MILKING SYSTEM AVS 172 AMIN AHMAZADEH Ph.D.

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Presentation transcript:

MILKING SYSTEM AVS 172 AMIN AHMAZADEH Ph.D. References Dr. H.D. Tyler, Iowa State University and Dr. M. A. Barnes, Virginia Tech

Air intake line exhaust Vacuum pump condenser

4. Balance Tank 5. Regulator

4._________________

Pulsator Pulsation line Pulsation Hose Carries vacuum to milking unit (fed by reserve tank)

7.Pulsator Pulsation Hose 6. Pulsator Vacuum line

7.Pulsator Milk Hose Milk hose: delivering milk from the udder to milk line 10. Milk Line

10. Milk Line

---------------------------

11. Receiving Jar

12. Milk Pump Pumping milk from receiving jar to the milk tank

14.Sanitary Trap

Cooling Plates Decreasing milk temperature before is stored in the milk tank

Cooling system Control 13. Milk Tank Cooling system Control

Milking Equipment Milking unit Each has four individual teat cups attached by hoses to a unit pulsator Each teat cup has a teat-cup liner

Fig 32-7. The milking claw is designed to harvest milk with the least amount of damage to teat end tissues (Courtesy of Westfalia)

Fig 32-8. Teat cup liners must be replaced at regular intervals to maintain optimal function of the milking system (Courtesy of Westfalia)

Milking Systems; pulsators allow alternating vacuum/atmospheric pressure into teat cup chamber attached to pulsator vacuum line 1 pulsator/milking unit

Pulsation: Milking Phase Resting Phase Milking Phase is the expansion phase Massage phase Initiated when air is pumped into the space between the liner and outer shell

Fig 32-12. Vacuum diagrams visually display the inner workings of the teat cup liner, allowing otherwise invisible problems to be detected (Courtesy of Westfalia)

Fig 32-10. Proper milk let-down procedures stimulate dilation of the teat sphincter, permitting faster flow of milk from the teat end and more rapid milking times (Courtesy of Westfalia)

Milking Systems; pulsators Pulsation rate: vac/atm = milk/massage Pulsation ratio: wider = faster milk out too wide increases congestion

Fig 32-9. The mechanics of machine milking (Courtesy of Iowa State University)

Back Flush

Milk Flow Rate Controlled by pressure differential around the streak canal Determined by pressure exerted by the milk in the udder and pressure exerted by vacuum pump and pulsator Controlled by size and tautness of streak canal Can be affected by intensity of stimulation, age of cow, effects of teat injury

Fig 32-13. Changes in milk flow rate during the milking cycle (Courtesy of Westfalia)

Milking Procedures Prepare equipment Preparing the cow Assemble and sanitize Preparing the cow 1) Clean cows teat and pre-dip 2) 3) Strip 2-3 streams of milk from each teat Examine for evidence of mastitis 4) Make sure you have a full ten seconds of teat end stimulation

Fig 32-14. Whether using paper or cloth towels, it is important to thoroughly dry teats, especially teat ends, prior to applying the milking machine (Courtesy of Howard Tyler)

Fig 32-15. Strip cups can be used to check for the presence of clots in milk strippings (Courtesy of Iowa State University)

Milking Procedures 5) Attach teat cup and begin Approximately 45 seconds after stimulation, attach teat cup Most cows will milk out within 3-6 minutes 6) Removing the teat cup Remove when flow rate is less than two pounds per minute Automatic take-offs Following milking dip teats with disinfectant solution 7)

Fig 32-17. Kinking inflations prior to attaching milking units minimizes air leaks and vacuum fluctuations at the teat end (Courtesy of Howard Tyler)

Fig 32-23. Post-milking teat dipping is important to protect the mammary glad from pathogen entry until the teat sphincter closes (Courtesy of Westfalia)

Fig 32-25. Clean-in-place systems allow milking units to be cleaned and sanitized in the parlor between milkings (Courtesy of Westfalia)