There is provided a keyboard device including a plurality of key tops that include magnets and are depressible, an opposing member which is provided to face the plurality of key tops and in which signal lines are wired, and a plurality of openings that is formed corresponding to positions of the magnets when the key tops are pressed in the opposing member. The signal lines are wired while avoiding the openings.

A switch control device includes at least one silicone dome (7) and at least one actuator (5) acting upon the at least one silicone dome (7), which is adapted to close and selectively open electric contacts of at least one switch (6). The actuator (5) is moved by a force exerted via a thrusting element (3). Between the thrusting element (3) and the at least one actuator (5) is at least one elastic element (4) adapted to be compressed by the thrusting element (3) as the at least one silicone dome (7) is compressed, and to extend as the at least one dome (7) collapses towards the switch (6).

A keyboard device is disclosed, which includes an upper housing, a conductive membrane, a key top including a bottom surface and an actuator disposed on the bottom surface, a lower housing and a soft elastic element located on the conductive membrane, wherein the actuator penetrates the upper housing, and the soft elastic element has an engaging part to engage with the key top such that the key top is prevented from being separated from the soft elastic element when the key top rebounds.

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.

Input device configurations are described. In implementations, an input device includes a sensor substrate having a capacitive sensor to detect proximity of an object that contacts the input device. The input device also includes a flexible contact layer spaced apart from the sensor substrate, where the flexible contact layer is implemented to flex and contact the sensor substrate responsive to pressure applied by the object to initiate an input to a computing device. The flexible contact layer can include a force concentrator pad that is designed to cause pressure to be channeled through the force concentrator pad to cause the flexible contact layer to contact the sensor substrate to initiate the input.

A push button device is adapted for accommodating a substitute pushing module, and the substitute pushing module has a substitute installing plate, and a substitute cap body. The push button device includes a pushing module, a bottom plate, a keycap, a scissor-switch module, and a sensor module. The pushing module includes an installing plate and a cap body. The bottom plate includes a bottom plate body, two limiting portions, and a plurality of lower pivoting joint portions. The limiting portions are adapted for detachably engaging the substitute installing plate of the substitute pushing module to secure the substitute pushing module on the bottom plate when the pushing module is removed.