Abstract: RFID tags pre-installed on bale wrap segments provide location information for a specific area of the bale wrap. RFID tag readers located on the cotton harvester provide signals for use by the module wrapping apparatus for initiating a cutting or separating operation, once a module has been wrapped, and for warning an operator of a situation where the wrapping function has not proceeded in an orderly fashion after a signal for starting the wrapping function has been received. A wrapped module carries the pre-installed RFID tags which are readable by RFID readers carried by module handlers in the field and/or at the gin input which identify the modules and establish a position to which the module may be automatically oriented so that an ideal module wrap cutting location is easily calculated. The RFID tag reading taken in the field or at the gin thus senses the number on the tag as well as the location of the tag, and the module identification is input to an electronic database.

Abstract: RFID tags pre-installed on bale wrap segments provide location information for a specific area of the bale wrap. RFID tag readers located on the cotton harvester provide signals for use by the module wrapping apparatus for initiating a cutting or separating operation, once a module has been wrapped, and for warning an operator of a situation where the wrapping function has not proceeded in an orderly fashion after a signal for starting the wrapping function has been received. A wrapped module carries the pre-installed RFID tags which are readable by RFID readers carried by module handlers in the field and/or at the gin input which identify the modules and establish a position to which the module may be automatically oriented so that an ideal module wrap cutting location is easily calculated. The RFID tag reading taken in the field or at the gin thus senses the number on the tag as well as the location of the tag, and the module identification is input to an electronic database.

Abstract: RFID tags pre-installed on bale wrap segments provide location information for a specific area of the bale wrap. RFID tag readers located on the cotton harvester provide signals for use by the module wrapping apparatus for initiating a cutting or separating operation, once a module has been wrapped, and for warning an operator of a situation where the wrapping function has not proceeded in an orderly fashion after a signal for starting the wrapping function has been received. A wrapped module carries the pre-installed RFID tags which are readable by RFID readers carried by module handlers in the field and/or at the gin input which identify the modules and establish a position to which the module may be automatically oriented so that an ideal module wrap cutting location is easily calculated. The RFID tag reading taken in the field or at the gin thus senses the number on the tag as well as the location of the tag, and the module identification is input to an electronic database.

Abstract: RFID tags pre-installed on bale wrap segments provide location information for a specific area of the bale wrap. RFID tag readers located on the cotton harvester provide signals for use by the module wrapping apparatus for initiating a cutting or separating operation, once a module has been wrapped, and for warning an operator of a situation where the wrapping function has not proceeded in an orderly fashion after a signal for starting the wrapping function has been received. A wrapped module carries the pre-installed RFID tags which are readable by RFID readers carried by module handlers in the field and/or at the gin input which identify the modules and establish a position to which the module may be automatically oriented so that an ideal module wrap cutting location is easily calculated. The RFID tag reading taken in the field or at the gin thus senses the number on the tag as well as the location of the tag, and the module identification is input to an electronic database.

Abstract: An electronic controller with a sensed ground speed input calculates appropriate cotton harvester row unit speed based on harvester ground speed and a preset ground speed versus a unit speed curve. The controller includes an automatic or manual ratio adjustment input. The ratio adjustment input allows the unit speed to be increased or decreased from the preset speed. The controller reads row unit speed via unit speed sensors and sends a signal to the unit speed actuator or electronic drive control (EDC) on a hydro, variable sheave, or other variable drive device to adjust unit speed to the calculated value. A detector or field vision device such as a camera responsive to cotton on the plants provides a signal to the automatic ratio adjustment input to change the ratio for increased productivity and reduced machine wear.

Abstract: An electronic controller with a sensed ground speed input calculates appropriate cotton harvester row unit speed based on harvester ground speed and a preset ground speed versus a unit speed curve. The controller includes an automatic or manual ratio adjustment input. The ratio adjustment input allows the unit speed to be increased or decreased from the preset speed. The controller reads row unit speed via unit speed sensors and sends a signal to the unit speed actuator or electronic drive control (EDC) on a hydro, variable sheave, or other variable drive device to adjust unit speed to the calculated value. A detector or field vision device such as a camera responsive to cotton on the plants provides a signal to the automatic ratio adjustment input to change the ratio for increased productivity and reduced machine wear.

Abstract: Wrapped cotton bales transported from a cotton harvest area to a receiver at the gin are moved intact to a position generally above a receiver upstream of the ginning equipment. As the bales are supported and conveyed, knife or similar cutting structure severs a portion of the wrap allowing egress of the cotton from the wrap into the receiver. Wrap removal structure prevents the wrap from entering the ginning equipment. In one embodiment of the invention, the wrap is conveyed to a wrap processor after the cotton falls into the receiver. The bale handler can include transversely adjustable cantilever supports to tension wrap for efficient cutting.