In an electrical cord reel, a rotatable member can rotate about a winding axis to spool and unspool a linear material. An input power connector can couple to an electrical power source. An output power connector on the rotatable member can couple to an electrical cord at least partially wound about
In an electrical cord reel, a rotatable member can rotate about a winding axis to spool and unspool a linear material. An input power connector can couple to an electrical power source. An output power connector on the rotatable member can couple to an electrical cord at least partially wound about the rotatable member. A switch is adjustable to allow or prevent electrical current flow from the input power connector to the output power connector. In an aspect, the electrical cord reel includes an electric cord comprising a first power wire, a second power wire, and a signal wire. A method of controlling the electric cord spool system includes energizing the first power wire and the signal wire. The method further includes determining a continuity of the signal wire. The method further includes de-energizing the first power wire when determining discontinuity of the signal wire.
대표청구항▼
1. An electric cord control system comprising: an electric cord comprising a first power wire, a second power wire, and a signal wire;a first switch configured to selectively connect the first power wire with a power source in a closed state, and to disconnect the first power wire from the power sou
1. An electric cord control system comprising: an electric cord comprising a first power wire, a second power wire, and a signal wire;a first switch configured to selectively connect the first power wire with a power source in a closed state, and to disconnect the first power wire from the power source in an open state;a controller configured to control the first switch and to provide a current to the signal wire;a first resistor electrically coupling the signal wire and the second power wire, and configured to allow a first current to flow from the signal wire to the second power wire;a continuity detector electrically coupled to the signal wire and configured to provide a continuity detection signal to the controller when the first current is flowing through the signal wire,wherein the controller is further configured to open the first switch when it fails to receive the continuity detection signal from the continuity signal detector. 2. The electric cord control system of claim 1, further comprising: a second switch configured to selectively couple the signal wire and the second power wire, in parallel with the first resistor, and to allow a second current to flow between the signal wire and the second power wire; anda signaling detector electrically coupled to the signal wire and configured to provide a signaling detection signal to the controller when the second current is flowing through the signal wire. 3. The electric cord control system of claim 2, wherein the controller is further configured to toggle the first switch, between the open and closed state, when it receives the signaling detection signal from the signaling detector. 4. The electric cord control system of claim 2, wherein the controller is further configured to toggle the first switch, between the open and closed state, when it receives the signaling detection signal from the signaling detector. 5. The electric cord control system of claim 2, further comprising: a spool member onto which the electric cord can be spooled;a motor configured to rotate the spool member in at least one of a spooling direction and an unspooling direction, based on a signal from the controller;wherein the controller is further configured to: detect the state of the first switch,open the first switch when the switch is closed and the controller receives the signaling detection signal from the signaling detector; andcontrol the motor to rotate in the spooling direction when the first switch is open and the controller receives the signaling detection signal from the signaling detector. 6. The electric cord control system of claim 5, wherein the controller is further configured to: detect an unspooled length of the electrical cord;control the motor to rotate in the spooling direction at a first speed when the unspooled length is at least a threshold length and the controller receives the signaling detection signal from the signaling detector. 7. The electric cord control system of claim 6, wherein the controller is further configured to control the motor to rotate in the spooling direction at a second speed when the unspooled length is less than the threshold length and the controller receives the signaling detection signal from the signaling detector, the second speed being lower than the first speed. 8. The electric cord control system of claim 7, wherein the controller is further configured to set the unspooled length of the electrical cord, in a memory, as the threshold when the controller receives the signaling detection signal from the signaling detector in accordance with a signaling pattern. 9. The electric cord control system of claim 1, wherein the continuity detector comprises: a light emitting diode in series with the signal wire; anda photodetector electrically coupled to the controller and configured to provide the continuity detection signal to the controller when the photodetector detects light emitted from the light emitting diode. 10. The electric cord control system of claim 2, wherein the signaling detector comprises: a light emitting diode in series with the signal wire; anda photodetector electrically coupled to the controller and configured to provide the signaling detection signal to the controller when the photodetector detects light emitted from the light emitting diode. 11. The electric cord control system of claim 10, further comprising a current threshold circuit in parallel with the signaling detector, the current threshold circuit comprising: a second diode having a first and second end;a second resistor having a first and second end, the first end electrically coupled to a first end of the light emitting diode, the second end electrically coupled to the first end of the second diode; anda third resistor having a first and second end, the first end electrically coupled to a second end of the light emitting diode, the second end electrically coupled to the second end of the second diode. 12. The electric cord control system of claim 11, wherein the difference between a threshold voltage of the light emitting diode and a threshold voltage of the second diode is greater than the first current times the sum of the resistances of the second and third resistors. 13. The electric cord control system of claim 11, wherein the difference between a threshold voltage of the light emitting diode and a threshold voltage of the second diode is less than or equal to the second current times the sum of the resistances of the second and third resistors. 14. The electric cord control system of claim 5, wherein the controller is further configured to refrain from controlling the motor to rotate in the spooling direction when the first switch is closed. 15. The electric cord control system of claim 2, wherein the electric cord comprises a user interface at a distal end, the user interface configured to control the second switch. 16. The electric cord control system of claim 5, wherein the spool member and motor are enclosed in a housing, the housing comprising a user interface configured to control the second switch. 17. The electric cord control system of claim 16, wherein the user interface is actuatable to operate the motor to rotate the spool member in the spooling direction. 18. The electric cord control system of claim 16, wherein the electric cord comprises a user interface at a distal end, the user interface at the distal end of the electric cord configured to control the operation of the motor. 19. A method of controlling an electric cord spool system comprising an electric cord comprising a first power wire, a second power wire, and a signal wire, the method comprising: energizing the first power wire and the signal wire;determining a continuity of the signal wire; andde-energizing the first power wire when determining discontinuity of the signal wire. 20. The method of claim 19, further comprising: detecting a change in a current flowing through the signal wire; andcontrolling a spool motor based on the detected change. 21. The method of claim 19, further comprising: detecting a change in a current flowing through the signal wire; andcontrolling a spool motor based on the detected change. 22. The method of claim 19, further comprising: detecting a change in a current flowing through the signal wire; andsetting a docking length based on the detected change.
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이 특허에 인용된 특허 (49)
Harrington,Jeffrey M., Battery assembly with shielded terminals.
Pope ; Jr. Ralph E. (3680 Ryans Bluff Dr. Cumming GA 30130) Watkins ; Jr. Kenneth S. (Rte. 7 Box 2760 River Dr. Dahlonega GA 30533), Electrical safety device.
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