The present invention discloses 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 said stalls is characterized by a front side and rear opposite side into which a dairy animal is at least temporarily accommodated, head fronting said front side; a plurality of main living areas (MLAs); at least one of said MLAs is in connection with at least one of said stalls by means 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 said MMUs is configured to transport on said elevated rail to a dairy animal at its stall, and milk the animal while it is eating.

A system for cleaning a dairy animal milker unit and applying dip to a dairy animal, the system includes a main control, an air supply, a water supply, a backflush fluid supply, a dip supply, a stall control for receiving the air, water, backflush fluid and dip supplies, and a safety valve that is adjacent to a downstream portion of the milker unit to control backflush and dip fluids being fed to the milker unit.

A device suitable for attachment to a milking platform at a “milking position” has a strippings viewing area and a light source, which is operable to illuminate in a suitable manner the strippings viewing area to enhance the visibility to an operator of any mastitis symptoms in use and/or to illuminate the udder to facilitate inspection or treatment. The light source may also be operable to give continuous or intermittent colour signals to the operator and the device might also include an alpha-numeric area. The device might form part of a leg separator and/or sprayer and/or milk hose support. A milking platform with such a device is also claimed.

An automatic milking machine extracts milk from the teats of an animal by applying a milking vacuum to a respective teat receiving cavity of a teat cup (111, 112, 113, 114) each in which one of the teats is located during a milking session. The milking session includes a boost phase (TBOOST) and is concluded by an exit phase (TEXIT). During the boost phase (TBOOST), the milking vacuum is applied at an elevated pressure level. During the exit phase, the milking vacuum is applied at one or more levels, each of which is lower than the elevated pressure level. The operation of the automatic milking machine transitions from the boost phase (TBOOST) to the exit phase (TEXIT) when (t2) a temporal criterion is fulfilled.

A system for cleaning a dairy animal milker unit and applying dip to a dairy animal, the system includes a main control, an air supply, a water supply, a backflush fluid supply, a dip supply, a stall control for receiving the air, water, backflush fluid and dip supplies, and a safety valve that is adjacent to a downstream portion of the milker unit to control backflush and dip fluids being fed to the milker unit.

A cleaning device includes cleaning units (3) for receiving and cleaning teatcups (7). The cleaning unit includes a cup-shaped member (10). The cup-shaped member includes an annular bottom surface (12) extending around a longitudinal central axis (x) of the cleaning unit, and a side surface (13) extending around the annular bottom surface and facing the longitudinal central axis. Ribs (14) protrude from the annular bottom surface and have an extension between an inner position (A) and an outer position (B) on the annular bottom surface. The inner position is located more closely to the longitudinal central axis than the outer position. The ribs are configured to create a gap (15) between the annular bottom surface and an end surface (8) of a teatcup received in the cleaning unit. Each of the ribs is curved along at least a part of the extension.

A cleaning system, in particular for a milking cluster, comprising a basket with a base and with a circumferential structure, the said basket receiving an object to be cleaned, wherein the basket circumferential structure has a plurality of cleaning nozzles arranged thereon, which are directed towards the inside of the basket and fluidly connected with the source of a cleaning agent. A cleaning method is also disclosed, in particular for a milking cluster, performed in this cleaning system.

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 system for cleaning a dairy animal milker unit and applying dip to a dairy animal, the system includes a main control, an air supply, a water supply, a backflush fluid supply, a dip supply, a stall control for receiving the air, water, backflush fluid and dip supplies, and a safety valve that is adjacent to a downstream portion of the milker unit to control backflush and dip fluids being fed to the milker unit.

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.