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 in fully automatic operation or semiautomatic operation. The space divider is designed in such a way that no additional space is required between adjacent animals, so that many animals can be milked in a milking parlor arrangement while the smallest possible amount of space is required.

A milking arrangement that includes at least a first and a second milking system for milking animals, a common entrance lane configured to allow a plurality of animals to enter the milking arrangement, and a guiding structure configured to guide each of the plurality of animals to either one of the first and second milking systems to be milked therein, where the guiding structure comprises a smart gate arrangement that guides each animal, after having been identified, to a respective one of the first and second milking systems depending on the identity of the animal, and where, depending upon selected periods of time, such as during periods of low expected or measured utilization of the milking arrangement, the smart gate arrangement guides each animal to a single one of the first and second milking systems irrespective of the identity of the animal.

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 space divider (4) of a milking parlor arrangement (1, 1, 1, 1) for at least one milking parlor (3) for milking milk-producing animals (T), wherein the space divider (4) is arranged approximately parallel to a longitudinal axis of the animal (T) to be milked, has an arm device (6) having a milking cluster (5), which can be adjusted from a parking position to a working position and back. The arm device (6) is arranged with the milking cluster (5) in the parking position in the space divider (4) and can be adjusted into the working position laterally to the animal (T) to be milked between the front and rear legs thereof in fully automatic operation or semi-automatic operation. The space divider (4) is designed in such a way that no additional space is required between adjacent animals (T), so that many animals (T) can be milked in a milking parlor arrangement (1, 1, 1, 1) while the smallest possible amount of space is required.

An automated teat sanitation system to apply a disinfectant to teats of a dairy cow can include a vision system with a laser to identify a location of rear legs of the dairy cow. A controller can be coupled to the vision system to calculate a distance of the rear legs of the dairy cow, calculate a distance between the rear legs of the dairy cow, calculate a location of the udder based on the location of the rear legs of the dairy cow, and calculate an extension distance based on the location of the rear legs of the dairy cow and the location of the udder. A wand can be disposed in a spray station and can be extendable the extension distance to position a sprayer carried by the wand to spray the udder and teats thereof with disinfectant from the sprayer.

A rotary milking platform (1) comprises a platform (3) having a circular carrier beam (7) secured to the underside of the platform (3). The carrier beam (7) is supported on a plurality of support elements (10), each of which comprise a freely rotatable roller (35) which is configured to rollably engage an under surface (38) of the carrier beam (7). Each support element (10) comprises an anchor plate (27) adjustably mounted on a corresponding ground engaging element (20) which is secured to the ground. A carrier plate (40) is carried on four guide bolts (50) extending upwardly from the anchor plate (27). Side members (41) extending downwardly from the carrier plate (40) rotatably carry the roller (35). Compression springs (59) acting between abutment washers (55) secured to the guide bolts (50) and the carrier plate (40) urge the carrier plate (40) against heads (53) of the guide bolts (50). The compression springs (59) accommodate downward and upward movement of the roller (35) in order to accommodate rising and falling of the under surface (38) of the beam (7). The compression springs (59) permit tilting movement of the roller (35) about a tilt axis (61) which extends in the direction of motion of the beam (7) in order to facilitate tilting of the roller (35) to follow any non-horizontality of the under surface (38) of the beam (7). The tilt axis is located just below a line of contact (67) of the roller (35) with the under surface (38) of the beam (7) to minimise lateral movement of the roller relative to the beam (7) as the roller (35) tilts about the tilt axis.

An apparatus includes a platform, controller, and first and second extension members, brush tool members, and brush tools. The platform has a length orthogonal to and greater than its width. The first and second extension members are movably coupled to the platform and their longitudinal axes are parallel to the length of the platform. The first and second brush tool members are coupled to and extend along the longitudinal axes of the first and second extension members respectively. The first and second brush tools are coupled to and extend along the longitudinal axes of the first and second brush tool members respectively. The controller moves the first extension member towards the front end of the platform, retracts the first extension member towards the back end of the platform, and at a second time after the first time, moves the second extension member towards the front end of the platform.

A system includes a platform, an extension member, a spray tool member, and a spray tool. The platform is coupled to and positioned above the carriage. The platform has a length greater than and orthogonal to its width. The extension member is coupled to the platform and its longitudinal axis is parallel to the platform's length. The spray tool member's back end is coupled to the extension member's front end. The spray tool is coupled to the spray tool member's front end and includes a first nozzle oriented in a first direction, a second nozzle oriented in the first direction and positioned in line with the first nozzle, a third nozzle oriented in a second direction and positioned between and offset from the first and second nozzles, and a fourth nozzle oriented in a third direction and positioned between and offset from the first and second nozzles.

A rotary milking parlor controlled that uses a set of sensors generating sensor signals that determine whether or not an entity is located at a hazardous position of the rotary milking parlor, and a central control unit, where each sensor in the set of sensors generates first and second independent signals, the first and second signals conveyed separately via respective first and second signal lines to the central control unit, and the rotary milking parlor controlled to be operated only if both the first and second signals of all sensors in the set of sensors indicate that no entity is deemed to be located at a hazardous position.

The invention relates to a milking parlor arrangement (1), in particular a milking carousel, comprising at least one milking parlor (3) for milking milk-producing animals (T) and comprising an inner robot device with at least one robot arm (9). The at least one milking parlor (3) comprises two longitudinal sides and two narrow sides, namely a head narrow side and a hindquarters narrow side, one narrow side being paired with the head side of a milk-producing animal (T) to be milked as the head narrow side. The milking parlor also comprises an arm device (6) with a milking machine (5), said arm device being adjustable between a parked position and a working position and back. The at least one robot arm (9) is arranged on the head narrow side paired with the head side of the animal (T) to be milked of the at least one milking parlor (3) of the milking parlor arrangement (1) in order to adjust the arm device (6).