A conveying arrangement conveys loose material in a conveying direction, in particular agricultural material. Several knives of a cutting assembly are mounted below a cutting area guiding surface. The material is first conveyed along the cutting area guiding surface and afterwards along a further guiding surface. Both guiding surfaces are mechanically supported by a connecting assembly. A positioning mechanism can pivot the connecting assembly upwards and downwards. This pivotal movement causes both guiding surfaces to be moved upwards and downwards. The cutting area guiding surface together with the cutting assembly can be shifted laterally, i.e. perpendicular to the conveying direction, and is guided during this lateral movement.

A conveying arrangement conveys loose material in a conveying direction, in particular agricultural material. Several knives of a cutting assembly are mounted below a cutting area guiding surface. The material is first conveyed along the cutting area guiding surface and afterwards along a further guiding surface. Both guiding surfaces are mechanically supported by a connecting assembly. A positioning mechanism can pivot the connecting assembly upwards and downwards. This pivotal movement causes both guiding surfaces to be moved upwards and downwards. The cutting area guiding surface together with the cutting assembly can be shifted laterally, i.e. perpendicular to the conveying direction, and is guided during this lateral movement.

An apparatus for roughage processing includes a first platform for placing of a first type of roughage, a first cutting mechanism for processing the first type of roughage, a first chain for moving the first type of roughage from the first platform to the first cutting mechanism; and a second platform, a second cutting mechanism, and a second chain for performing similar tasks with a second type of roughage. The first chain and the first cutting mechanism and the second chain are driven at a different speed to provide concurrent cutting of the first and second types of roughages at different cut sizes. The apparatus further includes a conveyor an auger for concurrently collecting the first type of roughage and the second type of roughage after respective processing by the first cutting mechanism and the second cutting mechanism for effective blending of the two types of roughages, each of which has been cut differently to obtain its optimum particle size for ruminant consumption. The apparatus can be powered by a very small horse power motor. It also includes a mechanism that will stop the floor chains carrying the roughage into the knife drums when the power load force that is detected by the knife drum power load reading device reaches a predetermined amount. This predetermined amount is still within, but near the upper limits of, the available horsepower range of the small motor powering it.

An apparatus for roughage processing includes a first platform for placing of a first type of roughage, a first cutting mechanism for processing the first type of roughage, a first chain for cutting the first type of roughage from the first platform to the first cutting mechanism; and a second platform, a second cutting mechanism, and a second chain for performing similar tasks with a second type of roughage. The first chain and the second chain are driven at a different speed to provide concurrent cutting of the first and second types of roughages at different cut sizes. The apparatus further includes a conveyor for concurrently collecting the first type of roughage and the second type of roughage after respective processing by the first cutting mechanism and the second cutting mechanism for effective blending of the two types of roughages, each of which has been cut differently to obtain its optimum particle size for ruminant consumption.

The invention relates to an automatic bale-handling machine for handling material bales, the materials that have been pressed to form bales being intended for comminution. The automatic bale-handling machine comprises a loading device which is designed to supply a bale to a comminution device, the loading device comprising a supply unit, and the supply unit being designed to transfer the bale from a first level into a second level which is located above the first level. According to the invention, the supply unit is designed as a lifting unit in such a way that the lifting unit lifts a bale from a supporting face within an action space.

A hay bale flaking device mountable on a wheeled vehicle such as a trailer is provided. The flaking device employs a ram to translate a hay bale on a ramp, and underneath a cutting blade which at timed intervals cuts flakes of hay from the distal end of the hay bale. The timing and thickness of the flakes may be adjustably controlled. A secondary bale of hay may be carried by the device for positioning upon the ramp subsequent to use of a previous bale to make flakes.

A convertible hay bale flaking device that accommodates two bales of hay and is operated via a remote control. The functions of the device allow the controlled translation of a bale of hay stored at the rear of the device along the linear axis of the device onto a front ramp where it can be advanced perpendicularly to the linear axis of the device such that it can pass over and extend beyond the side edge of the device. When in this position, it can either be segregated into flakes by gravity or via a cutting blade forcefully disposed downward into the hay bale.

A blade for agricultural machines, for example, for harvesting machines and in particular a baler blade or loader wagon blade, including a substantially flat base body with a cutting area, in particular a curved cutting area, in which a cut of hay or the like is made when the base body is stationary. Cutting plates made of a carbide are arranged in the cutting area and the cutting plates are formed with cutting edges on an front side and with a first corner and a second corner. The cutting plates are arranged in plan view on an upper side of the base body in such a way that the second corner of a cutting plate lies behind a connecting line of the first corners of the cutting plates.

A vertical combined shredding and mixing truck, adapted to shred fibrous products such as hay or straw and to mix them with ensiled and farinaceous products to provide the mechanized feeding of dairy cows and fattening cows, including, within an outer enclosure, at least one vertical motorized screw feeder, which is provided with applied blades and an outlet for discharging the mixed product; there is at least one device which including an idle rotor which is provided with tools adapted to come into contact with the product being processed and is integral with the at least one screw feeder, protruding from the outer edge of said screw feeder.

A bale processor of a type for tearing apart a bale of forage material into filamentary material includes a shredder rotor with blades that remove filamentary portions of the bale and delivers such filamentary material directly to a multiple fan blower for blowing such filamentary material directly to and out of a delivery chute. An independent dual discharge feature permits discharge out of either side and/or one or more blowers placed closer to the shredder rotor can be used independently of the dual discharge feature and the multiple fan blower feature.