An input apparatus includes a first operation section configured to receive a push operation, a second operation section configured to receive a push operation, a first pivot member configured to pivot, a second pivot member configured to pivot, a first switch, a second switch, and a power generation device. The power generation device is configured to generate electric power when the first pivot member pivots. When the first operation section is pushed, the first switch is turned ON and the first pivot member directly receives force from the first operation section to pivot. When the second operation section is pushed, the second switch is turned ON and the first pivot member indirectly receives force from the second operation section via the second pivot member to pivot.

The present disclosure discloses a combination electronic switch with a transformable combination, which comprises a control operation module, a power and execution module, and a panel mounting module. The control operation module comprises a drive control assembly and an operation component, the power and execution module comprises a drive execution assembly, and the drive control assembly of the control operation module is electrically connected to the drive execution assembly of the power and execution module through preset assemblies. The control operation module is fixedly clamped to the power and execution module, and the panel mounting module is fixed on the power and execution module through the control operation module or directly fixed on the power and execution module.

A switch actuating device (1) for a vehicle door includes an actuating element (10) with an actuating surface (11), a mechanical switch (20) and a mechanism (30). The switch is secured on a first component/component group (31). A lever (32) is mounted for pivot in relation to the first component/component group (31). A first region (32.2) of the lever is connected to a first part of the actuating element (10) via a first articulation (10.1). A second part of the actuating element (10) is mounted on the first component/component group (31) via a second articulation (10.2). The actuating element (10) bends when the actuating surface (11) is subjected to manual pressure causing the distance between the first articulation (10.1) and the second articulation (10.2) to shorten, which causes the lever (32) to pivot toward the switch such that the switch is switched.

A keyboard device includes a membrane circuit board and a key structure over the membrane circuit board. The key structure includes a keycap, a plunger structure, a key pedestal and an elastic element. The plunger structure is arranged between the keycap and the elastic element. At least a portion of the keycap is disposed within a pedestal dust-storage chamber of the key pedestal. At least a portion of the plunger structure is disposed within a guiding chamber of the key pedestal. Due to the relative location between the keycap, the plunger structure and the key pedestal, the path of the dust to enter the guiding chamber is extended or blocked. Consequently, the dust-proof efficacy is enhanced.

A keyboard device includes a membrane circuit board and a key structure over the membrane circuit board. The key structure includes a keycap, a plunger structure, a key pedestal and an elastic element. The plunger structure is arranged between the keycap and the elastic element. At least a portion of the keycap is disposed within a pedestal dust-storage chamber of the key pedestal. At least a portion of the plunger structure is disposed within a guiding chamber of the key pedestal. Due to the relative location between the keycap, the plunger structure and the key pedestal, the path of the dust to enter the guiding chamber is extended or blocked. Consequently, the dust-proof efficacy is enhanced.

A switch includes a housing, a movable member reciprocable in the movement direction relative to the housing and including an operation part located at an end of the movable member outside the housing, a guide that guides the movable member in the movement direction, and a sealant sealing a gap between the movable member and the housing inside the compartment.

The disclosure provides a key structure including a base plate, a keycap, and a compressible supporting mechanism. The keycap is disposed above the base plate. The keycap has a top surface and a bottom surface opposite to each other and includes a bonding member protruding from the base surface. The bonding member has a groove and a guiding surface. The compressible supporting mechanism is disposed between the base plate and the keycap. The compressible supporting mechanism is assembled into the groove as being guided by the guiding surface. In the key structure provided by the disclosure, since the compressible supporting mechanism is guided by the guiding surface, interference generated when the compressible supporting mechanism and the keycap are assembled may be reduced, so that the bonding member is prevented from being damaged or collapsing when being pressed in a process of assembling.

A switch module includes a pressing button and a circuit board. The pressing button includes a fastening element. The fastening element extends outward to form a cantilever arm. The cantilever arm protrudes downward to form an operation rod. The operation rod is exposed out of a lower shell which has a first position and a second position. The operation rod slides from the first position to the second position. The other end of the bottom surface of the cantilever arm extends outward to form an extending arm. At least one portion of one end of a top surface of the cantilever arm protrudes upward to form at least one extending foot. The circuit board is disposed above the pressing button. The circuit board is equipped with a first switch and a second switch. The at least one extending foot is corresponding to the first switch.

A switch module includes a pressing button and a circuit board. The pressing button includes a fastening element. The fastening element extends outward to form a cantilever arm. The cantilever arm protrudes downward to form an operation rod. The operation rod is exposed out of a lower shell which has a first position and a second position. The operation rod slides from the first position to the second position. The other end of the bottom surface of the cantilever arm extends outward to form an extending arm. At least one portion of one end of a top surface of the cantilever arm protrudes upward to form at least one extending foot. The circuit board is disposed above the pressing button. The circuit board is equipped with a first switch and a second switch. The at least one extending foot is corresponding to the first switch.

A gear structure and a dimmer and speed control switch, wherein the gear structure includes a plurality of positioning grooves and a gear switching component, and the plurality of positioning grooves are sequentially spaced apart on the housing; the gear switching component is movably Installed on the housing, it includes a positioning component and a biasing component connected with the positioning component. The positioning component has a first position that is positioned and matched with the positioning groove and a second position separated from the positioning groove. The biasing component applies a biasing force on position component that moves it toward the first position, the gear structure mentioned above can ensure accurate gear positioning during the operation of the dimmer and speed control switch, and is not prone to misoperate, which is convenient for users, and coordinated positioning grooves and positioning parts have the advantage of simplified structure.