An implement for automatically milking a dairy animal, such as a cow, comprises a milking parlour, a sensor for observing a teat, and a milking robot for automatically attaching a teat cup to the teat. The milking robot comprises a robot control that is connected to the sensor. The sensor comprises a radiation source for emitting light, a receiver for receiving electromagnetic radiation reflected from the dairy animal, a lens, and sensor control unit. The sensor comprises a matrix with a plurality of rows and a plurality of columns of receivers. The sensor control unit is designed to determine for each of the receivers a phase difference between the emitted and the reflected electromagnetic radiation in order to calculate the distance from the sensor to a plurality of points on the part to be observed of the dairy animal.

An implement for automatically milking a dairy animal, such as a cow, comprises a milking parlour, a sensor for observing a teat, and a milking robot for automatically attaching a teat cup to the teat. The milking robot comprises a robot control that is connected to the sensor. The sensor comprises a radiation source for emitting light, a receiver for receiving electromagnetic radiation reflected from the dairy animal, a lens, and sensor control unit. The sensor comprises a matrix with a plurality of rows and a plurality of columns of receivers. The sensor control unit is designed to determine for each of the receivers a phase difference between the emitted and the reflected electromagnetic radiation in order to calculate the distance from the sensor to a plurality of points on the part to be observed of the dairy animal.

A milking robot for completely automatically performing a teat-related action on a dairy animal. The robot includes a frame with a movable arm structure and a robot arm and actuators, a teat cup, a flexible connecting means connected between the teat cup and the arm structure, a retracting device for pulling the teat cup back onto the arm structure by means of the connecting means, a vacuum device for applying a milking vacuum to the teat cup, and a control unit for controlling the milking robot. The robot further includes at least one of an arm structure position-determining device for determining a measured value relating to an arm structure position, and an arm structure acceleration-determining device for determining an arm structure acceleration. The control unit is configured to control the retracting device and/or the vacuum device, if the determined measured value satisfies a predetermined measured value criterion.

A milking robot for completely automatically performing a teat-related action on a dairy animal. The robot includes a frame with a movable arm structure and a robot arm and actuators, a teat cup, a flexible connecting means connected between the teat cup and the arm structure, a retracting device for pulling the teat cup back onto the arm structure by means of the connecting means, a vacuum device for applying a milking vacuum to the teat cup, and a control unit for controlling the milking robot. The robot further includes at least one of an arm structure position-determining device for determining a measured value relating to an arm structure position, and an arm structure acceleration-determining device for determining an arm structure acceleration. The control unit is configured to control the retracting device and/or the vacuum device, if the determined measured value satisfies a predetermined measured value criterion.

An implement for automatically milking a dairy animal, such as a cow, comprises a milking parlour, a sensor for observing a teat, and a milking robot for automatically attaching a teat cup to the teat. The milking robot comprises a robot control that is connected to the sensor. The sensor comprises a radiation source for emitting light, a receiver for receiving electromagnetic radiation reflected from the dairy animal, a lens, and sensor control unit. The sensor comprises a matrix with a plurality of rows and a plurality of columns of receivers. The sensor control unit is designed to determine for each of the receivers a phase difference between the emitted and the reflected electromagnetic radiation in order to calculate the distance from the sensor to a plurality of points on the part to be observed of the dairy animal.

An implement for automatically milking a dairy animal, such as a cow, comprises a milking parlour, a sensor for observing a teat, and a milking robot for automatically attaching a teat cup to the teat. The milking robot comprises a robot control that is connected to the sensor. The sensor comprises a radiation source for emitting light, a receiver for receiving electromagnetic radiation reflected from the dairy animal, a lens, and sensor control unit. The sensor comprises a matrix with a plurality of rows and a plurality of columns of receivers. The sensor control unit is designed to determine for each of the receivers a phase difference between the emitted and the reflected electromagnetic radiation in order to calculate the distance from the sensor to a plurality of points on the part to be observed of the dairy animal.

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.

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).

A milking system for milking a dairy animal comprises teat cups, a robot arm with actuators, for connecting the teat cups to teats of the dairy animal, and a control device in order to reach and/or maintain a desired position of the robot arm, by adjustment of a respective adjusting force parameter exerted by the actuators. The control device is configured to adjust a selectable compliance of the robot arm, wherein the compliance is a reaction of the robot arm to an external force which is exerted on the robot arm, such as a kick. This compliance is a function of the external force or of an animal identity. Thus, the behaviour of the robot arm can be adapted, such as, under otherwise unchanged circumstances, more or earlier yielding in the case of sensitive animals, and, conversely, less in the case of playful animals.