A square baler including a pickup mechanism configured to pick up crop material from a single windrow on the ground, and a rotor configured to receive crop material picked up by the pickup mechanism. The rotor includes a first toothed section, a second toothed section, and an interior auger flighted section located between the first toothed section and the section toothed section. The rotor is configured to separate crop material into two streams of crop material.

A container having a compactor and bin for waste is disclosed permitting on-premises and remote monitoring of the system and collection is disclosed. The system can also detect non-complaint materials placed therein and act thereon. Methods are further disclosed for inventorying identification tags for tracking packages, merchandise and tags disposed of.

Disclosed is a press including a press part, at least two upper levers and at least two lower levers and a telescopic arm arranged to be moved between a shortened and an extended position by way of an actuator. The upper levers and the lower levers have ends arranged to rotate around a point of rotation. Also disclosed is a construction.

A rectangular baler having a wall positioning system. The baler having a bale chamber which includes a plurality of walls including a movable wall section. The wall positioning system includes a positioner for moving the movable wall section from a first position to a second position. The positioner is configured for applying pressure to a first pressure point and to a second pressure point on the movable wall section such that the second position of the movable wall section is substantially parallel to the first position of the movable wall section. The first pressure point and the second pressure point are spaced apart along a longitudinal direction of the bale chamber.

A baling apparatus includes a housing having a fixed portion and a hinged door to release a bale, a series of rollers and belts for compressing and rotating baling material into a bale, a wrap feed mechanism for feeding a wrap around a bale, and means for compressing the bale during the baling operation. The instant baling apparatus may be used for materials that have traditionally been difficult to bale successfully, including small particulate such as mulch, and other materials such as common household trash. The baling apparatus may be utilized as a separate unit, or may be combined with a brush cutter/mulcher, or incorporated into trash removal equipment. A touch screen display and computer may be used in combination with sensors to monitor and control the baling operation, and a hydraulic system is used to drive the components.

A system and method including a control/monitoring unit that is either integrated with or exterior-mounted on a waste compactor are provided. The unit can have control functionality, monitoring functionality, or both control and monitoring functionality with respect to the waste compactor. The unit can also include a remote on/off control feature which gives a user the ability to remote start/stop the waste compactor and render it operable/inoperable from another remote location.

A square baler comprising a gear box configured to receive power from a rotating power source. The baler additionally comprises first and second drive shaft sections extending outwardly from generally opposite sides of the gear box. The gear box is configured to rotate said first and second drive shaft sections using power from the rotating power source. The baler further comprises first and second reciprocating plungers respectively coupled to the first and second drive shaft sections in a manner such that rotation of the first drive shaft section causes reciprocation of the first plunger and rotation of the second drive shaft section causes reciprocation of the second plunger.

The present invention provides an improved high-low hydraulic system for compacting machinery, such as balers, horizontal balers, compactors, transfer station compactors, and the like. The high-low hydraulic system comprises at least one double rotary pump, a plurality of directional control valves, a pilot-operated back pressure reducing valve, a flow control valve, a plurality of one-way valves, and a plurality of pressure switches. The high-low hydraulic system may be regenerative or non-regenerative and provides many advantages over conventional hydraulic systems. Such advantages include greater system efficiency due to a reduced back pressure during the time of the retraction stroke and clever flow sequencing, mitigation of hydraulic shocks at the beginning and end of compaction and retraction strokes, and reduced cycle time of the cylinder during operation due to the concurrent filling of the rod end side during decompression of the blind end side after the compaction stroke. Moreover, the present high-low hydraulic system allows for the cylinder to operate at three or more independent speeds. Additionally, the present high-low hydraulic system may also comprise an accumulator and pressure transducer that further assist with substantially maintaining a predetermined hydraulic pressure on the blind end side after the completion of the compaction stroke.

A recycling method is disclosed that includes the steps of compacting recyclable material into a fixed bale of recyclable material while concurrently weighing the OCC in the compactor and independently of the force that the compactor applies to the material or to the bale, assigning an individual identifier to the fixed bale in which the identifier includes at least the weight of the bale, and sending the fixed identified bale to a destination selected from the group consisting of shippers, mills, rebalers, or a customers for the baled recyclable material. Also, devices and methods are disclosed for upgrading existing or new balers to enable them to perform at least some portions of the improved recycling methods. Example devices include baler-mounted load-cell weight sensors and U-shaped anchor plates for securing them in place in a free-floating arrangement.

A high capacity square baler comprising a pickup mechanism configured to pick up a single windrow of crop material off the ground. The baler additionally comprising one or more stuffer chutes each configured to receive at least a portion of the crop material picked up by the pickup mechanism. The baler additionally comprising one or more stuffer assemblies each configured to push crop material generally upward through one or more of the stuffer chutes. The baler additionally comprising a plurality of bale-forming chambers each configured to receive crop material from one or more of the stuffer chutes. The baler further comprising a plurality of knotter assemblies each associated with one of the bales forming chambers and each configured to wrap and tie securement lines around each formed bale. The knotter assemblies are configured to operate independently of one another, such that formed bales can be tied at different times.