Disclosed is an enclosure for animal husbandry, for example for dairy cattle, including a milking area preceded by a holding area. The holding area is covered by a floor covering that is made from a material capable of undergoing elastic deformation and that includes a sloping top face intended as a support surface for the animals. The floor covering includes a system of pipes provided with several outlet openings that open at top face of the floor covering; and the enclosure includes a circulator connected to the system of pipes, for conveying a treatment liquid inside the system of pipes and for causing the treatment liquid to flow through the outlet openings.

A sensor arrangement measures a parameter (P) representing a position of a movable platform of a rotary parlor relative to a stationary reference point. Based on the parameter, in turn, a control unit influences the movement of the movable platform. A first transmitter unit with a first transmitter antenna is placed on the movable platform and thus moves along with the movable platform. A first radio signal emitted from the transmitter antenna contains a timing reference and uniquely identifies the first transmitter unit. At least three receiver stations are stationary placed with a respective receiver antenna located such that the first radio signal is received via line-of-sight propagation. Based on the first radio signal and respective propagation times derived from the timing reference in the first radio signal (SID), the receiver stations generate the parameter (P).

A rotary milking platform (3) comprises a plurality of stalls (5) and an RFID animal identifying system (9) for identifying animals entering the stalls (5) of the platform (3). A microprocessor (14) reads signals from an image capturing device (15) and computes a feature vector from the captured image of each animal. A plurality of reference feature vectors comprising respective matrices of metrics already derived from images of the respective animals captured by the image capturing device (15) are stored and cross-referenced with the identity of the respective animals. The microprocessor (14) compares computed feature vectors of each animal with the stored reference feature vectors until a best match has been determined with one of the reference feature vectors. The identity of the animal of that matching reference feature vector is then determined as the identity of the animal of that computed feature vector. The determined identity of the animal in the relevant stall (5) is compared with the identity of the animal determined for that stall (5) by the RFID system (9). On a favourable comparison the identity of the animal determined from the captured image of that animal is confirmed as the identity of the animal. In the event of a conflict between the two identities being determined, a conflict alert signal is produced.

A milker unit detacher with an adjustable and releasable hose support and a support arm that pivots about a tilted axis to bias the support arm toward a milking position to maintain engagement with the adjustable hose support member.

A space divider of a milking parlor arrangement for at least one milking parlor for milking milk-producing animals, wherein the space divider is arranged approximately parallel to a longitudinal axis of the animal to be milked, has an arm device having a milking cluster, which can be adjusted from a parking position to a working position and back. The arm device is arranged with the milking cluster in the parking position in the space divider and can be adjusted into the working position laterally to the animal to be milked between the front and rear legs thereof. The space divider may include a replaceable service unit.

A space divider of a milking parlor arrangement for at least one milking parlor for milking milk-producing animals, wherein the space divider is arranged approximately parallel to a longitudinal axis of the animal to be milked, has an arm device having a milking cluster, which can be adjusted from a parking position to a working position and back. The arm device is arranged with the milking cluster in the parking position in the space divider and can be adjusted into the working position laterally to the animal to be milked between the front and rear legs thereof. The space divider may include a replaceable service unit.

A rotating platform having a plurality of stalls is provided, each of the stalls being configured to house a respective animal during milking. The stalls are separated from one another by delimiting structures. A camera registers three-dimensional image data of the rotating platform within a field of view. A controller receives the image data that has been registered while the rotating platform completes at least one full revolution around its rotation axis. The controller processes the image data to derive a set of key features of the rotating platform, and then stores the set of key features in a data storage, which is configured to make the set of key features available for use at a later point in time.

A method and a system configured to differentially direct the passage of livestock animal; to signal the livestock animal; to identify an individual livestock animal and to monitor livestock activity are provided.

A free dome range (FDR) where dairy animals have a free access to their stall to concurrently eat and to be milked. The FDR comprises a plurality of stalls; at least one of these stalls is characterized by a front side and rear opposite side into which a dairy animal is at least temporarily accommodated, head fronting the front side; a plurality of main living areas (MLAs); at least one of the MLAs is in connection with at least one of the stalls by a plurality of gates. The FDR further comprising a substantially horizontally positioned elevated rail system comprising a plurality of elevated rails, and a plurality of mobile milking units (MMUs), each of the MMUs is configured to transport on the elevated rail to a dairy animal at its stall, and milk the animal while it is eating.

A free dome range (FDR) where dairy animals have a free access to their stall to concurrently eat and to be milked. The FDR comprises a plurality of stalls; at least one of these stalls is characterized by a front side and rear opposite side into which a dairy animal is at least temporarily accommodated, head fronting the front side; a plurality of main living areas (MLAs); at least one of the MLAs is in connection with at least one of the stalls by a plurality of gates. The FDR further comprising a substantially horizontally positioned elevated rail system comprising a plurality of elevated rails, and a plurality of mobile milking units (MMUs), each of the MMUs is configured to transport on the elevated rail to a dairy animal at its stall, and milk the animal while it is eating.