The invention is directed to a process and equipment for use in a process to bacterially decompose organic waste to a dry composted end material wherein organic waste is composted in a composting tank in the presence of oxygen and aerobic bacteria to obtain a wet composted material. The wet composted material is partly removed from the composting tank and dried such to lower the water content of the composted material to obtain dry composted end material.

Embodiments of the present disclosure include an agitating system of an agricultural system having a drive system configured to operate an agitator and a controller comprising a memory and a processor. The controller is configured to alternatingly instruct the drive system to operate the agitator in an active operation for an active time and instruct the drive system to suspend operation of the agitator for a dwell time after the active time.

A dough kneading and feeding system includes a dough barrel that defines a dough handling space in which a screw shaft is provided to extend through a shaft hole and a discharge opening of the dough barrel. An ejection nozzle is coupled with the discharge opening. The screw shaft includes a blade for driving a dough material toward the discharge opening located at the front side to be discharged through the ejection nozzle. At least one assisting screw is arranged, in combination with a bearing, to be parallel with the screw shaft in the dough handling space. The assisting screw includes at least one helical blade, which is rotatable to drive the dough material in a direction opposite to the direction of the dough material driven by the screw shaft and also to drive the dough material toward the screw shaft in a radial direction of the screw shaft.

A dough kneading and feeding system includes a dough barrel that defines a dough handling space in which a screw shaft is provided to extend through a shaft hole and a discharge opening of the dough barrel. An ejection nozzle is coupled with the discharge opening. The screw shaft includes a blade for driving a dough material toward the discharge opening located at the front side to be discharged through the ejection nozzle. At least one assisting screw is arranged, in combination with a bearing, to be parallel with the screw shaft in the dough handling space. The assisting screw includes at least one helical blade, which is rotatable to drive the dough material in a direction opposite to the direction of the dough material driven by the screw shaft and also to drive the dough material toward the screw shaft in a radial direction of the screw shaft.

A tubular molded body that can reduce restrictions on attachment to another member to be easily attached to another member. The tubular molded body 10 includes a tube main body 11 formed in a tubular shape and an attachment flange 100 formed in a flange shape to project from the tube main body 11. The attachment flange 100 includes a thin-walled hinge 130 and is rotatable by the hinge.

A device (1) for continuously conveying and plasticising cheese curd includes a housing (2) having an elongate chamber (3) with inlet and openings (5, 6). At least one pair of oppositely-driven conveying shafts (4.1, 4.2) is arranged in the elongate chamber such the axes of rotation (18.1, 18.2) of the shafts extend in parallel in the longitudinal direction of the chamber. The conveying shafts have interleaved helical structures (19.1, 19.2) for axially conveying the cheese curd from the inlet opening to the outlet opening. A heating device (9.1, 17) heats at least part of the shaft(s) and at least part of an inner surface of the chamber. At least one entraining device is designed such that at least part of the cheese curd to be conveyed and plasticised is also transported around the two conveying shafts.

A device (1) for continuously conveying and plasticising cheese curd includes a housing (2) having an elongate chamber (3) with inlet and openings (5, 6). At least one pair of oppositely-driven conveying shafts (4.1, 4.2) is arranged in the elongate chamber such the axes of rotation (18.1, 18.2) of the shafts extend in parallel in the longitudinal direction of the chamber. The conveying shafts have interleaved helical structures (19.1, 19.2) for axially conveying the cheese curd from the inlet opening to the outlet opening. A heating device (9.1, 17) heats at least part of the shaft(s) and at least part of an inner surface of the chamber. At least one entraining device is designed such that at least part of the cheese curd to be conveyed and plasticised is also transported around the two conveying shafts.

A dough kneading and feeding system includes a dough barrel that defines a dough handling space in which a screw shaft is provided to extend through a shaft hole and a discharge opening of the dough barrel. An ejection nozzle is coupled with the discharge opening. The screw shaft includes a blade for driving a dough material toward the discharge opening located at the front side to be discharged through the ejection nozzle. At least one assisting screw is arranged, in combination with a bearing, to be parallel with the screw shaft in the dough handling space. The assisting screw includes at least one helical blade, which is rotatable to drive the dough material in a direction opposite to the direction of the dough material driven by the screw shaft and also to drive the dough material toward the screw shaft in a radial direction of the screw shaft.

A control system for mixing materials having a container to receive the materials, agitators, a driveline to drive the agitators at an output speed with an output torque, an power source to provide an input speed with an input torque, a continuously variable transmission that connects the driveline and the power source, and an electronic control unit configured to adjust a speed ratio of the continuously variable transmission to provide a linear relationship between the input torque and the output torque with a slope, when the input torque is below a control input threshold, and to follow a corrected linear relationship between the input torque and the output torque with a corrected slope smaller than the slope when the input torque is above the control input threshold.

The present disclosure is directed to an agitating system having a sub-hopper configured to receive particulate material, an agitator disposed within the sub-hopper and configured to promote movement of the particulate material through the sub-hopper, and a deflector configured to block a portion of the particulate material from exerting a force onto the agitator as the particulate material flows through the sub-hopper. The deflector is positioned such that the agitator extends beyond a first distal edge and a second distal edge of the deflector along a lateral axis.