In order to avoid negative changes in the teat ends of a cow, in particular to avoid hyperkeratoses, the invention proposes a method for operating a milking system in which at least one of the parameters from total pressure per cycle, minimum total pressure per cycle or the ratio of total suction to total pressure is determined for at least one animal of a herd during at least one part of a milking process, and is compared with at least one reference value.

A system for milking a group of animals, in particular cows, comprises an accommodation space for the animals, and several fixed milking stations. The milking stations each comprise an opening for entry of the animal from the accommodation space. The system comprises an automatic milking system for automatic milking of animals in the milking stations. The milking system is configured to automatically milk the animal based on the milking animal fulfilling a predefined milking criterion. The system comprises no expulsion means and/or attraction means which can be activated by a control unit to give stimulus for the animal to leave said milking station. The system is also configured to allow animals to enter the milking stations irrespective of whether said animals fulfil the milking criterion.

A milking device including at least one milking cup with a teat space and a pulsation space, a pulsator connected by a pulsation line to the pulsation space of the milking cup and provided with a vacuum source, a vacuum line provided with a first controllable valve between the vacuum source and the pulsation line, an aeration line provided with a second controllable valve between the pulsation line and a source of higher pressure, and a pulsator control system for the first and second valves. The pulsator control system includes a flushing mode for opening and holding open the first and second valves during at least a predefined flushing time which is at least as long as the pulsation period.

A milking device including at least one milking cup with a teat space and a pulsation space, a pulsator connected by a pulsation line to the pulsation space of the milking cup and provided with a vacuum source, a vacuum line provided with a first controllable valve between the vacuum source and the pulsation line, an aeration line provided with a second controllable valve between the pulsation line and a source of higher pressure, and a pulsator control system for the first and second valves. The pulsator control system includes a flushing mode for opening and holding open the first and second valves during at least a predefined flushing time which is at least as long as the pulsation period.

A short milk tube for extending between a milker teat cup and liner assembly and a milker unit and the short milk tube includes a vent seat having an outwardly extending protective vent plug lip, and a stiffener at least partially surrounding the vent seat to control bending of the short milk tube.

A short milk tube for extending between a milker teat cup and liner assembly and a milker unit and the short milk tube includes a vent seat having an outwardly extending protective vent plug lip, and a stiffener at least partially surrounding the vent seat to control bending of the short milk tube.

A connector configured for receiving a cartridge for forming a teatcup where the cartridge includes an elongated sleeve and a barrel pre-mounted in the elongated sleeve and having an inner space for receiving a teat and the connector includes a lower base member and a shell extending from the lower base member and surrounding a receiving space for receiving the cartridge, the lower base member and the shell foringm one piece of a plastic material, and the shell being configured to extend along an axial length of the elongated sleeve at least to the upper end of the sleeve when the cartridge is received in the connector.

A connector configured for receiving a cartridge for forming a teatcup where the cartridge includes an elongated sleeve and a barrel pre-mounted in the elongated sleeve and having an inner space for receiving a teat and the connector includes a lower base member and a shell extending from the lower base member and surrounding a receiving space for receiving the cartridge, the lower base member and the shell foringm one piece of a plastic material, and the shell being configured to extend along an axial length of the elongated sleeve at least to the upper end of the sleeve when the cartridge is received in the connector.

A milking apparatus is described that includes a longitudinally extending liner made from a resiliently deformable material. The liner is mounted on a rigid support shell. The liner comprises an outer hood configured to lie over an outer surface of the rigid support shell, and an inner barrel configured to be disposed within the rigid support shell and to define an internal volume. The inner barrel extends in the longitudinal direction away from an opening at a first end of the liner, through which opening an animal teat is insertable into the internal volume. The inner barrel is connected to the outer hood at a plurality of longitudinally extending connection regions on an inner surface of the outer hood. These connections define boundary conditions that limit the deformation of the barrel that encloses the teat can be set by the configuration of the liner itself.

A milking apparatus is described that includes a longitudinally extending liner made from a resiliently deformable material. The liner is mounted on a rigid support shell. The liner comprises an outer hood configured to lie over an outer surface of the rigid support shell, and an inner barrel configured to be disposed within the rigid support shell and to define an internal volume. The inner barrel extends in the longitudinal direction away from an opening at a first end of the liner, through which opening an animal teat is insertable into the internal volume. The inner barrel is connected to the outer hood at a plurality of longitudinally extending connection regions on an inner surface of the outer hood. These connections define boundary conditions that limit the deformation of the barrel that encloses the teat can be set by the configuration of the liner itself.