Abstract:
A portable electronic device includes a body, a casing, and a resilient element. The casing accommodates the body such that the body can slide within the casing. The casing has an opening through which an electrical connection unit connected to the body protracts out of, or retracts into, the casing. The resilient element has an end connected to the casing and another end abutting against the body. The resilient element exerts a resilient restoring force upon the body in response to the sliding of the body. The casing has a stop structure configured to operate in conjunction with an engagement structure of the body and thereby limit the range of the sliding of the body. The engagement structure can be disengaged from the stop structure to separate the body from the casing. Accordingly, the portable electronic device has multiple uses, namely quick maintenance, easy assembly, body protection, and automatic accommodation.
Abstract:
A portable electronic device includes a body, a casing, and a resilient element. The casing accommodates the body such that the body can slide within the casing. The casing has an opening through which an electrical connection unit connected to the body protracts out of, or retracts into, the casing. The resilient element has an end connected to the casing and another end abutting against the body. The resilient element exerts a resilient restoring force upon the body in response to the sliding of the body. The casing has a stop structure configured to operate in conjunction with an engagement structure of the body and thereby limit the range of the sliding of the body. The engagement structure can be disengaged from the stop structure to separate the body from the casing. Accordingly, the portable electronic device has multiple uses, namely quick maintenance, easy assembly, body protection, and automatic accommodation.
Abstract:
An image sensing device is disclosed. The image sensing device comprises a plurality of image sensor units disposed separately and a plurality of wave guiding units. Each wave guiding unit is disposed on each corresponding image sensor unit.
Abstract:
A portable electronic device includes a first housing, an elastic structure connected to the first housing, a conductive material layer disposed on a side of the elastic structure, and a second housing. The first housing is connected to the second housing in a detachable manner. The portable electronic device includes a circuit board disposed on a side of the second housing. A metal pad is disposed on the circuit board and located in a position corresponding to the conductive material layer. The conductive material layer contacts with the metal pad when the first housing is connected to the second housing. The conductive material layer separates from the metal pad when the first housing separates from the second housing. The portable electronic device includes a detecting module installed inside the second housing and electrically connected to the circuit board for detecting whether the conductive material layer contacts with the metal pad.
Abstract:
A latch structure prevents separation of first and second bodies of an electronic device which might otherwise occur as a result of a fall, requires little force to operate, and serves to switch a coupling status of the first and second bodies of the electronic device. The first body has a receiving unit and a coupling unit. The second body has an L-shaped groove. A base of the latch structure has a casing slidable in the receiving unit and a resilient element for providing a resilient restoring force. The casing has a protruding member for coupling with the L-shaped groove. A resilient coupling unit of the latch structure is disposed on the base and configured to engage the coupling unit.
Abstract:
A soft ring addresses issues, such as casing deformation, waterproof capacity, and dust control. The soft ring is configured for use with a casing of an electronic device, and the casing has a first housing and a second housing coupled together. A ring-shaped receiving groove is disposed on the first housing for receiving the soft ring and a ring-shaped flange is disposed on the second housing for pressing the soft ring along the coupling portion of the first housing and the second housing. The soft ring is characterized in that a channel is disposed along the soft ring. The soft ring advantageously features a high compressed capacity and a low reaction force to thereby prevent the casing from deformation and improve the waterproof capacity and dust control of the casing.
Abstract:
A touch screen palm-type data processing device includes a microprocessor; a memory electrically connected to the microprocessor for storing operation programs and function programs, the operation programs, when executed by the microprocessor, displaying a preset keyboard configuration for a user to input data thereon, and the function programs, when executed by the microprocessor, providing a processing functions; a function display unit electrically connected to the microprocessor for displaying a processing function picture after the microprocessor executes the function programs; and a key switch touch control display unit electrically connected to the microprocessor for displaying a preset keyboard configuration after the microprocessor executes the operation programs, thereby eliminating the need to design varied molds for fitting various keyboard configurations and physical keyboards for displaying varied symbols due to different languages and thus reducing the costs for manufacturing and maintaining inventory stock.