A system for milking a group of milking animals includes a stationary animal accommodation space having a fixed floor, a plurality of milking stations, and an animal-free space which is closed for the milking animals in the accommodation space and extends adjacent to the milking stations. The system also includes an automatic milking system that includes milking cups and a robot device movable relative to the milking stations, the milking cups being connectable automatically to the teats of a milking animal present in the milking station. The system further includes a milk discharge system having at least one flexible milk line that connects the milking cups to a milk storage tank. The flexible milk line is configured so that the robot device can move from the animal-free space into each of the milking stations while the milk line remains connected to the robot device.

A method for milking and managing a herd of dairy animals by at least attributing an insemination suitability status, the method includes, for each dairy animal, milking the dairy animal by means of a milking device, with a controller. By means of the controller, using a measuring device, determining at least one parameter value PV.sub.i related to the milking. By means of the controller, calculating an index value V of the dairy animal with respect to the herd of dairy animals on the basis of PV.sub.i and an average parameter value PV.sub.hi for the herd of dairy animals, which index value V indicates a value ranking order in the herd, and if the index value of the dairy animal fulfils a predefined criterion, automatically by means of the controller attributing to the dairy animal the insemination suitability status “inseminate no longer”.

A method for milking and managing a herd of dairy animals by at least attributing an insemination suitability status, the method includes, for each dairy animal, milking the dairy animal by means of a milking device, with a controller. By means of the controller, using a measuring device, determining at least one parameter value PV.sub.i related to the milking. By means of the controller, calculating an index value V of the dairy animal with respect to the herd of dairy animals on the basis of PV.sub.i and an average parameter value PV.sub.hi for the herd of dairy animals, which index value V indicates a value ranking order in the herd, and if the index value of the dairy animal fulfils a predefined criterion, automatically by means of the controller attributing to the dairy animal the insemination suitability status “inseminate no longer”.

A tiered, modular agriculture system includes a livestock module at ambient ground level and a second module having a second interior microclimate elevated with respect to the livestock module. The second module receives air from the livestock module by way of a noncorrodible, graduated slope, heat collection duct. Each module has an interior microclimate.

A method and control unit for controlling a moveable crowd gate of a holding area at an entrance of a milking parlour at a farm where the control unit obtains information from at least one sensor regarding animals present in the holding area, determines a stress level among the animals in the holding area, based on the obtained information, and controls movement of the crowd gate, via an actuator configured to adjust position of the moveable crowd gate, based on the determined stress level.

A method and control unit for controlling a moveable crowd gate of a holding area at an entrance of a milking parlour at a farm where the control unit obtains information from at least one sensor regarding animals present in the holding area, determines a stress level among the animals in the holding area, based on the obtained information, and controls movement of the crowd gate, via an actuator configured to adjust position of the moveable crowd gate, based on the determined stress level.

A method and apparatus (3) for operating a rotary milking platform (1) to maximise the number of animals milked per unit time. The milking platform (1) is rotated about a central vertical axis (4) by a variable speed motor (6), and comprises a plurality of animal accommodating locations (5) for the animals being milked. An entry position (7) and an exit position (9) accommodate animals to and from the platform (1). A position sensor (10) monitors the angular position of the platform (1). An RFID sensor (12) reads the identity of animals entering the platform (1). Historical data relating to milking time per milking session and the milk yield per animal per session is stored in an electronic memory (17). A microprocessor (15) reads signals from flow meters (14) which monitor the milk flow from milking clusters of each animal accommodating location (5). The microprocessor (15) is configured as each animal enters the platform (1) to compute an optimum angular velocity for the platform (1) in order to maximise the number of animals milked per unit time. The optimum angular velocity is computed as a function of the historical data of each animal on the platform (1), and the current milk yield of each animal on the milking platform (1) determined from the flow meter (14).

The present invention discloses, inter alia, a free dome range system (FDR) comprising at least one front elevated rail (FER); at least one rear elevated rail (RER); a plurality of mobile units, each of the plurality of mobile units movable along a member of a group consisting of: the at least one FER, the least one RER and any combination thereof. The invention also discloses a method of positioning at least one of a plurality of mobile units in an FDR comprising steps of providing a free dome range system (FDR) comprising at least one front elevated rail (FER); at least one rear elevated rail (RER); and the plurality of mobile units, each of the plurality of mobile units movable along a member of a group consisting of: the at least one FER, the least one RER and any combination thereof. The present invention further discloses a dairy farm characterized by (a) an array of n stalls side-by-side along an X axis on the dairy animal's level. Each of the stalls is configured by means of size and shape to accommodate a dairy animal, having a main axis Y that is substantially perpendicular to axis X, a front side and an opposite rear side; and (b) a common elevated road surface provided on a higher level, above the stalls. This upper road surface extends along the X axis and is constructed to allow free passage of mobile units, including mobile longitudinal milking units, in a direction along the X axis, along the Y axis, a rotation about the X axis, a rotation about the Y axis, a rotation about the Z axis, and any combination thereof. The present invention further discloses means and method that in a stall, a gate located between the animal and the feeding line is thereby configured to at least temporarily prevent or otherwise limit free access of said animal to its feed.

The present invention discloses, inter alia, a free dome range system (FDR) comprising at least one front elevated rail (FER); at least one rear elevated rail (RER); a plurality of mobile units, each of the plurality of mobile units movable along a member of a group consisting of: the at least one FER, the least one RER and any combination thereof. The invention also discloses a method of positioning at least one of a plurality of mobile units in an FDR comprising steps of providing a free dome range system (FDR) comprising at least one front elevated rail (FER); at least one rear elevated rail (RER); and the plurality of mobile units, each of the plurality of mobile units movable along a member of a group consisting of: the at least one FER, the least one RER and any combination thereof. The present invention further discloses a dairy farm characterized by (a) an array of n stalls side-by-side along an X axis on the dairy animal's level. Each of the stalls is configured by means of size and shape to accommodate a dairy animal, having a main axis Y that is substantially perpendicular to axis X, a front side and an opposite rear side; and (b) a common elevated road surface provided on a higher level, above the stalls. This upper road surface extends along the X axis and is constructed to allow free passage of mobile units, including mobile longitudinal milking units, in a direction along the X axis, along the Y axis, a rotation about the X axis, a rotation about the Y axis, a rotation about the Z axis, and any combination thereof. The present invention further discloses means and method that in a stall, a gate located between the animal and the feeding line is thereby configured to at least temporarily prevent or otherwise limit free access of said animal to its feed.

A milking arrangement includes plural milking places, each milking place having a primary end and an opposite secondary end, an entrance at the primary end, a front side and a rear side, which both extend in parallel with the longitudinal axis, a plurality of sequence gates arranged between the front side and the rear side, each of the sequence gates being pivotable between a closed position and an open position, each sequence gate being only pivotable from its closed position to its open position in a pivotation direction in which the front end is pivoted into a milking place towards the front side of the milking arrangement, main extension planes of the sequence gates being aligned when the sequence gates are in their closed position, with a lower edge of each sequence gate defining a bulge that extends downwards.