The invention relates to a milk separation device of a milking system for milking, in particular automated milking, of milk-producing animals. The milk separation device comprises a body, which has an inlet connection and an outlet connection, and a cover, which has a connection to a vacuum line. The body has an inwardly protruding balcony segment on an inner periphery, wherein the balcony segment forms a ramp helically in the peripheral direction so as to rise at a pitch angle with respect to the gravitational force of the earth.

The invention relates to a milk separation device of a milking system for milking, in particular automated milking, of milk-producing animals. The milk separation device comprises a body, which has an inlet connection and an outlet connection, and a cover, which has a connection to a vacuum line. The body has an inwardly protruding balcony segment on an inner periphery, wherein the balcony segment forms a ramp helically in the peripheral direction so as to rise at a pitch angle with respect to the gravitational force of the earth.

The invention relates to a milk separation device of a milking system for milking, in particular automated milking, of milk-producing animals. The milk separation device comprises a body, which has an inlet connection and an outlet connection, and a cover, which has a connection to a vacuum line. The body has an inwardly protruding balcony segment on an inner periphery, wherein the balcony segment forms a ramp helically in the peripheral direction so as to rise at a pitch angle with respect to the gravitational force of the earth.

The invention relates to a milk separation device of a milking system for milking, in particular automated milking, of milk-producing animals. The milk separation device comprises a body, which has an inlet connection and an outlet connection, and a cover, which has a connection to a vacuum line. The body has an inwardly protruding balcony segment on an inner periphery, wherein the balcony segment forms a ramp helically in the peripheral direction so as to rise at a pitch angle with respect to the gravitational force of the earth.

Described herein is an in-line sensor for sensing properties of a pulsed milk flow on a continuous basis. A milking cluster comprising multiple pulsed milk flow inputs from lactating animal teats and a mixing point or claw for the multiple inputs is described that includes multiple in-line sensors for each pulsed milk flow input. Methods of use of the in-line sensor and milking cluster are also described. The in-line sensor described may be easily integrated into existing milking apparatus, is reliable, has a low cost, and is self-cleaning/self-emptying.

Described herein is an in-line sensor for sensing properties of a pulsed milk flow on a continuous basis. A milking cluster comprising multiple pulsed milk flow inputs from lactating animal teats and a mixing point or claw for the multiple inputs is described that includes multiple in-line sensors for each pulsed milk flow input. Methods of use of the in-line sensor and milking cluster are also described. The in-line sensor described may be easily integrated into existing milking apparatus, is reliable, has a low cost, and is self-cleaning/self-emptying.

Described herein is an in-line sensor for sensing properties of a pulsed milk flow on a continuous basis. A milking cluster comprising multiple pulsed milk flow inputs from lactating animal teats and a mixing point or claw for the multiple inputs is described that includes multiple in-line sensors for each pulsed milk flow input. Methods of use of the in-line sensor and milking cluster are also described. The in-line sensor described may be easily integrated into existing milking apparatus, is reliable, has a low cost, and is self-cleaning/self-emptying.

Described herein is an in-line sensor for sensing properties of a pulsed milk flow on a continuous basis. A milking cluster comprising multiple pulsed milk flow inputs from lactating animal teats and a mixing point or claw for the multiple inputs is described that includes multiple in-line sensors for each pulsed milk flow input. Methods of use of the in-line sensor and milking cluster are also described. The in-line sensor described may be easily integrated into existing milking apparatus, is reliable, has a low cost, and is self-cleaning/self-emptying.

Described herein is an in-line sensor for sensing properties of a pulsed milk flow on a continuous basis. A milking cluster comprising multiple pulsed milk flow inputs from lactating animal teats and a mixing point or claw for the multiple inputs is described that includes multiple in-line sensors for each pulsed milk flow input. Methods of use of the in-line sensor and milking cluster are also described. The in-line sensor described may be easily integrated into existing milking apparatus, is reliable, has a low cost, and is self-cleaning/self-emptying.

Described herein is an in-line sensor for sensing properties of a pulsed milk flow on a continuous basis. A milking cluster comprising multiple pulsed milk flow inputs from lactating animal teats and a mixing point or claw for the multiple inputs is described that includes multiple in-line sensors for each pulsed milk flow input. Methods of use of the in-line sensor and milking cluster are also described. The in-line sensor described may be easily integrated into existing milking apparatus, is reliable, has a low cost, and is self-cleaning/self-emptying.