A milking robot comprises a robotic arm, a camera coupled to the robotic arm, a camera-facing nozzle coupled to the robotic arm, and a controller. The robotic arm extends in a longitudinal direction between the hind legs and from the rear of a dairy livestock located in a milking stall. The camera-facing nozzle sprays a protective layer of the camera with a cleanser. The controller communicates a signal instructing the camera-facing nozzle to spray the camera with cleanser.

A method of operating a robotic attacher, includes suspending a robotic attacher from a rail and extending the robotic attacher between the legs of a dairy livestock. The method continues by attaching milking equipment to the dairy livestock using a gripping portion of the robotic attacher during a milking operation, wherein the gripping portion has a nozzle that is positioned away from a teat of the dairy livestock during the milking operation. The method concludes by rotating the gripping portion of the robotic attacher so that the nozzle is positioned to face a teat of the dairy livestock during a spraying operation.

The invention relates to a conduit for transferring milk. The conduit is provided with at least one flexible wall, which divides the conduit into at least one milk duct and at least one secondary duct. The milk duct and the at least one secondary duct extend along a longitudinal axis of the conduit, it being possible for the at least one milk duct to be substantially emptied by pressing through filling the at least one secondary duct.

The invention relates to a conduit for transferring milk. The conduit is provided with at least one flexible wall, which divides the conduit into at least one milk duct and at least one secondary duct. The milk duct and the at least one secondary duct extend along a longitudinal axis of the conduit, it being possible for the at least one milk duct to be substantially emptied by pressing through filling the at least one secondary duct.

A method for milking is provided in a milking system which includes a milking machine having a plurality of teat cups, which teat cups are attached to, and detached from, teats of animals as part of the milkings of the animals. The method determines whether an animal, which presents itself at the milking system, has a regular milking permission and when the animal has a regular milking permission the animal is milked in a regular milking procedure. When the animal does not have a regular milking permission, the method determine whether the animal has at least one udder compartment that was incompletely milked last time the animal was milked, and provided that the animal has at least one udder compartment that was incompletely milked last time the animal was milked, the animal is given a partial milking permission and the animal is milked in a partial milking procedure, wherein the regular and partial milking procedures differ from one another with respect to the procedure for the attachment of the teat cups to, and/or detachment of the teat cups from, the teats of the animal.

A robotic attacher comprises a main arm, a supplemental arm coupled to the main arm, and a gripping portion coupled to the supplemental arm. The gripping portion is operable to rotate such that at a first time, a nozzle is positioned generally on the bottom of the gripping portion, and at a second time, the nozzle is positioned generally on the top of the gripping portion.

A milker unit liner dome having an inner surface and flow diverters joined to the inner surface to redirect teat dip from an inlet to provide more uniform coverage of dip on a teat. The liner dome can also include more than one flow diverter for redirecting teat dip flow.

A robotic apparatus for treatment of at least one body part of an animal including a device that treats the body part, a device that detects the body part, a robot arm including a plurality of robot arm parts and a plurality of hydraulic actuators for mutually displacing and positioning of the robot arm parts, at least two of the plurality of hydraulic actuators being independently controlled electro-hydraulic actuators, and a controller configured to control the hydraulic actuators to assist the robot arm in bringing the robot arm part having a treatment device to the body part in response to feedback from the detection device.

A system includes a robotic arm positioned in an equipment area of a milking box that includes a stall portion housing a dairy livestock with four teats. The robotic arm retrieves a cup, and for a plurality of teats of the dairy livestock, the robotic arm attaches the cup to a teat, detaches the cup from the teat, and maintains the cup within the stall portion of the milking box from the time that the cup is attached to a first teat of the dairy livestock through the time that the cup is attached to a last teat of the dairy livestock. The cup is retracted into the equipment portion of the milking box after it is detached from the last teat of the dairy livestock.

The invention relates to a device (1) for analysing a cleaning fluid, comprising: a line portion (2) for the cleaning fluid, a light-source unit (4), which emits light into the line portion (2), a detection unit (5) for spectrally resolved capturing of light exiting the line portion (2), and an analysis unit (6) which is designed to analyse the cleaning fluid with regard to the constituents on the basis of signals from the detection unit (5).