A bale wrap mechanism for use with a roll of wrap material, the bale wrap mechanism including a frame including a wrap chute formed from one or more perimeter walls, where the wrap chute defines a wrap axis extending longitudinally therethrough, and where the one or more perimeter walls at least partially define a passage therebetween. The bale wrap mechanism also includes a wrap arm coupled to the frame, the wrap arm having a mounting point movable with respect to the frame, and a shaft coupled to the mounting point and configured to support the roll of wrap material thereon, where the shaft is configured to travel along a wrap path during a wrapping process, where the wrap path surrounds the passageway, and where the wrap path is substantially rectangular in shape.

A baler and method are described for forming and wrapping bales of crop material. A baler may include a baling chamber, a crop-moving device for compressing crop material into a bale within the baling chamber, a bale chute oriented outside the baling chamber, and a wrap frame supported by the bale chute. Once formed within the baling chamber, the bales may be ejected from the baling chamber to the bale chute. A sheet of wrap material may be wrapped about the wrap frame, such that a sleeve of wrap material is formed from the sheet. The bale may be moved through the wrap frame, such that the bale engages the sleeve to pull the sleeve from the wrap frame and the bale is wrapped by the sleeve.

An agricultural baler includes a main bale chamber for the compressing of crop material into bales. The main bale chamber has a floor and an outlet for discharge of compressed crop material in the form of bales. A bale ejection system is at least partially incorporated in the floor, and is arranged to move and eject a rearward bale proximate to the outlet of the main bale chamber. The baler is characterized in that the bale ejection system continuously extends longitudinally past the outlet of the main bale chamber.

The disclosure relates to weighing a bale formed by a harvester such as a round baler. One or more load sensors located in the tailgate section of the harvester are used to obtain weights when the harvester contains a bale and when the harvester is empty. Other factors, including the slope of the surface on which the harvester is location, the size of the bale, the bale moisture, and the shape of the bale are used to adjust the calculated bale weight.

An agricultural baler includes a plunger reciprocally movable within a main bale chamber during a compression stroke and a return stroke, a flywheel associated with the plunger, and a driveline associated with the flywheel and couplable with a power take-off (PTO) of a traction unit. The baler further includes an APS coupled with the driveline and configured for receiving power from the driveline and storing the power. A PTO indicator provides an output signal indicative of an engagement of the PTO. An electrical processing circuit is coupled with the APS and the PTO indicator, and controls operation of the APS, dependent on the output signal from the PTO indicator.

The round baler includes a frame and a tailgate pivotally mounted to the frame via a tailgate pivot axis. The tailgate is movable along a path of travel range between an open position and a closed position. When in the open position, a bale can be discharged from the baler and, when in the closed position, a bale is prevented from being discharged from the baler. The baler also includes a sensor that has a sensor axis. This sensor is mounted to the baler with the sensor axis approximately coaxial with the tailgate pivot axis. An operating portion of the sensor is operatively directly movable with the tailgate. The sensor has a mechanical rotary range that is at least the travel range of the tailgate; and an electrical sensing range. The electrical sensing range is less than both the mechanical rotary range and the travel range of the tailgate.

A cutting longitudinal swaths grain harvesting and baling combine, includes a grain cutting and conveying system, a threshing and separation system, a grain cleaning apparatus, a grain collection and holding system, a straw compression and baling apparatus, a chassis travelling system, and a driving system; when the combine is harvesting grain in fields, the stalks are cut and conveyed to the threshing and separation system by the grain cutting and conveying system; the threshed and separated straw is compressed and baled by the straw compression and baling apparatus; the threshed and separated grain is cleaned by the grain cleaning apparatus; and the cleaned grain is conveyed by the grain collection and holding system to a grain storage bin. The combine can achieve harvesting of grain such as rice and wheat as well as compression and baling of threshed straw, having advantages of high working efficiency, stable performance, a simple process, and being time and labor saving.

The disclosure relates to a harvester capable of continuous bailing of crop material, particularly to a harvester comprising a crop supply chamber positioned in front of a bale chamber, capable of storing crop material during the wrapping of a bale of harvested crop material. The crop supply chamber further comprises a supply inlet at the bottom of the crop supply chamber, a movable control plate positioned within the crop supply chamber, and a movable rear wall capable of adjusting the size of the supply inlet.

An agricultural baler having a baling chamber is provided. The baling chamber includes a first wall and a second wall opposing the first wall. The first wall and the second wall extend longitudinally between a first end and a second end of the baling chamber, and the second wall forms a bottom surface of the baling chamber. The baler also includes a hinge disposed proximate to the first end of the baling chamber. The hinge is coupled to the second wall, and the second wall is configured to rotate about the hinge from a first position in which the second wall supports a bale within the baling chamber to a second position that enables the bale to move out of the baling chamber.

A baler implement may include a main frame, a main housing, a gate, a latch housing, a latch, and a debris shield. The main housing is supported by the main frame. The gate is attached to and rotatably supported by the main housing. The latch housing is coupled to one of the main frame and the gate. The latch housing has a retainer and defines a pocket. The latch is coupled to an other of the main frame and the gate. The latch is controllable between a release position operable to disengage the retainer to allow the gate to move relative to the main housing and an engaged position operable to engage the retainer to hold the gate relative to the main housing. The debris shield is resiliently deformable to allow the latch to move through the opening of the pocket to limit debris entering the pocket.