The present invention provides a rubber teat element which, on account of the radial expandability of the head part, is able to adapt to different teat geometries, in particular in the case where an animal has small, thin and short teats. A teat cup and a milking cluster with a corresponding rubber teat element are also provided.

The present invention provides a rubber teat element which, on account of the radial expandability of the head part, is able to adapt to different teat geometries, in particular in the case where an animal has small, thin and short teats. A teat cup and a milking cluster with a corresponding rubber teat element are also provided.

A milking system for milking a milking animal includes a teatcup for fitting on a teat of the milking animal, and a measuring chamber connected directly and rigidly thereto. The teatcup has a longitudinal direction, and a first milk outflow orifice for milk outflow parallel to the longitudinal direction. The measuring chamber has a peripheral wall, a milk inlet in fluid communication therewith, a second milk outflow orifice to a milk tube, a vacuum outlet, and a sensor device for determining a property of the milk in the measuring chamber. In a plane perpendicular to the longitudinal direction, the measuring chamber has a first inside diameter in a first direction, and a smaller second diameter in a perpendicular second direction.

A milking system for milking a milking animal includes a teatcup for fitting on a teat of the milking animal, and a measuring chamber connected directly and rigidly thereto. The teatcup has a longitudinal direction, and a first milk outflow orifice for milk outflow parallel to the longitudinal direction. The measuring chamber has a peripheral wall, a milk inlet in fluid communication therewith, a second milk outflow orifice to a milk tube, a vacuum outlet, and a sensor device for determining a property of the milk in the measuring chamber. In a plane perpendicular to the longitudinal direction, the measuring chamber has a first inside diameter in a first direction, and a smaller second diameter in a perpendicular second direction.

The present invention relates to preparing dairy animal teats for being milked, and more particularly to teat preparation, rinsing, and milking that all take place in a milking machine teat cup liner. Such a method includes: applying a teat sanitizer to the teat; injecting air into the liner to force the teat sanitizer toward a waste milk line connected to the liner; pulsating the liner at a first pulsation rate; drawing a rinsing milk from the teat; directing the teat sanitizer, the air, and the rinsing fluid to the waste milk line; pulsating the liner at a second pulsation rate to draw additional milk from the teat; and directing the additional milk to a good milk line.

The present invention relates to preparing dairy animal teats for being milked, and more particularly to teat preparation, rinsing, and milking that all take place in a milking machine teat cup liner. Such a method includes: applying a teat sanitizer to the teat; injecting air into the liner to force the teat sanitizer toward a waste milk line connected to the liner; pulsating the liner at a first pulsation rate; drawing a rinsing milk from the teat; directing the teat sanitizer, the air, and the rinsing fluid to the waste milk line; pulsating the liner at a second pulsation rate to draw additional milk from the teat; and directing the additional milk to a good milk line.

A method of operating a robotic attacher, comprises extending a robotic attacher between the legs of a dairy livestock. The method further comprises 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 further comprises 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.

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 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.

Apparatus and methods for a dairy harvesting facility including valves and valve assemblies that prevent contaminants from reaching a central milk collection system.