A control unit (240) and configuration tag (125) of a milk analysis apparatus (120) includes a first wireless communication device (310), for communication with a memory device (330) of the configuration tag. The configuration tag is applicable to the milk analysis apparatus and includes a reference sign (115) of a milk extracting arrangement (110) to which the milk analysis apparatus is intended to work in conjunction with. The communication is made via a second wireless communication device (320) comprised in the configuration tag. The control unit (340) is configured to retrieve, via the first wireless communication device, configuration data of the milk extracting arrangement that the milk analysis apparatus is intended to operate in conjunction with, from the memory device of the configuration tag; and to configure the control unit, based on the retrieved configuration data of the milk extracting arrangement.

A rotary milking platform (3) comprises a plurality of stalls (5) and an RFID animal identifying system (9) for identifying animals entering the stalls (5) of the platform (3). A microprocessor (14) reads signals from an image capturing device (15) and computes a feature vector from the captured image of each animal. A plurality of reference feature vectors comprising respective matrices of metrics already derived from images of the respective animals captured by the image capturing device (15) are stored and cross-referenced with the identity of the respective animals. The microprocessor (14) compares computed feature vectors of each animal with the stored reference feature vectors until a best match has been determined with one of the reference feature vectors. The identity of the animal of that matching reference feature vector is then determined as the identity of the animal of that computed feature vector. The determined identity of the animal in the relevant stall (5) is compared with the identity of the animal determined for that stall (5) by the RFID system (9). On a favourable comparison the identity of the animal determined from the captured image of that animal is confirmed as the identity of the animal. In the event of a conflict between the two identities being determined, a conflict alert signal is produced.

Control unit (240) and cassette (130) of a milk analysis apparatus (120) comprising a first wireless communication device (210), for communication with a memory device (230) of a cassette (130) via a second wireless communication device (220) comprised in the cassette (130). The cassette (130) is insertable into the milk analysis apparatus (120) and comprises a predetermined number of milk analysis units (260a, 260b, 260c) for one-time usage. The control unit (240) is configured to determine a number of consumed milk analysis units (260a, 260b, 260c) during a milk analysis session; and transmit information related to the consumed number of milk analysis units (260a, 260b, 260c) during the milk analysis session, to the memory device (230) of the cassette (130), via the first wireless communication device (210), for storage in the memory device (230) of the cassette (130).

A milking system with a milking device, a milking control, a milk line in fluid connection with the milking device, and a sampling and analysis device to take a sample of the milk from the milk line and to analyse milk from the sample are disclosed. The milking control is arranged to control the milking device on the basis of the analysis. The sampling and analysis device includes a control unit, a tape reel provided with a tape that is lengthwise provided with a series of consecutive reagent pads that provide a detectable response in the presence of a substance in the sample, a tape mover to move the tape, a dosing device to supply a part of the sample onto a reagent pad on the tape, and a camera to obtain an image of the reagent pad supplied with the droplet, and an analysis device to analyse the obtained images to provide to the milking control device an indication of a presence or concentration of said substance. The camera has a field of view that contains a plurality of reagent pads of the series of consecutive reagent pads. This allows to observe the reaction in the reagent pad for a much longer time. In turn, this allows to use much less reagent material, such as expensive enzymes, in the pads. It is particularly useful when observing double layer reagent types.

A milking system includes a milking device, a milk line, and a sampling and analysis device for milk from the milk line, that includes a control unit, a carrier with reagent pads to detect a substance in the sample, a dosing device to dose a sample onto a reagent pad, an sensor device to detect radiation from that reagent pad, and to analyse the detected radiation to indicate a presence or concentration of said substance. The dosing device includes a nozzle with a supply line, a pump for pumping liquid to the nozzle, a flat wall part, and a mover to press the flat wall part and the nozzle against each other to close the nozzle. In this way, the nozzle can be filled completely to a known level and without bubbles. Thereafter, the sample pump can provide a sample droplet with known volume, which enables better control over the sample supply process.

A free dome range (FDR) where dairy animals have a free access to their stall to concurrently eat and to be milked. The FDR comprises a plurality of stalls; at least one of these stalls is characterized by a front side and rear opposite side into which a dairy animal is at least temporarily accommodated, head fronting the front side; a plurality of main living areas (MLAs); at least one of the MLAs is in connection with at least one of the stalls by a plurality of gates. The FDR further comprising a substantially horizontally positioned elevated rail system comprising a plurality of elevated rails, and a plurality of mobile milking units (MMUs), each of the MMUs is configured to transport on the elevated rail to a dairy animal at its stall, and milk the animal while it is eating.

A robotic milking system includes a milking control, a milk line, and a sampling and analysis device for the milk, wherein the milking control controls the robotic milking device based on the analysis of the milk sample. The sampling and analysis device includes a control unit, a tape reel with a tape with reagent pads that detect the presence of a substance in the sample, a tape mover, a dosing device to provide a sample onto a reagent pad, a camera to image of the reagent pad with said sample, and to analyse the images to indicate a presence or concentration of said substance. The lengthwise consecutive substantially rectangular reagent pads are separated by a hydrophobic line, and the control unit recognises said line in the image and determines a position thereof. The control unit controls the tape mover on the basis of the obtained image and line position.

A method of producing a reagent tape, that includes a base tape layer and a series of consecutive and separate reagent pads of a reagent, is provided for use in a milk sampling device. The milk sampling device is arranged to supply a droplet of a milk sample onto one of the reagent pads on the tape in order to produce a response in the reagent to detect a presence or concentration of a substance in the milk sample. The method includes providing the base tape layer of the reagent tape, applying onto the base tape layer a continuous layer of the reagent, dividing the supplied continuous reagent layer into separate reagent pads by providing a hydrophobic barrier line between said pads. This may be done by laser ablating thin lines of reagent material, or by providing additional hydrophobic material into the layer. Thus, a simple and fast way of providing a tape with pads is obtained, in which a narrow spacing between pads is possible. A tape made by the method, and a milking device with a sampling device with such a tape are disclosed.

A milking system includes a milking device with a milking control, a milk line, and a sampling/analysis device. The milking control controls the milking based on said analysis. The sampling/analysis device includes a reagent carrier, including a tape with a first side with a reagent pad that detects the presence of a substance in the milk sample and a second side, a dosing device to provide a droplet of said sample onto the reagent pad, a source for emitting source radiation onto the reagent pad, and a sensor to detect response radiation emitted by the reagent pad, and to analyse the detected response radiation to indicate the presence or concentration of said substance. The first side faces away from the sensor during analysing by the sensor. By viewing “from below”, the observed reaction in the reagent is cleaner, and suffers less from artefacts, and the camera will stay cleaner.

A milking system includes a milking device, a milk line, and a sampling and analysis device for the milk that includes a control unit, a tape mover to move and unwind a tape wound on a tape reel and with a base material with reagent pads, that detect a substance in the sample, and a dosing device to provide the sample onto a reagent pad, and a sensor to detect radiation from said reagent pad, and to analyse the detected radiation to indicate a presence or concentration of said substance. The reagent pad is facing downward during provision of the sample. In this way, the chance of excess liquid falling from the reagent, and possibly onto a camera, is reduced. Smaller reagent pads may be used, it reduces the chance of supplied liquid spilling over to a neighbouring reagent pad, the measures preventing this spilling may be limited, and it is easier to suck away excess fluid.