What is presented is a key module for a keyboard. The key module comprises a key tappet. The key module also comprises a module housing. The module housing is formed to movably accommodate the key tappet, in order to enable a translational actuation movement of the key tappet between a rest position and in an actuated position relative to the module housing. The key module further comprises a trigger element for triggering an actuation signal of the key module in response to the actuation movement. The trigger element is attached to the key tappet. The trigger element is a contactor for electrically shorting contact pads of a circuit substrate of the keyboard. The trigger element comprises more than two elastically deformable contact fingers for contacting the contact pads after different pre-travel paths in the course of the actuation movement.

What is presented is a key module for a keyboard. The key module comprises a key tappet. The key module also comprises a module housing. The module housing is formed to movably accommodate the key tappet, in order to enable a translational actuation movement of the key tappet between a rest position and in an actuated position relative to the module housing. The key module further comprises a trigger element for triggering an actuation signal of the key module in response to the actuation movement. The trigger element is attached to the key tappet. The trigger element is a contactor for electrically shorting contact pads of a circuit substrate of the keyboard. The trigger element comprises more than two elastically deformable contact fingers for contacting the contact pads after different pre-travel paths in the course of the actuation movement.

What is presented is a key module (110) for a keyboard. The key module (110) comprises a key tappet (220). The key module (110) also comprises a module housing (230). The module housing (230) is formed to movably accommodate the key tappet (220), in order to enable a translational actuation movement of the key tappet (220) between a rest position and in an actuated position relative to the module housing (230). The key module (110) further comprises a trigger element (240) for triggering an actuation signal of the key module (110) in response to the actuation movement. The trigger element (240) is attached to the key tappet (220). The trigger element (240) is a contactor for electrically shorting contact pads of a circuit substrate of the keyboard. The trigger element (240) comprises more than to elastically deformable contact fingers for contacting the contact pads after different pre-travel paths in the course of the actuation movement.

What is presented is a key module (110) for a keyboard. The key module (110) comprises a key tappet (220). The key module (110) also comprises a module housing (230). The module housing (230) is formed to movably accommodate the key tappet (220), in order to enable a translational actuation movement of the key tappet (220) between a rest position and in an actuated position relative to the module housing (230). The key module (110) further comprises a trigger element (240) for triggering an actuation signal of the key module (110) in response to the actuation movement. The trigger element (240) is attached to the key tappet (220). The trigger element (240) is a contactor for electrically shorting contact pads of a circuit substrate of the keyboard. The trigger element (240) comprises more than to elastically deformable contact fingers for contacting the contact pads after different pre-travel paths in the course of the actuation movement.

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.

The contact structure includes a first contact, a second contact, a first contact arm and a second contact arm. In an embodiment, the first contact arm includes at least two spring plates, arranged one on top of another and fixed at one end. The second contact is located on the second contact arm. The first contact is located on the spring plate, on a side of the first contact arm relatively closer to the second contact arm. The at least two spring plates, under a driving action, experience elastic deformation which causes the first contact and the second contact to come into contact with each other. The switch apparatus includes at least one driver and the contact structure of an embodiment. An embodiment of the present solution can reduce the number of contacts in a contact structure.

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 switching contact is disclosed. The switching contact has an actuation section including a plurality of spring elements. The actuation section is less rigid in a first direction than an opposite second direction.

A switching contact is disclosed. The switching contact has an actuation section including a plurality of spring elements. The actuation section is less rigid in a first direction than an opposite second direction.

An electric switch is disclosed. The electric switch includes first and second terminals, and a contact sub-assembly is disposed between the first and second terminals and includes at least two contact members. The contact sub-assembly has a connecting position in which the contact members contact each other, wherein a current path extends from the first terminal to the second terminal through the contact sub-assembly in the connecting position, and an interrupting position in which the contact members are spaced apart from each other, wherein the current path does not extend from the first terminal to the second terminal in the interrupting position. At least two conductor members are disposed in the current path between the first terminal and the contact sub-assembly, and the current generates a Lorentz force between the conductor members that is mechanically translated to bias the contact sub-assembly into the interrupting position.