A baling press having a rope tying system with a loop supply member for forming a loop of the second rope material across the bale pressing channel to the first side of the bale pressing channel and a loop of the first rope material at the first side. The loop supply member is suspended on the second side of said bale pressing channel and movable along a straight path between an extended position projecting across the bale pressing channel and a retracted position.

The loop supply member has a turn guide for forming and guiding the loops in the first and second rope materials and a spreader for, when the loop supply member is in the extended position, holding the rope materials guided so that portions in the knotting area are spaced from a free end portion of the loop supply member.

A twine knotter for a bale press for forming two sequential knots for holding together a tying agent surrounding a crop bale includes a knotter frame and a knotter hook supported rotatably in the knotter frame and provided for knotting together ends of the tying agent. A holding arrangement has a twine holding disk rotatably supported at the knotter frame and conveying temporarily two tying agent strands of the tying agent. A knotter disk that is rotatingly driven is provided with a first drive element driving the knotter hook and a second drive element driving the twine holding disk. A stripper lever is provided to strip off knots from the knotter hook. A knife blade is provided to cut through tying agent strands. The twine holding disk upon rotation is guided along the knife blade so that the tying agent strands are cut through upon passing the knife blade.

A twine knotter for a bale press for forming two sequential knots for holding together a tying agent surrounding a crop bale includes a knotter frame and a knotter hook supported rotatably in the knotter frame and provided for knotting together ends of the tying agent. A holding arrangement has a twine holding disk rotatably supported at the knotter frame and conveying temporarily two tying agent strands of the tying agent. A knotter disk that is rotatingly driven is provided with a first drive element driving the knotter hook and a second drive element driving the twine holding disk. A stripper lever is provided to strip off knots from the knotter hook. A knife blade is provided to cut through tying agent strands. The twine holding disk upon rotation is guided along the knife blade so that the tying agent strands are cut through upon passing the knife blade.

A knotter hook for a twine knotter has a stationary clamping wing and a pivotable clamping wing, Stationary clamping wing and pivotable clamping wing have an extension component in a same spatial direction. The pivotable clamping wing has a projection projecting toward the stationary clamping wing. The pivotable clamping wing is pivotable reversibly from a closed state into an open state. A free end of the pivotable clamping wing in the open state is spaced apart farther from the stationary clamping wing than in the closed state. The pivotable clamping wing is laterally displaced relative to the stationary clamping wing at least in sections so that the pivotable clamping wing is arranged adjacent to the stationary clamping wing and below the pivotable clamping wing a free space is formed. The free space extends in the closed state opposite to the spatial direction beyond the projection.

A knotter hook for a twine knotter has a stationary clamping wing and a pivotable clamping wing, Stationary clamping wing and pivotable clamping wing have an extension component in a same spatial direction. The pivotable clamping wing has a projection projecting toward the stationary clamping wing. The pivotable clamping wing is pivotable reversibly from a closed state into an open state. A free end of the pivotable clamping wing in the open state is spaced apart farther from the stationary clamping wing than in the closed state. The pivotable clamping wing is laterally displaced relative to the stationary clamping wing at least in sections so that the pivotable clamping wing is arranged adjacent to the stationary clamping wing and below the pivotable clamping wing a free space is formed. The free space extends in the closed state opposite to the spatial direction beyond the projection.

A wire release mechanism for securing an end of a wire during a wire tying cycle is provided. The wire release mechanism may secure a first end of a wire around a bale of recycled material during knotting of the wire. The wire release mechanism may include a wire release portion having an engaging surface and the wire release portion may be movable between an open and closed position. The wire release mechanism may further include a gripping arm movable between a first position and a second position and having a retractable surface. The engaging surface may disengage the wire based on movement from the closed position to the open position. Further, the retractable surface may engage against the first end of the wire based on movement from the first position to the second position.

A wire release mechanism for securing an end of a wire during a wire tying cycle is provided. The wire release mechanism may secure a first end of a wire around a bale of recycled material during knotting of the wire. The wire release mechanism may include a wire release portion having an engaging surface and the wire release portion may be movable between an open and closed position. The wire release mechanism may further include a gripping arm movable between a first position and a second position and having a retractable surface. The engaging surface may disengage the wire based on movement from the closed position to the open position. Further, the retractable surface may engage against the first end of the wire based on movement from the first position to the second position.

Disclosed is an automated module for binding a cable bundle, including eight parts arranged in two halves and having an opening or closing movement around a cable bundle, a lacing tape being pushed between the parts, once the automated module is closed, to form around the cable bundle a first knot or clove hitch followed by a second safety knot as a double knot on the former, before exiting the automated module, followed by a guide releasing movement, tightening the respective knots in the listed order, cutting the ends of the lacing tape and opening the automated module to remove the cable bundle.

Disclosed is an automated module for binding a cable bundle, including eight parts arranged in two halves and having an opening or closing movement around a cable bundle, a lacing tape being pushed between the parts, once the automated module is closed, to form around the cable bundle a first knot or clove hitch followed by a second safety knot as a double knot on the former, before exiting the automated module, followed by a guide releasing movement, tightening the respective knots in the listed order, cutting the ends of the lacing tape and opening the automated module to remove the cable bundle.

A baler twine tension control assembly including a displacement detector and elements defining a twine path. The twine path enters and exits the twine tension control assembly and within the twine tension control assembly extends across a first fixed location and a second fixed location as well as across an intermediate displaceable location located between the first fixed location and the second fixed location. The displacement detector is connected to the intermediate displaceable location and generates a signal indicative of the displacement of the displaceable location.