A twine knotter including a bill hook for forming a knot in a twine, a twine holding device for clamping twine with a twine holder and a twine disk rotatable relative thereto, the twine disk having recesses over its circumference for receiving twine, a twine feeding device for feeding twine over the bill hook into the twine holding device, and a twine knife for cutting twine. The twine disk has at least two pairs of recesses over the circumference, each pair of recesses having a front recess in a direction of rotation of the twine disk for receiving a single twine strand or a single twine strand pair and a rear recess for receiving a further single twine strand or said single twine strand pair.

A bale binding mechanism is configured to wrap twine around a bale of severed crop material. The bale binding mechanism broadly includes a baling needle, a twine tensioner, and a sensor. A baler chassis presents a baling chamber in which the bale is formed. The baling needle is shiftable up and down relative to the baling chamber, with the needle being shiftable to advance twine upwardly along an end of the bale. The twine tensioner is configured to maintain tension on a tensioned twine section extending between the twine tensioner and the needle, with the tensioned twine section defining a twine feed axis. The twine tensioner includes a tension device that restricts upward advancement of the tensioned twine section. The twine tensioner also includes a shiftable guide element. The guide element is shiftable into and out of a twine feed position associated with upward advancement of the twine section, with the guide element operable to define an offset twine section offset from the twine feed axis in the twine feed position. The sensor is operably associated with the guide element to sense guide element movement corresponding to a twine over-tension condition, with the bale binding mechanism restricting twine from being passed out of the twine tensioner in response to the sensed twine over-tension condition.

A twine knotter arrangement for knotting twine to tie a bale, the twine knotter arrangement including: a twine knotter (1), a deflection roller (41) adjustable relative to the twine knotter (1), via which twine (42, 43) coming from the bale is deflected in the direction of the twine knotter (1), and an adjusting device (54) for adjusting the position of the deflection roller (41) in dependence on the force (F.sub.R) exerted by the twine (42, 43) on the deflection roller (41).

A twine knotter arrangement for knotting twine to tie a bale, the twine knotter arrangement including: a twine knotter (1), a deflection roller (41) adjustable relative to the twine knotter (1), via which twine (42, 43) coming from the bale is deflected in the direction of the twine knotter (1), and an adjusting device (54) for adjusting the position of the deflection roller (41) in dependence on the force (F.sub.R) exerted by the twine (42, 43) on the deflection roller (41).

An agricultural harvesting machine includes a binding mechanism to secure binding material around a crop package and a delivery device to wrap binding material around a portion of the crop package and provide binding material to the binding mechanism. The delivery device includes a needle connected to a needle frame. The needle frame includes a yoke extending between a first arm and a second arm.

An agricultural harvesting machine includes a binding mechanism to secure binding material around a crop package and a delivery device to wrap binding material around a portion of the crop package and provide binding material to the binding mechanism. The delivery device includes a yoke, a needle coupling connected to the yoke, and a needle connected to the needle coupling.

A bale identification assembly includes binding material (52) used by a knotter system to bind a formed bale (14), the binding material (52) comprising identification tags (62) at spaced intervals along the binding material. A read module (66) transmits interrogator signals and also receives authentication replies from the identification tags. A position sensor is used to predict passage of identification tags (62) through the knotter mechanism and a bale length sensor provides a signal representing bale length. A controller receives signals from the bale length sensor and the position sensor and generates a signal to alter the length of the bale (14) by causing an additional flake to be added to the bale by the plunger (34) or the bale to be finished with fewer flakes to prevent the knotter system from tying a knot in the binding material such that the identification tag is positioned in a portion of the binding material used to form the knot.

A banding system for an agricultural baler is configured to move a banding element around a crop package to band the crop package. The banding system includes a support member having a support surface configured to support the crop package. The support member includes a channel defined by an opening in the support surface. The channel is further defined by a first surface opposite a second surface and a third surface extending between the first and second surfaces. The first surface at least partially defines an angled surface tapering toward the second surface such that an apex of the angled surface partially forms the opening. The banding system also includes a bander unit configured to move a banding element within the channel to band the crop package.

A banding system for an agricultural baler is configured to move a banding element around a crop package to band the crop package. The banding system includes a support member having a support surface configured to support the crop package. The support member includes a channel defined by an opening in the support surface. The channel is further defined by a first surface opposite a second surface and a third surface extending between the first and second surfaces. The first surface is at least partially defined by an angled surface angled relative to the second surface. The angled surface includes an apex positioned away from the opening. The banding system also includes a bander unit configured to move the banding element within the channel to band the crop package.

A round baler for forming a bale of residual product includes a baling chamber, a plurality of press rolls mounted within the baling chamber, and at least one driving bar associated with at least one of the plurality of press rolls. The driving bar extends at least partially along the length of at least one of the plurality of press rolls. The round baler further includes at least one cylindrical portion defined partially along the length of the at least one of the plurality of press rolls. The at least one cylindrical portion is arranged to compensate for a radial extension of the at least one driving bar to define a uniform surface.