This application relates to systems, methods, and apparatus for welding switches to a bracket for placement inside of a computing device. Each switch can include a metal region that can be welded to a metal surface of a bracket. The metal region of the switch can be a cover that is formed around a body of the switch, or an inserted molded region that is provided on a surface of the switch. The bracket can include recesses that can be used to identify when a switch is abutting the bracket before welding the switch to the bracket. Multiple welds can be provided on each switch to ensure a rigid connection exists between the bracket and switch. Welding can be performed in batches by loading multiple brackets and switches onto a pallet, and thereafter loading the pallet into a welding machine.

A switch is provided with a case, a plurality of fixed conductive member, a movable conductive member, and a waterproof part. The case is formed of a first resin. The waterproof part is formed of a second resin whose adhesion to the plurality of fixed conductive members is higher than an adhesion of the first resin to the plurality of fixed conductive members. Each of the plurality of fixed conductive members includes a first portion arranged inside a recess of the case, a second portion exposed to an outside of the case, and a third portion positioned between the first portion and the second portion. The waterproof part surrounds the third portion of the each of the plurality of fixed conductive members.

A seamless button including a guiding element, a movable actuating element and a switch located on a mounting plate. The movable actuating element is made of elastic material with a massive middle shaft spaced from the inner walls of the chamber by an air gap. It has an upper actuating surface and crimp surrounding the actuating surface above the air gap. It also has a profile area at the outer circumference of the movement crimp, where the horizontally outwardly extending portion of the profile area rests on top of the outer wall, the downwardly extending portion of the profile area rests on the outside of the outer profile edge and the protrusion rests on the pedestal covering it at least partially. A seamless multi-button is also disclosed, with a method for manufacturing seamless buttons.

A switch includes: a housing; a first fixed-contact member having a longitudinal shape; a second fixed-contact member; and a movable contact member. The housing includes a casing. The first fixed-contact member includes: a first external-connection terminal exposed from one end in a longitudinal direction of the housing; and a central fixed contact exposed from a central portion of a bottom of the casing. The first fixed-contact member extends from the first external-connection terminal to the central fixed contact in the longitudinal direction. The second fixed-contact member includes: a second external-connection terminal exposed from the other end in the longitudinal direction of the housing; and a plurality of peripheral fixed contacts exposed from a peripheral portion of the bottom of the casing. The second fixed-contact member extends from the second external-connection terminal to the plurality of peripheral fixed contacts in the longitudinal direction.

Embodiments are directed to a low profile key for a keyboard having an overmolded support structure. In one aspect, an embodiment includes a key cap having an illuminable symbol. A support structure having a pair of overmolded wings may pivotally couple to the key cap. A switch housing may surround the support structure and connect each of the first and second wings. A tactile dome may be at least partially positioned within the switch housing and configured to bias the key cap upward. A sensing membrane may be positioned along an underside surface of the tactile dome and configured to trigger a switch event in response to a collapsing of the tactile dome caused by a depression of the key cap. A feature plate may be positioned below the sensing membrane. A light guide panel may define at least one light extraction feature that may be configured to propagate light toward the key cap and cause illumination of the illuminable symbol.

A lead frame 10 includes first and second frames 13, 14 and a fixed contact piece 15. The fixed contact piece 15 is integrally formed with the first frame via a conductive connection part 16. The first frame and the fixed contact piece 15 and the second frame have installation parts 13a, 14a, 14b, 15b to which resistance elements are able to install. The first frame 13 and the fixed contact piece have installation parts 13b, 15a to which resistance elements are able to install. Electrical circuits of different types are formed through combinations of whether the resistance elements are installed to the respective installation parts and whether the conductive connection part 16 is cut off.

A switch includes a housing and a metal terminal that is insert-molded into the housing. The metal terminal includes a contact portion provided on a first side of the metal terminal, an external connection portion provided on a second side of the metal terminal, and an embedded portion provided between the contact portion and the external connection portion and embedded in the housing. In the embedded portion, groove portions are formed in a front surface of the metal terminal and a rear surface of the metal terminal, the groove portions in the front surface being formed at positions different from the groove portions in the rear surface. The groove portions extend in a widthwise direction that is a direction intersecting an extending direction of the embedded portion.