The disclosed technology includes systems and methods for continuously supplying livestock to a processing plant. The disclosed technology can include an enclosure configured to house livestock. The enclosure can include an enclosure entrance, an enclosure exit, and moveable walls to partition the enclosure into separate pens and automatically direct the livestock from the enclosure entrance toward the enclosure exit. A passageway can be connected to the enclosure exit and include moveable walls to automatically direct the livestock from the enclosure exit toward a processing plant. The moveable walls can be configured to move at a predetermined speed such that the plurality of livestock enter the enclosure as offspring, are reared in the enclosure, and are directed through the enclosure exit into the passageway approximately when the plurality of livestock have reached slaughter weight.

The disclosed technology includes systems and methods for continuously supplying livestock to a processing plant. The disclosed technology can include an enclosure configured to house livestock. The enclosure can include an enclosure entrance, an enclosure exit, and moveable walls to partition the enclosure into separate pens and automatically direct the livestock from the enclosure entrance toward the enclosure exit. A passageway can be connected to the enclosure exit and include moveable walls to automatically direct the livestock from the enclosure exit toward a processing plant. The moveable walls can be configured to move at a predetermined speed such that the plurality of livestock enter the enclosure as offspring, are reared in the enclosure, and are directed through the enclosure exit into the passageway approximately when the plurality of livestock have reached slaughter weight.

A device for picking up animal excrement includes a propulsion device for propelling the device, a pick-up device with a worm housing and a drivable conveyor worm arranged in the worm housing and which extends in a longitudinal direction to pick up animal excrement on the ground. The conveyor worm includes, along its longitudinal extent, a first conveyor section with a first conveying direction and a second conveyor section with a second conveying direction, and the second conveying direction runs counter to the first conveying direction. A collecting device collects the animal excrement picked up by the pick-up device, and the collecting device is connected to an outlet opening of the worm housing, arranged between the first and second conveyor section. The worm housing has a first pick-up opening in the region of the first conveyor section and a second pick-up opening in the region of the second conveyor section.

The disclosed technology includes systems and methods for continuously supplying livestock to a processing plant. The disclosed technology can include an enclosure configured to house livestock. The enclosure can include an enclosure entrance, an enclosure exit, and moveable walls to partition the enclosure into separate pens and automatically direct the livestock from the enclosure entrance toward the enclosure exit. A passageway can be connected to the enclosure exit and include moveable walls to automatically direct the livestock from the enclosure exit toward a processing plant. The moveable walls can be configured to move at a predetermined speed such that the plurality of livestock enter the enclosure as offspring, are reared in the enclosure, and are directed through the enclosure exit into the passageway approximately when the plurality of livestock have reached slaughter weight.

The disclosed technology includes systems and methods for continuously supplying livestock to a processing plant. The disclosed technology can include an enclosure configured to house livestock. The enclosure can include an enclosure entrance, an enclosure exit, and moveable walls to partition the enclosure into separate pens and automatically direct the livestock from the enclosure entrance toward the enclosure exit. A passageway can be connected to the enclosure exit and include moveable walls to automatically direct the livestock from the enclosure exit toward a processing plant. The moveable walls can be configured to move at a predetermined speed such that the plurality of livestock enter the enclosure as offspring, are reared in the enclosure, and are directed through the enclosure exit into the passageway approximately when the plurality of livestock have reached slaughter weight.

The invention relates to a platform specifically designed for caring for and attending to pets, mainly dogs, said platform comprising a device consisting of a front horizontal body and a rear vertical body which define at the intersection thereof a cavity wherein a waste-grinding spiral arranged on a grille extends transversely. The front body includes a belt for transporting stools and waste towards the area of the grinding spiral, and the rear body is hollow on the inside, the space being divided up into compartments with rear windows for accessing a feeding area and a drinking area, a compartment for holding feed, a compartment for objects for the care of the animal, a receptacle with a store of liquid disinfectant, a compartment with pumping means, and a control unit that can be accessed by the user. The device includes means for detecting waste and nozzles for spraying water towards the ground waste.

The disclosed technology includes systems and methods for continuously supplying livestock to a processing plant. The disclosed technology can include an enclosure configured to house livestock. The enclosure can include an enclosure entrance, an enclosure exit, and moveable walls to partition the enclosure into separate pens and automatically direct the livestock from the enclosure entrance toward the enclosure exit. A passageway can be connected to the enclosure exit and include moveable walls to automatically direct the livestock from the enclosure exit toward a processing plant. The moveable walls can be configured to move at a predetermined speed such that the plurality of livestock enter the enclosure as offspring, are reared in the enclosure, and are directed through the enclosure exit into the passageway approximately when the plurality of livestock have reached slaughter weight.

A litter conditioning vehicle has a drive system coupled to a chassis and configured to move the vehicle along a floor of an animal enclosure. A collection system is coupled to a front portion of the chassis and includes a flailer that can reduce a particle size of the litter as the collection system collects litter from the floor. A conditioning system is coupled along a length of the chassis and includes a drum and a conditioning element. The drum receives the collected litter and can be rotated to tumble the litter. The conditioning element can transfer energy such as, for example, microwave radiation to the litter being tumbled in the drum, thereby conditioning the litter. A dispersement system is coupled to a back portion of the chassis and is configured to disperse conditioned litter received from the conditioning system on the floor behind the vehicle.

An intelligent fecal solid-liquid separator for a cattle mattress bedding material production system and an operation method thereof. The cutting assembly is located directly above the first cutting groove. By setting a cutting assembly, the further extrusion is achieved to realize solid-liquid separation of separated solid waste. Further, by utilizing the cooperation between the pressing plate and the spring, it ensures the extrusion pressure of the waste spiral extrusion, thereby improving the accuracy of solid-liquid separation.

An intelligent fecal solid-liquid separator for a cattle mattress bedding material production system and an operation method thereof. The cutting assembly is located directly above the first cutting groove. By setting a cutting assembly, the further extrusion is achieved to realize solid-liquid separation of separated solid waste. Further, by utilizing the cooperation between the pressing plate and the spring, it ensures the extrusion pressure of the waste spiral extrusion, thereby improving the accuracy of solid-liquid separation.