1. Field of the Invention
The present invention relates to a portable electronic device, and more specifically, to a portable electronic device capable of switching different statuses by centrifugal force.
2. Description of the Prior Art
In the modern market, a portable electronic device, such as a mobile phone, a tablet computer, and soon, is widely used in people's lives. A design trend of the portable electronic device is to be small and light and to dispose no hole on a casing of the portable electronic device. Some kinds of the portable electronic devices adopt built-in batteries, and there is no hole on the appearance of the casing, so that it can implement a small and light portable electronic device with the simple appearance. However, because the built-in battery of the portable electronic device is not detachable, as an operation system of the portable electronic device crashes and cannot be in operation, an user cannot remove the built-in battery from the portable electronic device to cut off electricity forcibly or cannot press a reset button inside a hole to solve a problem of a crashed operation system. Then the user has to wait for the portable electronic device to run out of electricity stored in the built-in battery to turn off the operation system, resulting in inconvenience of using the portable electronic device. Therefore, it is an important issue to design a system statuses switching mechanism applied to the portable electronic device with the built-in battery and without disposing the reset button.
The present invention is to provide a portable electronic device capable of switching different statuses by centrifugal force to solve above problems.
According to the disclosure, a portable electronic device includes a casing, four actuating mechanisms and a control module. The four actuating mechanisms are disposed inside the casing. Each actuating mechanism includes a slot structure and an actuating component. The actuating component is disposed on an end of the corresponding slot structure. The control module is electrically connected to the four actuating mechanisms. The control module is for switching from a first status to a second status of the portable electronic device as the portable electronic device rotates in a rotating direction so as to drive each actuating component from the end of the slot structure to the other end of the slot structure due to centrifugal force.
According to the disclosure, the four actuating mechanisms are electrically connected to the control module in an open-loop configuration as each actuating component is disposed on the end of each slot structure, so that the control module controls the portable electronic device to maintain in the first status.
According to the disclosure, the four actuating mechanisms are electrically connected to the control module in a closed-loop configuration as each actuating component moves from the end of each slot structure to the other end of each slot structure due to centrifugal force, so that the control module switches from the first status to the second status of the portable electronic device.
According to the disclosure, the second status is a system reset status.
According to the disclosure, the control module controls the portable electronic device to maintain in the first status as not all of the four actuating components are disposed on the end of the four slot structures.
According to the disclosure, each actuating mechanism further comprises a slip-resistant component disposed inside each slot structure, and the slip-resistant component is for resisting movement of the corresponding actuating component as the corresponding actuating component is disposed on the end of the corresponding slot structure.
According to the disclosure, the slip-resistant component is a sheathing component for sheathing the corresponding actuating component.
According to the disclosure, the four actuating mechanisms are respectively disposed on corners of the casing symmetrically.
According to the disclosure, the four actuating mechanisms are respectively disposed on four corners of the casing symmetrically.
According to the disclosure, the portable electronic device further includes a battery module electrically connected to the control module, and the control module is further for controlling the battery module to cut off electricity as each actuating component moves from the end of each slot structure to the other end of each slot structure due to centrifugal force, so that the portable electronic device switches from a power-on status to a power-off status.
According to the disclosure, the portable electronic device is a tablet computer or a smart phone.
An embodiment of the invention designs a mechanism with the four actuating mechanisms symmetrically disposed on the casing, so that the control module switches different statuses of the portable electronic device as each actuating component moves from the end of each slot structure to the other end of each slot structure. As a result, it can solve the problem that the user cannot take out the battery or press the reset button to turn off the operation system as the operation system of the portable electronic device, with the built-in battery and without disposing the reset button on the appearance, crashes. That is, the mechanical design of the present invention can be used for solving the problem of a crashed operation system effectively as the operation system cannot be in operation and cannot restart by cutting off electricity or turning off the operation system forcibly.
These and other objectives of the present invention will no doubt become obvious to those of ordinary skill in the art after reading the following detailed description of the preferred embodiment that is illustrated in the various figures and drawings.
