An electronic pointing device includes a housing. In addition, the electronic device includes a position transducer coupled to the housing. Further, the electronic pointing device includes a plurality of electrical switches coupled to the housing. Still further, the electronic pointing device includes a cover plate removably coupled to the housing. The cover plate includes a plurality of holes, each hole aligned with one of the plurality of electrical switches. The electronic pointing device also includes a plurality of button members. Each button member is removably disposed in one of the holes of the cover plate and disposed to engage the corresponding, aligned electrical switch to actuate that electrical switch.

An adjustable mouse includes a base portion including a flat bottom configured to rest on a flat surface and a curved top, a palm rest portion including a body configured to be contoured to fit a user's hand and a curved bottom that is configured to mate with the curved top of the base portion, and a mechanism configured to secure the palm rest portion to the base portion at a desired angle of tilt. The adjustable mouse further includes a thumb adjustment assembly coupled to the base portion. The thumb adjustment assembly is configured to move a thumb rest portion between a retracted position and an extended position.

The computer mouse device with modified design and functionalities have several touch centres including but not limited to, four finger click buttons, two function buttons and a scroll wheel button, is described. The computer mouse device provides comfort for the hand in prolonged, normal or extensive usage, an enhanced accuracy for pixel accurate applications, and a more immersive and realistic interaction with 3D, virtual or augmented reality environments operating drones, medical instruments, machines, robots or drones, as well as 3D applications including but not limited to 3D CAD applications, video games, virtual or augmented reality.

The present invention provides a portable electronic device including a body, a first connector, a display screen, and an input module. The body has an accommodation space and a door panel capable of exposing or covering the accommodation space. The first connector is disposed in the accommodation space. The display screen is connected to the body and is capable of being closed or opened relative to the body. The input module is detachably accommodated in the accommodation space. The input module has a second connector. The second connector is configured to be electrically connected to the first connector. The input module operates in a first mode when being accommodated in the accommodation space. The input module operates in a second mode after being taken out from the accommodation space.

An ambidextrous mouse is disclosed. The ambidextrous mouse is configured for both left and right handed use. The mouse may include right handed buttons on the front side of the mouse and left handed buttons on the back side of the mouse. The user may change the handedness of the mouse by rotating the mouse about a vertical axis of the mouse such that the left hand can use the left hand buttons and the right hand can use the right hand buttons. The mouse may include a handedness selection system for configuring the mouse for right handed or left handed use even though the mouse has the capability for both right and left hands.

Computer mice for ambidextrous use are disclosed. An example mouse includes a based and a cover. The base may mount one or more electronic devices for sensing. The cover may be coupled to the base in a first orientation relative to the base in a first mode, may be detached from the base, and may be coupled to the base in a second orientation reverse to the first orientation in a second mode.

A cursor controlling device includes a bottom board, a pivoting structure disposed on the bottom board, a shell, and an angle-adjusting structure disposed under the shell. The shell is rotatably connected to the pivoting structure along a longitudinal axis of the pivoting structure. A side edge of the shell is formed with a stepped structure. The stepped structure has a plurality of abutting surfaces having respective distances with respect to the bottom board. The angle-adjusting structure has a supporting portion movable on the bottom board to support one of the abutting surfaces of the stepped structure. Therefore, the supporting portion is configured to selectively support one of the abutting surfaces to lift up the side edge of the shell away from the bottom board in an inclined state, or to lower the side edge of the shell to approach the bottom board in another inclined state.

Computer mice for ambidextrous use are disclosed. An example mouse includes a based and a cover. The base may mount one or more electronic devices for sensing. The cover may be coupled to the base in a first orientation relative to the base in a first mode, may be detached from the base, and may be coupled to the base in a second orientation reverse to the first orientation in a second mode.

The present invention provides a portable electronic device including a body, a first connector, a display screen, and an input module. The body has an accommodation space and a door panel capable of exposing or covering the accommodation space. The first connector is disposed in the accommodation space. The display screen is connected to the body and is capable of being closed or opened relative to the body. The input module is detachably accommodated in the accommodation space. The input module has a second connector. The second connector is configured to be electrically connected to the first connector. The input module operates in a first mode when being accommodated in the accommodation space. The input module operates in a second mode after being taken out from the accommodation space.

Examples are disclosed that relate to an input device foldable between a flat orientation in which both ends of a module comprising a sensor are within the input device and a curved orientation in which one end of the module protrudes. A head portion comprises a recess containing the module. A foldable tail portion is coupled to the head portion. A slidable frame comprises an anchor portion affixed to the foldable tail portion and a connecting portion configured to slide relative to the tail portion. A linkage is affixed to the slidable frame and configured to engage and move the module relative to the head portion upon sliding of the slidable frame.