A docking device, for a milking parlor with a rotary platform and a plurality of milking stalls, includes a first docking unit with a part of a first milk line connected to the platform and a second docking unit with a part of a second milk line separately arranged from the platform. At least one of the docking units includes an adjusting mechanism allowing an adjustment of a position of said docking unit in relation to the other docking unit. At least one of the docking units is associated with a guiding surface configured to guide the other docking unit during the movement in order to reach the docking position in which a closed connection is provided between the outlet opening of the first docking unit and the inlet opening of the second docking unit.

A farm system comprising a plurality of smart tags which are each configured to be worn by an animal, a transmitter and receiver unit for wireless communication with the smart tag, one control unit which is communicatively connected to the transmitter and receiver unit and a farm unit which can be controlled by the control unit. Each smart tag comprises at least one sensor and is configured for wirelessly transmitting information obtained by one of the sensors to the transmitter and receiver unit, wherein the transmitter and receiver unit is configured for supplying the received information to the control unit and wherein the control unit is configured for processing the received information and, at least on the basis of this processed information, controlling at least a farm unit and/or generating a report signal for indicating to a user of the system that an activity is to be carried out.

A farm system comprising a plurality of smart tags which are each configured to be worn by an animal, a transmitter and receiver unit for wireless communication with the smart tag, one control unit which is communicatively connected to the transmitter and receiver unit and a farm unit which can be controlled by the control unit. Each smart tag comprises at least one sensor and is configured for wirelessly transmitting information obtained by one of the sensors to the transmitter and receiver unit, wherein the transmitter and receiver unit is configured for supplying the received information to the control unit and wherein the control unit is configured for processing the received information and, at least on the basis of this processed information, controlling at least a farm unit and/or generating a report signal for indicating to a user of the system that an activity is to be carried out.

A camera cleaning system and method for a milking system which includes a rotating platform, plural milking stalls thereon, a robot for performing an animal related operation with respect to the animals in the milking stalls passing by the robot, and a camera in response to signals from which the robot moves, the camera cleaning system includes usage identifying arrangement to identify a future usage demand of the camera; a processing device to analyze the future usage demand of the camera to find at least one time slot when the camera is not to be used and which also occurs during certain conditions; and a cleaning arrangement arranged to clean the lens arrangement of the camera during the determined time slot.

A fluid measurement device and methods of manufacturing and using the same are disclosed. The fluid measurement device includes a conduit configured to transport a fluid, a conductivity sensor in the conduit, and a voltage sensor in the conduit and having first and second rings, probes, or plates. The conductivity sensor is configured to determine the conductivity of the fluid. The voltage sensor is configured to receive a first voltage on the first ring, probe, or plate and detect a capacitance or a second voltage on the second ring, probe, or plate. A value of the capacitance or second voltage corresponds to the amount of fluid in the voltage sensor. The total amount of fluid through the conduit may be determined from amount of fluid in the voltage sensor, the fluid flow rate, the fluid velocity, and the number of samples or the sampling rate.

A fluid measurement device and methods of manufacturing and using the same are disclosed. The fluid measurement device includes a conduit configured to transport a fluid, a conductivity sensor in the conduit, and a voltage sensor in the conduit and having first and second rings, probes, or plates. The conductivity sensor is configured to determine the conductivity of the fluid. The voltage sensor is configured to receive a first voltage on the first ring, probe, or plate and detect a capacitance or a second voltage on the second ring, probe, or plate. A value of the capacitance or second voltage corresponds to the amount of fluid in the voltage sensor. The total amount of fluid through the conduit may be determined from amount of fluid in the voltage sensor, the fluid flow rate, the fluid velocity, and the number of samples or the sampling rate.

An apparatus and method for cleaning milking stalls on a platform of a rotary parlour. The rotary parlour includes a robotic manipulation device configured to perform a primary task; a holding device configured to hold the end portion of the hose member in a predetermined parking position, and a control unit. When it is time to clean a milking stall on the platform, the control unit activates the robotic manipulation device such that, instead of performing a primary task, the robotic manipulation device performs an additional task in which the robotic manipulation device grips the end portion of a hose member and moves the end portion from a parking position to a number of cleaning positions from which liquid jets are sprayed from the outlet opening of the end portion against predetermined surfaces to be cleaned in the milking stall.

A milking system includes one or more milking devices and a control unit. The system is provided with a plurality of milking cups, a first milk jar for receiving the milking, a first pumping device for pumping the milking, a second milk jar for receiving the milking from the first milk jar, a second pumping device for pumping at least a part of the milking, and at least one storage tank for storing at least a part of the milking. The second pumping device pumps the milking at a lower flow rate than that at which the first pumping device pumps the milking. As a result, the milk is for the most part moved with low mechanical load and little admixture with air which improves milk quality. In the case of a plurality of milking devices in the milking system, various milkings can be moved and treated separately.

A milking system includes one or more milking devices and a control unit. The system is provided with a plurality of milking cups, a first milk jar for receiving the milking, a first pumping device for pumping the milking, a second milk jar for receiving the milking from the first milk jar, a second pumping device for pumping at least a part of the milking, and at least one storage tank for storing at least a part of the milking. The second pumping device pumps the milking at a lower flow rate than that at which the first pumping device pumps the milking. As a result, the milk is for the most part moved with low mechanical load and little admixture with air which improves milk quality. In the case of a plurality of milking devices in the milking system, various milkings can be moved and treated separately.

A method is provided for a milking system including a moving device, milking stalls each provided with teat cups, an automatic teat cup attachment system, and an automatic teat cup returning system configured to return the teat cups to default storage positions subsequent to the milking. Current positions of the teat cups are, for each of the milking stalls, sensed after the teat cup returning system withdraws the teat cups, but before the automatic teat cup attachment system fetches the teat cups. The sensed positions of the teat cups are, for each of the milking stalls, compared with the default storage positions to determine whether the sensed current positions of the teat cups deviate from the default storage positions by at least a specified distance, and an action is performed when the sensed positions deviate from the default storage positions by at least the specified distance.