surround the reed switch, an annular first magnet fixedly disposed on the lower side in the case to surround the reed switch and magnetized in the axial direction, an annular second magnet disposed to be axially movable on the upper side in the case to surround the reed switch and magnetized in a direction opposite to the first magnet, and a pushing member mounted to the second magnet to move the second magnet to an operating position close to the first magnet at the time of downward operation. The case is positioned so that in a non-operating state, the pushing member is not pressed down within the case. The contact point of the reed switch comes at the center between the first magnet and the second magnet in the axial direction.

A 360-degree blind-angle-free position detection magnetic sensor comprising a hollow plastic box, wherein a hollow reed is transversely disposed in the plastic box, and damping springs are respectively disposed at the two ends of the hollow reed; the outer ends of the two damping springs are respectively fixedly connected with the inner walls of the two ends of the plastic box; the hollow reed is movably suspended in an inner chamber of the plastic box, and a conductive magnetic ring is sleeved on the hollow reed; a conductive column is disposed in the plastic box; the inner end of the conductive column penetrates into the hollow reed, and is matched with the hollow reed; lead wires that are electrically connected with the conductive column and the hollow reed are disposed on the plastic box.