An electrical contact switch for use in an electrical contactor, which comprises first and second electrical terminals, an electrically-conductive busbar in electrical communication with the first electrical terminal, and at least one fixed electrical contact which is attached to the electrically-conductive busbar. The switch also has an electrically-conductive moveable arm in electrical communication with the second electrical terminal, with at least one moveable electrical contact which is attached to the electrically-conductive moveable arm to form an electrical contact set with the fixed electrical contact. A fixed ferromagnetic element is positioned at or adjacent to a side of the electrically-conductive moveable arm proximate the second electrical terminal, and a moveable ferromagnetic element is provided in physical communication with a side of the electrically-conductive moveable arm which is opposite to the fixed ferromagnetic element. In a closed condition of the electrical contact set, the electrically-conductive moveable arm induces a magnetic field in the fixed and moveable ferromagnetic elements, and thus the moveable ferromagnetic element is magnetically attracted towards the fixed ferromagnetic element to thereby increase a contact pressure on the electrical contact set. An electrical contactor and method of preventing or inhibiting contact bounce of an electrical contactor are also provided.

The invention relates to an electric rocker switch with an actuating element designed as a rocker. The rocker is thereby moveable back and forth between two positions, namely between an on position and an off position. The rocker is pivotably mounted on the housing for this purpose. The rocker interacts with a leaf spring, the upper end of the leaf spring is firmly clamped at the rocker via a longitudinal area and the lower end of the leaf spring is tiltably arranged on a contact element. The leaf spring has one stable arch shape in the on position and another stable arch shape in the off position with a curve oriented opposite the arch shape. The electric rocker switch according to the invention shows in an advantageous way symmetrical haptics for the on position and also for the off position, wherein the position of the rocker indicates the corresponding position.

The invention relates to an electric rocker switch with an actuating element designed as a rocker. The rocker is thereby moveable back and forth between two positions, namely between an on position and an off position. The rocker is pivotably mounted on the housing for this purpose. The rocker interacts with a leaf spring, the upper end of the leaf spring is firmly clamped at the rocker via a longitudinal area and the lower end of the leaf spring is tiltably arranged on a contact element. The leaf spring has one stable arch shape in the on position and another stable arch shape in the off position with a curve oriented opposite the arch shape. The electric rocker switch according to the invention shows in an advantageous way symmetrical haptics for the on position and also for the off position, wherein the position of the rocker indicates the corresponding position.

A rocker switch device includes an operation knob with a close bottom cylindrical shape configured to be operated, a body including a contact point configured such that current is interruptible by the operation knob and a support portion that projects toward an inside of the operation knob and supports the operation knob in a manner allowing for rocking, and a projection portion that projects from a portion of a surface of the support portion of the body that opposes the operation knob or a portion of a surface of the operation knob that opposes the body toward an opposing member.

A rocker switch device includes an operation knob with a close bottom cylindrical shape configured to be operated, a body including a contact point configured such that current is interruptible by the operation knob and a support portion that projects toward an inside of the operation knob and supports the operation knob in a manner allowing for rocking, and a projection portion that projects from a portion of a surface of the support portion of the body that opposes the operation knob or a portion of a surface of the operation knob that opposes the body toward an opposing member.

A contact device according to an embodiment includes: a fixed contact assembly including a first fixed contact and a second fixed contact; and a moving contact assembly including a first moving contact and a second moving contact. The moving contact assembly includes: a first moving member; and a second moving member. The second moving member is arranged, in a first direction, between the first moving member and the fixed contact assembly and fixed to the first moving member at one end in a second direction intersecting with the first direction. The first moving contact and the second moving contact move as the first moving member moves. A first distance from the one end in the second direction to the first moving contact is longer than a second distance from the one end in the second direction to the second moving contact.

A button switch includes a base having a pillar, a cover disposed on the base, a sleeve, an arm adjacent to the pillar and an elastic member having upward-force-applying, extending-rod, and flexible-rod portions. The sleeve jackets the pillar, passes through the cover, and has first and second ribs. The upward-force-applying portion jackets the pillar and abuts against the sleeve and the base to drive the sleeve to move away from the base. The extending-rod portion extends from the upward-force-applying portion to be connected to the flexible-rod portion located under the first rib. When the sleeve is located at a high position, the second rib biases the arm to deform. When the sleeve is located at a low position, the second rib is misaligned with the arm. The flexible-rod portion crosses the first rib to be released and then collides with the cover to make sound as the sleeve is pressed.

A push switch 1 includes a movable contact member 20 with a bulging portion 20a. The push switch 1 has a fixed contact member 10 with a first fixed contact portion 10a and a second fixed contact portion 10b. The push switch 1 includes an electrically conductive vibration damping member 25 elastically deformable by an operating force lower than load for inversion operation of the bulging portion 20a. When the movable contact member 20 is operated from the initial state, the vibration damping member 25 is deflected due to elastic deformation while the operating force during the elastic deformation of the vibration damping member 25 increases monotonically. When the movable contact member 20 returns from the bulging portion 20a being in an inverted state to the initial state, the vibration damping member 25 absorbs the vibrations from the movable contact member 20.

A push switch 1 includes a movable contact member 20 with a bulging portion 20a. The push switch 1 has a fixed contact member 10 with a first fixed contact portion 10a and a second fixed contact portion 10b. The push switch 1 includes an electrically conductive vibration damping member 25 elastically deformable by an operating force lower than load for inversion operation of the bulging portion 20a. When the movable contact member 20 is operated from the initial state, the vibration damping member 25 is deflected due to elastic deformation while the operating force during the elastic deformation of the vibration damping member 25 increases monotonically. When the movable contact member 20 returns from the bulging portion 20a being in an inverted state to the initial state, the vibration damping member 25 absorbs the vibrations from the movable contact member 20.

A fastener, in particular of a chassis component, has at least one sensor and at least one transmitter of a monitoring device for monitoring at least one mechanical fastening parameter. At least one power supply unit is associated with the transmitter, that the transmitter and the power supply unit are connected to one another by means of a switching contact, that an electrical connection can be closed by means of the switching contact, that the switching contact is designed in such a way that the electrical connection is open when the fastener is installed properly and is closed only when the fastener is released, and that the transmitter is supplied with current and transmits a signal only when the electrical connection of the switching contact is closed.