An apparatus includes a carriage, platform, extension member, brush tool member, brush tool, and controller. The carriage is coupled to and moves along a track. The platform has a length orthogonal to and greater than its width and transverse to the lateral direction when in an operational state. The platform pivots such that its front and back ends move vertically in opposite directions. The extension member is movably coupled to the platform and its longitudinal axis is parallel to the platform's length. The back end of the brush tool member is coupled to the front end of the extension member. The brush tool is coupled to the front end of the brush tool member. The controller configured moves the extension member towards the front end of the platform such that a portion of the brush tool extends beyond the front end of the platform.

A system that includes a robotic arm, a laser, a memory, and a processor. The processor is configured to position the laser adjacent to a dairy livestock and to modify teat location information for one or more teats of the dairy livestock based on a robot position offset between the dairy livestock and the robotic arm. The processor is further configured to generate a teat position associated with an unknown teat based on a scan of the dairy livestock and to determine a position distances between the teat position and teats of the dairy livestock. The processor is further configured to identify a teat of the dairy livestock with the smallest position distance, to associate a teat identifier for the unknown teat with the identified teat, and to store the association in the memory.

A system that includes a robotic arm, a laser, a memory, and a processor. The processor is configured to position the laser adjacent to a dairy livestock and to modify teat location information for one or more teats of the dairy livestock based on a robot position offset between the dairy livestock and the robotic arm. The processor is further configured to generate a teat position associated with an unknown teat based on a scan of the dairy livestock and to determine a position distances between the teat position and teats of the dairy livestock. The processor is further configured to identify a teat of the dairy livestock with the smallest position distance, to associate a teat identifier for the unknown teat with the identified teat, and to store the association in the memory.

An apparatus includes a carriage, a foundation, a pivot coupler, a platform, a coupler, a linear actuator, an extension member, a spray tool member, and a controller. The carriage moves along the track. The foundation is coupled to the carriage. The pivot coupler is coupled to the foundation. The coupler is coupled to the platform. The coupler couples the platform to the pivot coupler. The extension member is coupled to the linear actuator. The spray tool member is coupled to the extension member. The controller is configured to cause the carriage to move along the track, the platform to pivot, and the extension member to move in the lengthwise direction to position a spray tool coupled to the spray tool member at a spray position from which the spray tool may discharge a solution to a teat of a dairy livestock.

An apparatus includes a carriage, a platform, an extension member, and a spray tool member. The carriage moves along the track in a lateral direction. The platform is coupled to and positioned above the carriage. The length of the platform is greater than and orthogonal to the width of the platform and transverse to the lateral direction when in an operational state. The platform pivots about a fulcrum positioned between the platform and the carriage such that the front end and the back end of the platform move vertically in opposite directions. The extension member is movably coupled to the platform and has a longitudinal axis parallel to the length of the platform. The extension member extends away from the carriage in a first mode and retracts towards the carriage in a second mode. The spray tool member is coupled to the front end of the extension member.

An end effector of a robot arm that is configured to participate in an animal-related operation, where the end effector is comprised of an actuator and a housing that is provided with a first aperture at a first end portion, where the actuator participates in the animal related operation via the first aperture, and the housing is provided with a second aperture providing access to an interior of the housing, wherein a passage extends through the housing along at least part of the actuator, from the second aperture to the first aperture such that the housing may be flushed through for removing dirt.

A milker unit detacher with an adjustable and releasable hose support and a support arm that pivots about a tilted axis to bias the support arm toward a milking position to maintain engagement with the adjustable hose support member.

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.

Milking robot device for automatically milking a dairy animal, comprising a milking box having milking cups and a robot arm having an end effector for applying the milking cups to the teats of the dairy animal, on which milking box the robot arm is suspended above the dairy animal to be milked. The robot arm comprises a first arm part connected to the milking box by a first joint, and a second arm part connected to the first arm part by a second joint and provided with an end effector. The first and second arm part, respectively, is pivotable in a vertical plane with respect to the milking box and the first arm part, respectively, by a first and second actuator, respectively. The end effector is movable within an operating range by the robot arm. The milking robot comprises a weight compensation device having a spring device between the milking box and the robot arm. This is configured to exert a first torque about the first joint and a second torque about the second joint, in such a way that, viewed over the operating range, the first torque compensates for the torque exerted by gravity on the arm about the first joint by at least half, in particular by at least 90%, and the second torque compensates for the torque exerted by gravity on the arm about the second joint by at least half, in particular by at least 90%. Consequently, a compact robot arm is provided, the joints which are suspended relatively high up can be protected from dirt in an efficient manner, and they can be operated using much lighter actuators, so that a great deal of energy can also be saved.

Milking robot device for automatically milking a dairy animal, comprising a milking box having milking cups and a robot arm having an end effector for applying the milking cups to the teats of the dairy animal, on which milking box the robot arm is suspended above the dairy animal to be milked. The robot arm comprises a first arm part connected to the milking box by a first joint, and a second arm part connected to the first arm part by a second joint and provided with an end effector. The first and second arm part, respectively, is pivotable in a vertical plane with respect to the milking box and the first arm part, respectively, by a first and second actuator, respectively. The end effector is movable within an operating range by the robot arm. The milking robot comprises a weight compensation device having a spring device between the milking box and the robot arm. This is configured to exert a first torque about the first joint and a second torque about the second joint, in such a way that, viewed over the operating range, the first torque compensates for the torque exerted by gravity on the arm about the first joint by at least half, in particular by at least 90%, and the second torque compensates for the torque exerted by gravity on the arm about the second joint by at least half, in particular by at least 90%. Consequently, a compact robot arm is provided, the joints which are suspended relatively high up can be protected from dirt in an efficient manner, and they can be operated using much lighter actuators, so that a great deal of energy can also be saved.