The electromagnetic relay includes a contact unit, an electromagnet, an armature unit, and a base. The contact unit includes a fixed contact and a movable spring including a movable contact. The armature unit is movable in accordance with excitation of the electromagnet to allow the movable contact to move between a closed position in contact with the fixed contact and an open position away from the fixed contact. The base holds the contact unit and the electromagnet on a certain surface side. The movable contact is placed between the base and the fixed contact in an arrangement direction in which the base and the electromagnet are arranged. The armature unit includes a press part which causes movement of the movable contact by applying a pressing force to a certain surface facing the fixed contact, of the movable spring.

Disclosed is a magnetic latching relay capable of accurately positioning a magnetic circuit, comprising a magnetic circuit portion and a base, the magnetic circuit portion comprising a yoke, an iron core, an armature, and a bobbin, the iron core is inserted into a through-hole of the bobbin, and the yoke comprises two yokes, and one side of each of the two yokes is connected to the iron core respectively at the both ends of the through-hole of the bobbin, and the armature is fitted between the other side of each of the two yokes, the magnetic circuit portion is mounted on the base, with the axis of the through-hole of the bobbin in a horizontal manner; in at least one of the two yokes, a positioning convex portion is further provided on the outward face of the side of the yoke, positioning grooves are formed in at least one side wall to be engaged with the positioning convex portion of the yoke, to realize the positioning of the magnetic circuit portions on the base in the horizontal direction perpendicular to the axis of the bobbin through hole.

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.

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 relay device includes a fixed terminal having a pair of fixed contact points, a movable contact portion positioned adjacent to a lower side of the fixed terminal and configured to allow or block energization by being in contact with or spaced apart from the pair of fixed contact points, a fixed core disposed at a predetermined interval below the movable contact portion and configured to be magnetized when control power is applied, a movable core positioned adjacent to a lower side of the fixed core and configured to move toward the fixed core when the control power is applied, and a shaft that passes through the fixed core to connect to the movable contact portion and is coupled to the movable core to move together with the movable core. The shaft is supported by a step portion formed in the movable core to form a stroke gap between the fixed core and the movable core.

A relay device includes a fixed terminal having a pair of fixed contact points, a movable contact portion positioned adjacent to a lower side of the fixed terminal and configured to allow or block energization by being in contact with or spaced apart from the pair of fixed contact points, a fixed core disposed at a predetermined interval below the movable contact portion and configured to be magnetized when control power is applied, a movable core positioned adjacent to a lower side of the fixed core and configured to move toward the fixed core when the control power is applied, and a shaft that passes through the fixed core to connect to the movable contact portion and is coupled to the movable core to move together with the movable core. The shaft is supported by a step portion formed in the movable core to form a stroke gap between the fixed core and the movable core.

Provided herein are methods for an improved bi-stable relay. In some embodiments, a method may include providing a core assembly within a housing, the core assembly comprising a plunger extending through a coil support structure. The method may further include winding a first coil and a second coil about a central section of the coil support structure, providing a first magnet and a first ferromagnetic plate at a first end of the coil support structure, and providing a second magnet and a second ferromagnetic plate at a second end of the coil support structure. In some embodiments, the method may further include activating the first coil or the second coil to move the plunger between a first position and a second position, wherein in the first position a circuit formed by a set of contacts is closed, and wherein in the second position the circuit is open.

An electromagnetic device includes: a coil configured to generate a first magnetic flux; a fixed member, a movable member configured to reciprocate to separate from the fixed member by a predetermined gap when a current applied to the coil is stopped and move to the fixed member by an attractive force when the current is applied to the coil; and a permanent magnet configured to generate a second magnetic flux between the respective opposed surfaces of the fixed member and the movable member in the same direction as the first magnetic flux. The permanent magnet is attached to at least one of the fixed member and the movable member such that a magnetized surface of the permanent magnet is opposed and exposed to the opposed surface of the other one of the fixed member and the movable member.

An electromagnetic device includes a coil, a fixed member, a movable member configured to reciprocate to separate from the fixed member by a predetermined gap when a current applied to the coil is stopped and move to the fixed member by an attractive force when the current is applied to the coil, and a permanent magnet. The permanent magnet is arranged at a position adjacent to the gap and separated from the fixed member and the movable member with a space interposed therebetween. A direction of a second magnetic flux generated by the permanent magnet conforms to a direction of a first magnetic flux generated between the respective opposed surfaces of the fixed member and the movable member when the current is applied to the coil.

The electromagnetic relay includes a contact unit, an electromagnet, an armature unit, and a base. The contact unit includes a fixed contact and a movable spring including a movable contact. The armature unit is movable in accordance with excitation of the electromagnet to allow the movable contact to move between a closed position in contact with the fixed contact and an open position away from the fixed contact. The base holds the contact unit and the electromagnet on a certain surface side. The movable contact is placed between the base and the fixed contact in an arrangement direction in which the base and the electromagnet are arranged. The armature unit includes a press part which causes movement of the movable contact by applying a pressing force to a certain surface facing the fixed contact, of the movable spring.