The universal remote control finder includes a receiving station that is connected to an internal power supply source of the remote control so that the receiving station remains coupled to the power supply source. The receiving station is intercalated between the remote control and the base station
The universal remote control finder includes a receiving station that is connected to an internal power supply source of the remote control so that the receiving station remains coupled to the power supply source. The receiving station is intercalated between the remote control and the base station when the remote control is docked at the base station. A base station is coupled to an external 120-volt power supply source and includes a user interface with a toggle switch. The receiving station is electrically mated with the base station. The remote control remains spaced above the base station during charging conditions. After the receiving station is detached from the base station and the toggle switch is activated, the base station generates and transmits an RF location signal. The receiving station detects the signal and emits an identification signal to identify a location of the remote control.
대표청구항▼
What is claimed as new and what is desired to secure by Letters Patent of the United States is: 1. A wireless object locating system for assisting a user to find a battery-operated remote control, said wireless object locating system comprising: a portable receiving station removably connected dire
What is claimed as new and what is desired to secure by Letters Patent of the United States is: 1. A wireless object locating system for assisting a user to find a battery-operated remote control, said wireless object locating system comprising: a portable receiving station removably connected directly to an existing internal power supply source of the remote control in such a manner that said receiving station remains statically coupled to the internal power supply source during operating conditions; and a base station electrically coupled to an external 120-volt power supply source, said base station comprising a user interface provided with a toggle switch electrically coupled thereto; wherein said receiving station is intercalated between the remote control and said base station when the remote control is docked at said base station; wherein said receiving station is removably and electrically mated with said base station such that the internal power supply source of the remote control is charged during non-operating conditions, the remote control remaining spaced above said base station during charging conditions; where after said receiving station is detached from said base station and said toggle switch is switched to an active position respectively, said base station generating and wirelessly transmitting a RF location signal, said receiving station detecting said RF location signal and in response emitting an identification signal to notify the user of a location of the remote control. 2. The device of claim 1, wherein said receiving station comprises: a rechargeable power supply source electrically coupled to the existing internal power supply source of the remote control; a DC power jack electrically coupled to said rechargeable power supply source; a voltage regulator electrically coupled to said rechargeable power supply source; a paging circuit for generating and transmitting said identification signal; and a plurality of transducers including a vibrator and a LED electrically coupled to said paging circuit respectively; wherein said paging circuit activates said transducers for a predetermined period of time when said base station detects said identification signal. 3. The device of claim 1, wherein said base station further comprises: a universal charging circuit electrically coupled to an external A/C power supply source; a male charging jack removably connected and electrically coupled to said DC power jack for charging said rechargeable power supply source; a voltage regulator; a transmitter electrically coupled to said voltage regulator of said base station, said transmitter being in direct communication with said toggle switch such that said detection signal is automatically transmitted when said toggle switch is adapted to the active position and said receiving station is electrically detached from said base station respectively. 4. The device of claim 2, wherein said receiving station further comprises: a spring-actuator and a plurality of conductive wires connected thereto, said spring-actuator being directly and electrically mated with said rechargeable power supply source of said receiving station and the existing internal power supply source of said base station respectively so that said rechargeable power supply source is automatically recharged when said receiving station is docked at said base station. 5. The device of claim 4, wherein said receiving station further comprises: a primary support surface having a planar top face extending along a major longitudinal length thereof; a rear L-shaped bracket directly mated to said top face, said rear bracket having a vertically registered bore formed therein; a front bracket directly mated to said top face, said front bracket being obliquely offset from a horizontal plane and sloping upwardly away from said rear bracket, said front bracket having a vertically registered bore formed therein; a top shield extending along a major longitudinal length of said top face, said top shield having first and second linear anchor arms directly and removably positional into said bores of said rear and front brackets for securing said top shield to said brackets respectively; and a fastener threadably penetrated through said spring-actuator such that said spring-actuator remains dynamically affixed to said rear bracket and compresses along a linear path oriented perpendicular to said first and second anchor arms respectively. 6. A wireless object locating system for assisting a user to find a battery-operated remote control, said wireless object locating system comprising: a portable receiving station removably connected directly to an existing internal power supply source of the remote control in such a manner that said receiving station remains statically coupled to the internal power supply source during operating conditions; and a base station electrically coupled to an external 120-volt power supply source, said base station comprising a user interface provided with a toggle switch electrically coupled thereto; wherein said receiving station is intercalated between the remote control and said base station when the remote control is docked at said base station; wherein said receiving station is removably and electrically mated with said base station such that the internal power supply source of the remote control is charged during non-operating conditions, the remote control remaining spaced above said base station during charging conditions; where after said receiving station is detached from said base station and said toggle switch is switched to an active position respectively, said base station generating and wirelessly transmitting a RF location signal, said receiving station detecting said RF location signal and in response emitting an identification signal to notify the user of a location of the remote control. 