A poultry nesting system has a nest house with an adjacent platform raised above the surface of the surrounding substrate. The platform has an upper surface and at least a portion of a perimeter of the platform comprises a wire mesh covering a space between the substrate and the upper surface. The wire mesh is formed by a plurality of strands including an upper strand and a lower strand. At least a portion of the upper surface of the platform is supported by a plurality of platform floor supports positioned on a perimeter of the platform. Each of the plurality of platform floor supports includes a bracing member, an upper cap on an upper end of the bracing member and a lower cap on a lower end of the bracing member. The upper cap has an attachment mechanism on an upper portion thereof configured to interact with the upper surface to lock the platform floor support to the upper surface of the platform such that the platform floor support supports the upper surface in its raised position above the substrate. The upper cap has an upper catch configured to interact with the wire mesh and hold the wire mesh in place, wherein the upper catch forms an upward-facing valley for receiving the upper strand. The lower cap has a lower catch configured to interact with the wire mesh and hold the wire mesh in place, wherein the lower catch forms a downward-facing arch for receiving the lower strand. A length of a travel space under the downward-facing arch of the lower catch is greater that a length of a travel space in the upward-facing valley of the upper catch.

An aviary arrangement for poultry includes a first and a second aviary row, and a bridge which connects the first and the second aviary rows, wherein each of the aviary rows has a service tier, a nest tier and a resting tier, each having an inclined animal roosting floor, and a manure conveying device arranged therebelow, wherein the resting tier is arranged above the nest tier and the service tier is arranged below the nest tier, and the nest tier has a nest and an egg conveying device, and wherein the bridge is arranged above the manure conveying device of the service tier and has a bridge floor for receiving litter. A manure conveying device is arranged below an inclined animal roosting floor, wherein the animal roosting floor comprises an inclined integrated air duct arranged below the animal roosting floor and above the manure conveying device.

An aviary arrangement for poultry includes a first and a second aviary row, and a bridge which connects the first and the second aviary rows, wherein each of the aviary rows has a service tier, a nest tier and a resting tier, each having an inclined animal roosting floor, and a manure conveying device arranged therebelow, wherein the resting tier is arranged above the nest tier and the service tier is arranged below the nest tier, and the nest tier has a nest and an egg conveying device, and wherein the bridge is arranged above the manure conveying device of the service tier and has a bridge floor for receiving litter. A manure conveying device is arranged below an inclined animal roosting floor, wherein the animal roosting floor comprises an inclined integrated air duct arranged below the animal roosting floor and above the manure conveying device.

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.

In general, one aspect disclosed features an anchoring system for anchoring an at least partially floorless mobile livestock enclosure to the ground. The anchoring system comprising: a securing flange configured to mechanically couple the anchoring system to the enclosure; an anchor; and a drive configured to place the anchor into contact with the ground, and to retract the anchor from contact with the ground.

In general, one aspect disclosed features an anchoring system for anchoring an at least partially floorless mobile livestock enclosure to the ground. The anchoring system comprising: a securing flange configured to mechanically couple the anchoring system to the enclosure; an anchor; and a drive configured to place the anchor into contact with the ground, and to retract the anchor from contact with the ground.

A poultry holding system that can be erected tool-free by assembling lengthwise and crosswise members on support posts. Multiple upright support posts are set up in an evenly spaced grid. The crosswise members and lengthwise members are constructed as U-profile rails, with through-holes in the horizontal sections of the U-profiles that allow the members to be assembled and supported on the support posts. The poultry holding system thus constructed can have at least two tiers, one above the other. The assembly components are designed to be particularly economical, which allows greater flexibility in the design and construction of the poultry holding system to accommodate the constraints of the particular facility.

A poultry holding system that can be erected tool-free by assembling lengthwise and crosswise members on support posts. Multiple upright support posts are set up in an evenly spaced grid. The crosswise members and lengthwise members are constructed as U-profile rails, with through-holes in the horizontal sections of the U-profiles that allow the members to be assembled and supported on the support posts. The poultry holding system thus constructed can have at least two tiers, one above the other. The assembly components are designed to be particularly economical, which allows greater flexibility in the design and construction of the poultry holding system to accommodate the constraints of the particular facility.

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.