| CPC G16H 20/17 (2018.01) [A61B 5/0004 (2013.01); A61B 5/0015 (2013.01); A61B 5/0031 (2013.01); A61B 5/073 (2013.01); A61B 5/14532 (2013.01); A61B 5/6801 (2013.01); A61B 5/72 (2013.01); A61M 5/1723 (2013.01); G16H 40/67 (2018.01); H01R 13/631 (2013.01); H01R 13/639 (2013.01); H01R 13/642 (2013.01); H01R 13/665 (2013.01); H01R 13/6675 (2013.01); H01R 33/945 (2013.01); H01R 43/26 (2013.01); H02J 7/0031 (2013.01); H02J 7/0045 (2013.01); A61B 5/14503 (2013.01); A61B 2560/0456 (2013.01); A61B 2562/166 (2013.01); A61B 2562/18 (2013.01); A61B 2562/227 (2013.01); A61M 2205/35 (2013.01); A61M 2205/8237 (2013.01); A61M 2205/8262 (2013.01); H01R 2201/12 (2013.01)] | 20 Claims |
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1. A charging device for a physiological signal transmitter used to receive and send out a physiological signal from the subcutaneous tissue of a living body and having a first electrical connecting port connected to the charging device, the charging device comprising:
a transmitter placing seat including:
a bearing surface for placing the physiological signal transmitter; and
an opening configured to align with the first electrical connection port of the physiological signal transmitter; and
a charging module including:
a second electrical connecting port disposed in the opening, and driven to move between a first position and a second position;
a third electrical connecting port connected to a power source; and
a circuit assembly electrically connected to the third electrical connecting port to input therefrom the power source, configured to provide and control a charging voltage, and configured to electrically connect to the second electrical connecting port for outputting the charging voltage; and
a control module configured to control an operation between the charging module and the physiological signal transmitter and to maintain the operation under a safety state, including:
an operating portion mechanically coupled to the second electrical connecting port, and configured to drive the second electrical connecting port to move between the first and the second positions so as to separate from or connect to the first electrical connecting port;
a first locking portion configured to detect whether the physiological signal transmitter is located at a predetermined position, and to detachably lock the operating portion for allowing or prohibiting the operating portion to move or from moving the second electrical connecting port; and
a second locking portion mechanically coupled to the operating portion, and controlling the operating portion for driving the second locking portion to protrude or retract along the bearing surface so as to determine whether the physiological signal transmitter is at a predetermined position, to prohibit or allow a placement of the physiological signal transmitter, wherein:
when the physiological signal transmitter is at the predetermined position, the first locking portion unlocks the operating portion, so that the operating portion drives the second electrical connecting port to move from the first position to the second position to be electrically connected to the first electrical connecting port, and drives the second locking portion to protrude out of the bearing surface to position the physiological signal transmitter for locking the physiological signal transmitter from being removed, so as to prevent the electrical connection between the first and the second electrical connecting ports from being destroyed due to a removal of the physiological transmitter to achieve the safety state; and when the operating part drives the second electrical connecting port to move from the second position to the first position to separate the first electrical connecting port from the second electrical connecting port, and the operating portion drives the second locking portion to retract from the bearing surface for unlocking the physiological signal transmitter, so as to allow the first connection port and the second connection port to be separated before the removal of the physiological signal transmitter to achieve the safety state.
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