A teat opening protection patch is stuck to portions inclusive of the teat openings of livestock, and includes a laminate 1 of an elastic sheet 2 and an adhesive layer 3 laminated on one surface of the elastic sheet 2, the laminate 1 having a double-stretched tensile stress in a range of 0.1 to 5 N.

A teat sprayer for use in dairy applications is described that uses an articulated arm and system to deliver a spray to a teat and move between multiple dairy animals.

In one aspect the dairy animal teat treatment apparatus, comprises a spray inlet, a spray nozzle, a flow path extending between the spray inlet and the spray nozzle, and an articulated arm conveying the spray nozzle, movement of the articulated arm driven by an actuator. Articulated arm movement may be between a retracted position in which the spray nozzle and articulated arm are retracted and an extended position in which at least part of the articulated arm and spray nozzle thereon is extended, moving the spray nozzle to a position configured to be about an animal's udder.

In a further aspect, the apparatus, comprises an animal sensor positioned generally above and behind an animal bail and directed generally downwards configured to sense the presence of an animal in the animal bail; and a controller configured to actuate spraying of the animal's teats from spray nozzle extension and retraction in response to a signal received from the sensor.

The apparatus may act to reduce cost through reduced numbers of treatment apparatus and/or lower labour costs and expenses; increase accuracy/efficiency through automation and speed of treatment; address issues associated with the inconvenience/space constraints in dairy platform configurations; and minimise the number of sensors required and position these sensors away from the animal bail.

A teat sprayer for use in dairy applications is described that uses an articulated arm and system to deliver a spray to a teat and move between multiple dairy animals.

In one aspect the dairy animal teat treatment apparatus, comprises a spray inlet, a spray nozzle, a flow path extending between the spray inlet and the spray nozzle, and an articulated arm conveying the spray nozzle, movement of the articulated arm driven by an actuator. Articulated arm movement may be between a retracted position in which the spray nozzle and articulated arm are retracted and an extended position in which at least part of the articulated arm and spray nozzle thereon is extended, moving the spray nozzle to a position configured to be about an animal's udder.

In a further aspect, the apparatus, comprises an animal sensor positioned generally above and behind an animal bail and directed generally downwards configured to sense the presence of an animal in the animal bail; and a controller configured to actuate spraying of the animal's teats from spray nozzle extension and retraction in response to a signal received from the sensor.

The apparatus may act to reduce cost through reduced numbers of treatment apparatus and/or lower labour costs and expenses; increase accuracy/efficiency through automation and speed of treatment; address issues associated with the inconvenience/space constraints in dairy platform configurations; and minimise the number of sensors required and position these sensors away from the animal bail.

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.

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.

There is provided a milking cluster (102) for milking an animal, the milking cluster comprising a plurality of teat cups (1) connected to a clawpiece (106). The clawpiece comprises a plurality of milk inlets that are connected to the plurality of teat cups via respective short milk tubes (11). A milk flow passageway begins at the barrel of the teat cup and ends at the clawbowl of the clawpiece, and a valve system is present within each milk flow passageway. The valve system comprises a first pressure-actuated valve through which milk flowing along the milk flow passageway must pass.

There is provided a milking cluster (102) for milking an animal, the milking cluster comprising a plurality of teat cups (1) connected to a clawpiece (106). The clawpiece comprises a plurality of milk inlets that are connected to the plurality of teat cups via respective short milk tubes (11). A milk flow passageway begins at the barrel of the teat cup and ends at the clawbowl of the clawpiece, and a valve system is present within each milk flow passageway. The valve system comprises a first pressure-actuated valve through which milk flowing along the milk flow passageway must pass.

A method of protecting a teat opening with a teat opening protection patch, which is stuck to portions inclusive of the teat openings of livestock, and includes a laminate 1 of an elastic sheet 2 and an adhesive layer 3 laminated on one surface of the elastic sheet 2, the laminate 1 having a double-stretched tensile stress in a range of 0.1 to 5 N.

A method of protecting a teat opening with a teat opening protection patch, which is stuck to portions inclusive of the teat openings of livestock, and includes a laminate 1 of an elastic sheet 2 and an adhesive layer 3 laminated on one surface of the elastic sheet 2, the laminate 1 having a double-stretched tensile stress in a range of 0.1 to 5 N.

A teat treatment apparatus comprising a tubular outer housing containing a tubular inner shell. The tubular inner shell includes a side wall defining a teat treatment cavity, including a central side wall portion. An inlet port extends through a side wall of the tubular outer housing and is in fluid communication with an annular cavity formed by the inner side surface of the tubular housing and an upper annular ridge, recessed central side surface, and lower annular ridge of the side wall of the tubular inner shell. Orifices are provided in the central side wall portion of the tubular inner shell. Each of the orifices is in fluid communication with the annular cavity and the treatment cavity, and each of the orifices defines an orifice axis directed at an oblique angle with respect to the central axis of the treatment cavity and downwardly with respect to the treatment cavity plane.