A device suitable for attachment to a milking platform at a milking position has a strippings viewing area and a light source, which is operable to illuminate in a suitable manner the strippings viewing area to enhance the visibility to an operator of any mastitis symptoms in use and/or to illuminate the udder to facilitate inspection or treatment. The light source may also be operable to give continuous or intermittent colour signals to the operator and the device might also include an alpha-numeric area. The device might form part of a leg separator and/or sprayer and/or milk hose support. A milking platform with such a device is also claimed.

A system for operating a robotic arm, comprises a controller and a robotic arm. The controller accesses an image of the rear of dairy livestock located in a stall of a rotary milking platform and, in conjunction with the stall of the rotary milking platform in which a dairy livestock is located moving into an area adjacent a robotic arm, determines whether a milking cluster is attached to the dairy livestock based at least in part upon the image. The robotic arm is communicatively coupled to the controller and extends between the legs of the dairy livestock if the controller determines that the milking cluster is not attached to the dairy livestock. The robotic arm does not extend between the legs of the dairy livestock if the controller determines that the milking cluster is attached to the dairy livestock.

A method for applying disinfectant to the teats of a dairy livestock includes determining that a stall of a rotary milking platform housing a dairy livestock is located adjacent to a track that has a carriage carrying a robotic arm. The method continues by communicating a first signal that causes operation of a first actuator such that the carriage moves along the track in relation to the rotary milking platform and independent of any physical coupling between the carriage and the rotary milking platform and in a direction corresponding to a direction of rotation of the rotary milking platform. The method concludes by communicating one or more additional signals that causes operation of one or more actuators of the robotic arm such that at least a portion of the robotic arm extends between the hind legs of a dairy livestock.

A system that includes a robotic arm, a laser, a three-dimensional (3D) camera, and a processor. The processor is configured to send instructions to position the robotic arm adjacent to a dairy livestock, to send a signal that initiates scanning a portion of the dairy livestock, and to generate teat candidate position information based on the scan of the dairy livestock. The processor is further configured receive target teat information, identify a teat candidate within a teat location range of the target teat, and link the identified teat candidate with a teat identifier. The processor is further configured to send instructions to the robotic arm to move at least a portion of the robotic arm toward the target teat based on the teat candidate position information for the identified teat candidate that is linked with the teat identifier.

A vision system that includes a robotic arm and a three-dimensional (3D) camera operably coupled to a processor. The processor is configured to position the robotic arm adjacent to the dairy livestock and acquire a 3D image using the 3D camera. The processor is further configured to identify a set of teat candidates within the 3D image and to filter the set of teat candidates based on one or more filtering rules. The processor is further configured to determine an aggregate teat candidate score for the consolidated set of teat candidates, compare the aggregate teat candidate score to a score threshold value, and update teat location information for the dairy livestock in response to determining the aggregate teat candidate score is greater than or equal to the score threshold value.

Disclosed is a system for treating dairy livestock having fore legs and hind legs, wherein the system comprises a milking parlor ramp, livestock stalls positioned along at least part of the milking parlor ramp, wherein each stall is configured to contain one dairy livestock, at least one vertical upright teat cup holder comprising teat cups and a mobile unit. The mobile unit comprises equipment for treating livestock and a processor, where the mobile unit is configured to travel between the fore legs and hind legs of the dairy livestock on the milking parlor ramp and use the equipment to perform at least one action related to a treatment of the dairy livestock. Also disclosed is that the equipment includes an arm configured to withdraw the teat cups from the vertical upright teat cup holder and connect them to the dairy livestock.

Improving milking system performance through the incorporation of a source of greater than atmospheric pressure air into a pulsator while limiting total pressure in the teat cup. The system is further improved by providing an improved supply of regulated vacuum to the milking cluster throughout the milking process. The system is further improved with a monitoring and detecting the functional failure of the pulsation assemblies. Additional system improvements are provided with the addition of a fresh air valve assembly, a wireless method of regulating vacuum levels and the remote location of a pulsator assembly in a basement style parlor.

An animal hoof cleaning system that includes an automatic milking station, an automatic spraying device configured to clean at least one hoof of an animal housed in the automatic milking station by spraying a fluid towards the at least one hoof, a control unit that controls the operation of the automatic spraying device, and detecting means that detects a milking state wherein all the teats of the animal are enclosed in respective teat cups, where the control unit is configured to control the operation of the automatic spraying device on basis of information from the detecting means such that the automatic spraying device sprays on the hoof of the animal only when the detecting means detects the milking state.

A method for cooling milk in a milking arrangement, and a milk cooling apparatus of the milking arrangement that has a coolant circuit for heat exchange between milk and a coolant and a refrigerant circuit for heat exchange between a refrigerant and the coolant, where the method includes controlling the refrigerant circuit to maintain a predefined temperature range, receiving a first signal relating to commencement or increase of a milk flow from a milking system of the milking arrangement, starting or increasing circulation of coolant in the coolant circuit, and leading the milk flow through the milk cooling apparatus.

An animal hoof cleaning system that includes an automatic milking station, an automatic spraying device configured to clean at least one hoof of an animal housed in the automatic milking station by spraying a fluid towards the at least one hoof, a control unit that controls the operation of the automatic spraying device, and detecting means that detects a milking state wherein all the teats of the animal are enclosed in respective teat cups, where the control unit is configured to control the operation of the automatic spraying device on basis of information from the detecting means such that the automatic spraying device sprays on the hoof of the animal only when the detecting means detects the milking state.