A poultry cage door assembly includes a main body, a secondary body, and a bracket. The main body includes a main first lateral end extending from a main front side to a main rear side and from a main upper end to a main lower end. The main first lateral end includes a first keyed arrangement and a first bracket-receiving feature. The secondary body includes a secondary first lateral end extending from a secondary front side to a secondary rear side and from a secondary upper end to a secondary lower end. The secondary first lateral end includes a secondary keyed arrangement and a second bracket-receiving feature. The secondary keyed arrangement is configured to mate with the first keyed arrangement. The first bracket is mateable with the first bracket-receiving feature and the second bracket-receiving feature.

An apparatus, method and system of insulating a building such as a poultry barn uses netting structurally of the type to hold sod together. The netting is stapled to the bottom of trusses making up the ceiling of a barn and the attic of the barn. Ceiling material is superimposed below the netting to form a ceiling. Loose insulation, typically fiberglass, is blown onto the netting to be held thereby and to form an insulation layer in the attic of the barn.

An apparatus, method and system of insulating a building such as a poultry barn uses netting structurally of the type to hold sod together. The netting is stapled to the bottom of trusses making up the ceiling of a barn and the attic of the barn. Ceiling material is superimposed below the netting to form a ceiling. Loose insulation, typically fiberglass, is blown onto the netting to be held thereby and to form an insulation layer in the attic of the barn.

A henhouse includes a gable, a sidewall, and a roof. An inner chamber parallel to the sidewall is provided in the middle of the henhouse. The inner chamber includes an inner wall parallel to the sidewall and an inner roof. A partition is provided between the sidewall and the inner wall. An air inlet plate is provided between the two inner walls located below the inner roof. A pressure chamber is formed between the inner roof and the air inlet plate. A premixing chamber is formed between the inner roof and the roof. A plurality of fans and air inlet windows are uniformly provided on the inner roof. A plurality of air inlet holes and small inlet windows are uniformly provided on the air inlet plate. A plurality of wet curtains and an air vent are provided on the sidewall. A plurality of air outlet slots are uniformly provided on the inner wall.

An animal door unit comprising a front panel, a left rear panel, a left guide, a right rear panel, and a right guide, wherein the front panel comprises an entrance; and a door plate having a plurality of guide holes, the door plate configurable in a retracted state and an open state, wherein, in the retracted state, the door plate traverses the entrance, and wherein, in the open state, the door plate does not traverse the entrance. The animal door unit may include a motor disposed within a module case; and a sprocket in rotational communication with the motor, wherein the sprocket interfaces with the plurality of guide holes, such rotational movement of the sprocket inducing linear movement in the door plate.

Apparatus for rearing livestock comprising a livestock enclosure, a plurality of sensors, and a plurality of output devices, and methods of operating the same. Methods of determining measurements of animal welfare by processing vocalisations by chicks, especially by detecting the spectral entropy of animal vocalisations. The relationship between chick distress calling in early life and outcome.

Apparatus for rearing livestock comprising a livestock enclosure, a plurality of sensors, and a plurality of output devices, and methods of operating the same. Methods of determining measurements of animal welfare by processing vocalisations by chicks, especially by detecting the spectral entropy of animal vocalisations. The relationship between chick distress calling in early life and outcome.

The invention relates to a rack (10) for receiving fattening poultry cages, (20) comprising: a frame structure (12), a plurality of levels (14) for receiving a plurality of fattening poultry cages (20), and a plurality of conveying means (16) associated with each of the levels (14). The means of conveyance (16) are arranged in such a way that they transport the cages (20) located in the rack (10) within the respective level (14) to and/or away from a unloading point (30). Further, the invention relates to a fattening poultry cage (20) for arrangement in such a rack (10). Finally, the invention relates to a system of racks (10) and cages (20) according to the invention. The system may comprise an industrial truck (22) with lifting means for removing cages (20) from or feeding cages into the rack (10), the lifting means comprising a plurality of fork carriages (24) arranged vertically one above the other and movable in a vertical direction relative to one another.

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.

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.