received by the International Bureau on 24 July 2019 (24.07.2019)

1. (Currently amended) A cord support system tor a container, comprising:

a housing configured and arranged for coupling to the container,

a cylinder supported for rotation;

a guide moveably coupled to a guide shall;

a roller motor coupled to rotate the cylinder; and

a guide motor coupled to rotate the guide shall.

2. (Original) The cord support system of claim 1. further comprising a belt or chain coupled to a drive shaft of the roller motor and a shaft of the cylinder.

3. (Original) The cord support system of claim 1, wherein the guide comprises a block including at least one aperture.

4. (Original) The cord support system of claim 3, wherein the at least one aperture comprises a threaded aperture.

5. (Original) The cord support system of claim 3. wherein the guide is coupled to a support rod.

6. (Currently amended) The cord support system of claim 5. wherein the guide shaft is positioned through the at least one aperture, wherein upon a rotation of the guide shaft by the guide motor, the guide is configured and arranged to move along the guide shaft.

7. (Currently amended) The cord support system of claim 1 , wherein the guide shaft is positioned through the guide, wherein upon a rotation of the guide shaft by the guide motor, the guide is configured and arranged to move along the guide shaft.

8. (Currently amended) The cord support system of claim 7, wherein the guide comprises an aperture configured to support a power cord, wherein upon a rotation of the guide shaft by the guide motor, the guide is configured and arranged to move along the guide shaft moving a position of a portion of the power cord along a length of the cylinder.

9. (Currently amended) A system comprising; a rotatable cylinder;

a guide moveably coupled to a rotatable guide shaft;

a roller motor configured to rotate the rotatable cylinder, and

a guide motor configured to rotate the guide shaft;

at least one processor: and

a non-transitory computer-readable storage medium for tangibly storing thereon program logic for execution by the at least one processor, the program logic comprising:

logic executed by the at least one processor configured for controlling at least one of the roller motor and the guide motor.

10. (Currently amended) The system of claim 9, further comprising logic executed by the at least one processor for displaying a user interlace of a controller, the user interface configured to include a display of one or more controls for controlling rotation of at least one of the rotatable cylinder and the rotatable guide shaft.

1 1. (Original) The system of claim 10, wherein the user Interface comprises a remote wireless user device.

12. (Currently amended) The system of claim 9, further comprising logic executed by the at least one processor configured lor storing in the non-transitory computer readable medium a specific container number of a container coupled to the system.

13. (Currently amended) The system of claim 12, further comprising logic executed by the at least one processor configured to establish a direct link to a controller of the system for the specific container number.

14. (Cunently amended) The system of claim 10. wherein the one or more controls comprise at least one of“up" and“down" buttons configured and arranged to control rotation of at least one of the rotatable cylinder to wind-up or wind-down a power cord.

15. (Currently amended) The system of claim 10, further comprising logic executed by the at least one processor to display at least one of a launch display and login display configured and arranged to enable a user to log into the system, and a“touch ID" entry configured and arranged to provide security, and a login security protocol including at least one of a username and password, and two-lhctor authentication.

16. (Currently amended) A system comprising:

a rotatable cylinder;

a roller motor configured to rotate the rotatable cylinder; and

a moveable assembly configured to Iced a power cord to or from the rotatable cylinder: at least one processor, and

a non-tninsitory computer-readable storage medium for tangibly storing thereon program logic for execution by the at least one processor, the program logic comprising:

logic executed by the at least one processor configured for controlling at least one of the roller motor, rotation of the cylinder, and the feed of the power cord.

17. (Currently amended) The system of claim 16, further comprising lope executed by the at least one processor configured to enable a container number to be entered from a remote user interlace and establishing a direct link to a controller of the system coupled to a container associated with the container number.

18. (Currently amended) A cord system for a container comprising:

a rotatable cylinder.

a roller motor configured and arranged to reversibly rotate the cylinder: and

a moveable assembly configured and arranged to guide a power cord to or from the rotatable cylinder;

at least one processor; and

a non-trtmsitoiy computer-readable storage medium for tangibly storing thereon program logic for execution by the at least one processor, the program logic comprising:

logic executed by the at least one processor configured for controlling at least the roller motor and

logic executed by the at least one processor configured to enable a container number to be entered from a remote user Interface establishing a link to the cord system coupled to the container.