A push-button switch capable of adjusting output power includes a housing. The housing includes a contact assembly and a power adjustment assembly therein. The contact assembly includes an upper terminal, a lower terminal and a connecting elastic plate below the upper terminal. A support seat is provided in the housing. An upper end of the support seat is provided with a first bracket. The first bracket is inserted through the connecting elastic plate. The first bracket is provided with a first slot. One end of the connecting elastic plate is fixedly connected to the upper terminal. Another end of the connecting elastic plate is engaged with the first slot. A drive mechanism is provided above the connecting elastic plate for driving the connecting elastic plate downward. The push-button switch has an ergonomic design.

A push-button switch capable of adjusting output power includes a housing. The housing includes a contact assembly and a power adjustment assembly therein. The contact assembly includes an upper terminal, a lower terminal and a connecting elastic plate below the upper terminal. A support seat is provided in the housing. An upper end of the support seat is provided with a first bracket. The first bracket is inserted through the connecting elastic plate. The first bracket is provided with a first slot. One end of the connecting elastic plate is fixedly connected to the upper terminal. Another end of the connecting elastic plate is engaged with the first slot. A drive mechanism is provided above the connecting elastic plate for driving the connecting elastic plate downward. The push-button switch has an ergonomic design.

Provided is a microswitch capable of switching between a sound state and a silent state, comprising a base (1) and a cover (2), a guide core (4) being provided in an accommodating cavity formed by combining the cover (2) and the base (1), and further comprising a turn-on mechanism (5) and a sound state/silent state switching mechanism (6), the turn-on mechanism (5) comprising a first turn-on terminal (51) and a second turn-on terminal (52) separately provided on the base (1), and an elastic assembly (53) provided in the accommodating cavity, the elastic assembly (53) comprising an elastic piece (531) provided on the first turn-on terminal (51) and located at the bottom of the guide core (4), an arched elastic piece (532) upwards supporting the elastic piece (531), and a turn-on contact piece (533) located above the second turn-on terminal (52) and extending towards the side away from the sound state/silent state switching mechanism (6); the sound state/silent state switching mechanism (6) comprising a sound production knock block (61),a toggle-type switching assembly (62), an upper soft portion (63) connected to the toggle-type switching assembly (62) and a lower soft portion (64) connected to the toggle-type switching assembly (62) and located below the upper soft portion (63). The functions of the mechanisms do not interfere with each other, and the turn-on/off function and the function of switching between a sound state and a silent state are achieved with high accuracy.

Provided is a microswitch capable of switching between a sound state and a silent state, comprising a base (1) and a cover (2), a guide core (4) being provided in an accommodating cavity formed by combining the cover (2) and the base (1), and further comprising a turn-on mechanism (5) and a sound state/silent state switching mechanism (6), the turn-on mechanism (5) comprising a first turn-on terminal (51) and a second turn-on terminal (52) separately provided on the base (1), and an elastic assembly (53) provided in the accommodating cavity, the elastic assembly (53) comprising an elastic piece (531) provided on the first turn-on terminal (51) and located at the bottom of the guide core (4), an arched elastic piece (532) upwards supporting the elastic piece (531), and a turn-on contact piece (533) located above the second turn-on terminal (52) and extending towards the side away from the sound state/silent state switching mechanism (6); the sound state/silent state switching mechanism (6) comprising a sound production knock block (61),a toggle-type switching assembly (62), an upper soft portion (63) connected to the toggle-type switching assembly (62) and a lower soft portion (64) connected to the toggle-type switching assembly (62) and located below the upper soft portion (63). The functions of the mechanisms do not interfere with each other, and the turn-on/off function and the function of switching between a sound state and a silent state are achieved with high accuracy.

An input device includes a housing; an invertible spring provided inside the housing; a load sensor arranged alongside the invertible spring inside the housing; a stem extending across a top portion of the invertible spring and the load sensor, and configured to push both the top portion of the invertible spring and the load sensor in response to an operating load applied to the stem; and a first fixed contact provided inside the housing, wherein the stem is a conductive member, and in response to the operating load applied to the stem, the stem pushes both the top portion of the invertible spring and the load sensor, and also comes into contact with the first fixed contact so that the first fixed contact is energized via the stem.

An input device includes a housing; an invertible spring provided inside the housing; a load sensor arranged alongside the invertible spring inside the housing; a stem extending across a top portion of the invertible spring and the load sensor, and configured to push both the top portion of the invertible spring and the load sensor in response to an operating load applied to the stem; and a first fixed contact provided inside the housing, wherein the stem is a conductive member, and in response to the operating load applied to the stem, the stem pushes both the top portion of the invertible spring and the load sensor, and also comes into contact with the first fixed contact so that the first fixed contact is energized via the stem.