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As each actuating component 543 is disposed on the end of the corresponding slot structure 541, the control module 56 detects that the four actuating mechanisms 54 are electrically connected to the control module 56 in the open-loop configuration, and then the control module 56 controls the operation system of the portable electronic device 50 to maintain in the first status of a normal operation. As each actuating component 543 moves to the other end of the corresponding slot structure 541, the control module 56 detects that the four actuating mechanisms 54 are electrically connected to the control module 56 in the closed-loop configuration, so that the control module 56 switches from the first status to the second status of the portable electronic device 50 at this time. In this embodiment, the second status can be set as a system reset status. That is, as the control module 56 detects that the four actuating mechanisms 54 are electrically connected to the control module 56 in the closed-loop configuration, the control module 56 sends a reset signal to the operation system of the portable electronic device 50, so as to restart the operation system to solve the crash problem of the operation system.
Furthermore, it also can design that the four actuating mechanisms 54 are electrically connected to the control module 56 in the closed-loop configuration as each actuating component 543 is disposed on the end of the corresponding slot structure 541, and the four actuating mechanisms 54 are electrically connected to the control module 56 in the open-loop configuration as each actuating component 543 is disposed on the other end of the corresponding slot structure 541. As the control module 56 detects that the four actuating mechanisms 54 are electrically connected to the control module 56 in the closed-loop configuration, the control module 56 controls the operation system of the portable electronic device 50 to maintain in the first status of a normal operation. As each actuating component 543 moves to the other end of the corresponding slot structure 541, the control module 56 detects that the four actuating mechanisms 54 are electrically connected to the control module 56 in the open-loop configuration, so that the control module 56 switches from the first status to the second status of the portable electronic device 50. That is, as the control module 56 detects that the four actuating mechanisms 54 are electrically connected to the control module 56 in the open-loop configuration, the control module 56 sends the reset signal to the operation system of the portable electronic device 50, so as to restart the operation system to solve the crash problem of the operation system. As for determining which one of the two configurations to implement, it depends on practical design demands. Any switch mechanism by disposing the actuating component 543 on different positions of the slot structure 541 to achieve a switch function is within the scope of the present invention.
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It is noticed that a conductive component, not shown in figures, can be disposed on the other end of the slot structure 541 to implement the open-loop configuration and the closed-loop configuration of each actuating mechanism 54 in this embodiment. As each actuating component 543 is disposed on the end of the corresponding slot structure 541, the actuating component 543 does not contact the conductive component, so that the actuating component 543 is electrically connected to the control module 56 in the open-loop configuration. That is, each actuating mechanism 54 can be regarded as an open switch component in an electric circuit of the control module 56. As the actuating component 543 moves to the other end of the slot structure 541 to contact the conductive component, because the actuating component 543 in this embodiment is the metal rod, the actuating component 543 can complete the electric circuit of the control module 56 and the actuating mechanism 54, so that the actuating mechanism 54 is electrically connected to the control module 56 in the closed-loop configuration. In summary, it can implement the electric connection between the actuating mechanism 54 and the control module 56 in the open-loop configuration or in the open-loop configuration.
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In contrast to the prior art, the present invention designs a mechanism with the four actuating mechanisms symmetrically disposed on the casing, so that the control module switches different statuses of the portable electronic device as each actuating component moves from the end of each slot structure to the other end of each slot structure. As a result, it can solve the problem that the user cannot take out the battery or press the reset button to turn off the operation system as the operation system of the portable electronic device, with the built-in battery and without disposing the reset button on the appearance, crashes. That is, the mechanical design of the present invention can be used for solving the problem of a crashed operation system effectively as the operation system cannot be in operation and cannot restart by cutting off electricity or turning off the operation system forcibly.
Those skilled in the art will readily observe that numerous modifications and alterations of the device and method may be made while retaining the teachings of the invention. Accordingly, the above disclosure should be construed as limited only by the metes and bounds of the appended claims.
Number | Date | Country | Kind |
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101138067 | Oct 2012 | TW | national |