A cheesemaker with a container interior in the form of a cheese vat or cheese kettle, which rotatably incorporates a driven agitator with at least one agitating and cutting blade. The cheesemaker is to be simple in structural design and easy to operate, and also satisfy strict hygiene requirements. This is achieved by providing the agitating and cutting blade with a window that can be detached therefrom, and moved relative to the agitating and cutting blade.

A cheesemaker with a container interior in the form of a cheese vat or cheese kettle, which rotatably incorporates a driven agitator with at least one agitating and cutting blade. The cheesemaker is to be simple in structural design and easy to operate, and also satisfy strict hygiene requirements. This is achieved by providing the agitating and cutting blade with a window that can be detached therefrom, and moved relative to the agitating and cutting blade.

The present invention relates to preparing dairy animal teats for being milked, and more particularly to teat preparation, rinsing, and milking that all take place in a milking machine teat cup liner. Such a method includes: applying a teat sanitizer to the teat; injecting air into the liner to force the teat sanitizer toward a waste milk line connected to the liner; pulsating the liner at a first pulsation rate; drawing a rinsing milk from the teat; directing the teat sanitizer, the air, and the rinsing fluid to the waste milk line; pulsating the liner at a second pulsation rate to draw additional milk from the teat; and directing the additional milk to a good milk line.

A rotary dairy cow milking platform that rotates about a rotational axis and has a plurality of pre-fabricated moulded bail floor defining modular components 1-10 and a supporting substructure 12, 13 14. Each modular component is detachable from the substructure and has been pre-formed independently of any components from the substructure. Each modular component is also totally or at least in part formed from a fibre reinforced resin based composite material. The modular components each have a mould defined rigid exoskeleton 34 wrapped about an inlay or an imbedded core 33 of another material moulded within the exoskeleton. The end peripheries of the modular components are substantially radially aligned with respect to the axis of rotation of the milking platform. Further, the modular components have been assembled onto the substructure to form a substantially annular deck of the milking platform.

A rotary dairy cow milking platform that rotates about a rotational axis and has a plurality of pre-fabricated moulded bail floor defining modular components 1-10 and a supporting substructure 12, 13 14. Each modular component is detachable from the substructure and has been pre-formed independently of any components from the substructure. Each modular component is also totally or at least in part formed from a fibre reinforced resin based composite material. The modular components each have a mould defined rigid exoskeleton 34 wrapped about an inlay or an imbedded core 33 of another material moulded within the exoskeleton. The end peripheries of the modular components are substantially radially aligned with respect to the axis of rotation of the milking platform. Further, the modular components have been assembled onto the substructure to form a substantially annular deck of the milking platform.

A method of producing a non-dairy cheese includes fermenting non-dairy milk with lactic acid bacteria and mixing the fermented non-dairy milk with dry ingredients. The dry ingredients include one or more gums and one or more starches. The method further includes heating the fermented non-dairy milk and dry ingredients to 180 degrees and mixing oil into the fermented non-dairy milk in an in-line high shear mixer creating an oil/non-dairy milk mixture. The method further includes circulating the oil/non-dairy milk mixture through the inline high shear mixer until the droplet size of the oil in the non-dairy milk is 15 micrometers or less, removing air from the oil/non-dairy milk mixture, and packaging the oil/non-dairy milk mixture to yield a non-dairy cheese product.

A method of producing a non-dairy cheese includes fermenting non-dairy milk with lactic acid bacteria and mixing the fermented non-dairy milk with dry ingredients. The dry ingredients include one or more gums and one or more starches. The method further includes heating the fermented non-dairy milk and dry ingredients to 180 degrees and mixing oil into the fermented non-dairy milk in an in-line high shear mixer creating an oil/non-dairy milk mixture. The method further includes circulating the oil/non-dairy milk mixture through the inline high shear mixer until the droplet size of the oil in the non-dairy milk is 15 micrometers or less, removing air from the oil/non-dairy milk mixture, and packaging the oil/non-dairy milk mixture to yield a non-dairy cheese product.

The present invention relates to preparing dairy animal teats for being milked, and more particularly to teat preparation, rinsing, and milking that all take place in a milking machine teat cup liner. Such a method includes: applying a teat sanitizer to the teat; injecting air into the liner to force the teat sanitizer toward a waste milk line connected to the liner; pulsating the liner at a first pulsation rate; drawing a rinsing milk from the teat; directing the teat sanitizer, the air, and the rinsing fluid to the waste milk line; pulsating the liner at a second pulsation rate to draw additional milk from the teat; and directing the additional milk to a good milk line.

Apparatus and methods for a dairy harvesting facility including valves and valve assemblies that prevent contaminants from reaching a central milk collection system.

The present invention relates to preparing dairy animal teats for being milked, and more particularly to teat preparation, rinsing, and milking that all take place in a milking machine teat cup liner. Such a method includes: applying a teat sanitizer to the teat; injecting air into the liner to force the teat sanitizer toward a waste milk line connected to the liner; pulsating the liner at a first pulsation rate; drawing a rinsing milk from the teat; directing the teat sanitizer, the air, and the rinsing fluid to the waste milk line; pulsating the liner at a second pulsation rate to draw additional milk from the teat; and directing the additional milk to a good milk line.