7. The device of claim 6, wherein said receiving station comprises: a rechargeable power supply source electrically coupled to the existing internal power supply source of the remote control; a DC power jack electrically coupled to said rechargeable power supply source; a voltage regulator electrically coupled to said rechargeable power supply source; a paging circuit for generating and transmitting said identification signal; and a plurality of transducers including a vibrator and a LED electrically coupled to said paging circuit respectively; wherein said paging circuit activates said transducers for a predetermined period of time when said base station detects said identification signal. 8. The device of claim 6, wherein said base station further comprises: a universal charging circuit electrically coupled to an external A/C power supply source; a male charging jack removably connected and electrically coupled to said DC power jack for charging said rechargeable power supply source; a voltage regulator; a transmitter electrically coupled to said voltage regulator of said base station, said transmitter being in direct communication with said toggle switch such that said detection signal is automatically transmitted when said toggle switch is adapted to the active position and said receiving station is electrically detached from said base station respectively. 9. The device of claim 7, wherein said receiving station further comprises: a spring-actuator and a plurality of conductive wires connected thereto, said spring-actuator being directly and electrically mated with said rechargeable power supply source of said receiving station and the existing internal power supply source of said base station respectively so that said rechargeable power supply source is automatically recharged when said receiving station is docked at said base station. 10. The device of claim 9, wherein said receiving station further comprises: a primary support surface having a planar top face extending along a major longitudinal length thereof; a rear L-shaped bracket directly mated to said top face, said rear bracket having a vertically registered bore formed therein; a front bracket directly mated to said top face, said front bracket being obliquely offset from a horizontal plane and sloping upwardly away from said rear bracket, said front bracket having a vertically registered bore formed therein; a top shield extending along a major longitudinal length of said top face, said top shield having first and second linear anchor arms directly and removably positional into said bores of said rear and front brackets for securing said top shield to said brackets respectively; and a fastener threadably penetrated through said spring-actuator such that said spring-actuator remains dynamically affixed to said rear bracket and compresses along a linear path oriented perpendicular to said first and second anchor arms respectively. 11. A wireless object locating system for assisting a user to find a battery-operated remote control, said wireless object locating system comprising: a portable receiving station removably connected directly to an existing internal power supply source of the remote control in such a manner that said receiving station remains statically coupled to the internal power supply source during operating conditions; and a base station electrically coupled to an external 120-volt power supply source, said base station comprising a user interface provided with a toggle switch electrically coupled thereto, wherein said toggle switch is removably attached to said base station; wherein said receiving station is intercalated between the remote control and said base station when the remote control is docked at said base station; wherein said receiving station is removably and electrically mated with said base station such that the internal power supply source of the remote control is charged during non-operating conditions, the remote control remaining spaced above said base station during charging conditions; where after said receiving station is detached from said base station and said toggle switch is switched to an active position respectively, said base station generating and wirelessly transmitting a RF location signal, said receiving station detecting said RF location signal and in response emitting an identification signal to notify the user of a location of the remote control. 12. The device of claim 11, wherein said receiving station comprises: a rechargeable power supply source electrically coupled to the existing internal power supply source of the remote control; a DC power jack electrically coupled to said rechargeable power supply source; a voltage regulator electrically coupled to said rechargeable power supply source; a paging circuit for generating and transmitting said identification signal; and a plurality of transducers including a vibrator and a LED electrically coupled to said paging circuit respectively; wherein said paging circuit activates said transducers for a predetermined period of time when said base station detects said identification signal. 13. The device of claim 11, wherein said base station further comprises: a universal charging circuit electrically coupled to an external A/C power supply source; a male charging jack removably connected and electrically coupled to said DC power jack for charging said rechargeable power supply source; a voltage regulator; a transmitter electrically coupled to said voltage regulator of said base station, said transmitter being in direct communication with said toggle switch such that said detection signal is automatically transmitted when said toggle switch is adapted to the active position and said receiving station is electrically detached from said base station respectively. 14. The device of claim 12, wherein said receiving station further comprises: a spring-actuator and a plurality of conductive wires connected thereto, said spring-actuator being directly and electrically mated with said rechargeable power supply source of said receiving station and the existing internal power supply source of said base station respectively so that said rechargeable power supply source is automatically recharged when said receiving station is docked at said base station. 15. The device of claim 14, wherein said receiving station further comprises: a primary support surface having a planar top face extending along a major longitudinal length thereof; a rear L-shaped bracket directly mated to said top face, said rear bracket having a vertically registered bore formed therein; a front bracket directly mated to said top face, said front bracket being obliquely offset from a horizontal plane and sloping upwardly away from said rear bracket, said front bracket having a vertically registered bore formed therein; a top shield extending along a major longitudinal length of said top face, said top shield having first and second linear anchor arms directly and removably positional into said bores of said rear and front brackets for securing said top shield to said brackets respectively; and a fastener threadably penetrated through said spring-actuator such that said spring-actuator remains dynamically affixed to said rear bracket and compresses along a linear path oriented perpendicular to said first and second anchor arms respectively.
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이 특허에 인용된 특허 (1)
Simone A Fingal ; Merlene U Percival, Remote control monitoring device.
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