MILK AND MILKING MACHINES



MILKING MACHINE

Function/Use: Milking machines are used for milking or extracting fresh milk mechanically from the udder of cattle (cow) and other milk producing animals like sheep(ew3e) and goat (doe).
Description: The milking machine is made up of an electric motor, vacuum pump, source of power, trap pail, vacuum controller, guage, gap, milk tank and four teat cups.


How the machine works: The milk is removed from the teat when the vacuum is applied to the outside of the teat cup liner. When the teat cup liner collapses, the teat is massaged and this action helps to prevent congestion in the teat walls and ensures regular flow of milk from the udder into the teat cups.
Milking machines are more efficient. They save labour, stop the cow from becoming strippers and reduce the danger of contamination. The quality of milk obtained depends on the care taken in cleaning and operating the machine.


SUBSTANCE EXTRACTED BY MILKING MACHINE

The main substance that is extracted by the milking machine from farm animals like coe, ewe and goat is milk. The process by which the substance (milk) collected with the milking machine is made fit for human consumption is called pasteurization


ECONOMIC IMPORTANCE OF MILK

(i) It is a source of protein in food
(ii) It can be used in raising foster calves, lambs or children
(iii) It is used in the preparation of baby food
(iv) It supplies minerals to livestock
(v) It is used as an extender in artificial insemination practices
(vi) It is also used in preparation of dairy products such as butter, cheese and yoghurt





COLOSTRUM

(i) Colostrums is the first milk produced immediately after the parturition delivery of the new born animal
(ii) The first five days of milk production is essentially colostrums which all young ones must have access to
(iii) It is the yellowish white milk produced immediately after giving birth to young ones
(iv) It is very important for the new born animal to take colostrums because:
(a) It contains some antibodies against diseases to which the mother has been exposed
(b) It enables the new born to get immunity to diseases
(c) It is rich in protein, especially albumin and globulins
(d) It also contains vitamins A, e and B2 (riboflavin)
(e) It is highly digestible and has a laxative effect which helps the ones to expel the foetal dung (an indication of functioning of digestive system)



MILK

The milk and other dairy products we consume today are produced by dairy animals – mostly cows. The milk is intended for the calf, but man has through centuries of domestication and breeding created a cow that produces much more milk than the calf will need. Today’s modern cows give less than 5% of the milk to the calf and all the rest is used for human consumption.
Originally the small amount of surplus milk was hand milked from the udder after the calf had been fed. Today the cows are machine milked two or three times per 24 hours while the calf prefers to suckle several times per day.
The working principle of the milking machine is imitating the calf suckling. The milk is extracted in a rubber liner applied on the teat with a lower pressure (vacuum) than the surrounding atmospheric pressure. In order to avoid damage on the teat the liner is periodically collapsed to create a massage and relief on the teat exposed to vacuum. This is called pulsation and occurs normally once every second.

The working principle was invented almost a century ago and has over time been refined and improved in today’s milking machines. This machine is very rare in the sense that it is the only machine that works regularly and routinely with and on an animal for production purposes. It is therefore extremely important that it works in a correct way to not harm the animal or the quality of the milk.
System design

For milking on the individual farm you need to specify a plant that best meets the requirements on the particular farm.

You need to consider how many cows, whether they are tied up or loose and to what extent they are pasture fed.
You need to know actual and intended yield levels as well as calving patterns.
Labor cost, qualifications and availability will decide level of automation.
Technical matters like existing buildings, access to electric power, water quality and availability and access roads will influence plant specifications.
Finally also financing and operation costs have to be considered.
In many countries there also are laws and regulations that have to be considered.




Technically you have to design the vacuum system to handle milk extraction, milk transport and cleaning. It has to operate with a stable level to assure optimal extraction, It has to consider disturbances like kicked off units or air inlet during putting on the unit.

It has to have a capacity to transport the milk without too strong agitation which will harm the milk quality. Finally it has to have a capacity giving strong turbulence in the cleaning water during the cleaning process.

The pulsation system has to give gentle milking with sufficient capacity to handle high flows of milk without harming teats during low flows. You want the milking to be fast but not harmful.

The capacity for milking has to be matched by the cooling capacity to safeguard the milk quality.

Automation is mostly seen as a way to save on labor cost, but automation can also be a quality assurance by safeguarding a certain work process.

With all these things to consider it is essential to get qualified assistance in specifying the plant. Serious equipment suppliers can do that. By getting the plant specified by one supplier you know whom to contact when there is a problem.
Installation

To make sure that a correctly specified plant will work properly it has to be installed by a qualified installer. Installations where you cut corners by using weak fixtures or unspecified parts often result in unhygienic conditions or operational disturbances. If as an example the milk line is not installed with a proper slope you will get water standing in the pipe between milkings and a high risk for milk quality problems.

Finally a good installation is made in a way that facilitates service and also contributes to the good appearance of the plant. A qualified installer will also train and give instructions to the operators making sure that the plant will be used in the intended way.
Operation




Milking cows is a highly qualified job that will benefit from a persistent use of correct routines.

Before starting milking make sure all equipment and tools are at hand and in proper condition. Use clean suitable clothing and wash your hands thoroughly before starting milking.
Always handle animals with care and in a calm and considerate way. No yelling or beating if you want them to give you all their milk.
Clean and massage the cow’s udder. Use dry cleaning if the udder is clean. If it is so dirty that wet cleaning is required make sure you wipe the teat dry after cleaning. Use disposable cloths for each cow or individual cloths that are cleaned in a washing machine between every milking.
Premilk by hand in a test cup. Take a few squirts from each teat and check for flocculation or blood.
In some countries a special pre dip is used to disinfect the outside of the teat. This will eliminate infections to spread from the outside of the teat to the inside of the same or other teats milked with the same unit.
Put on the milking unit within one minute after preparation.
A persistent routine is very important for this action as the cows will develop a let down reflex that is adjusted to such a routine.
Monitor the milking and adjust the unit if it starts squeaking or if the cow appears uncomfortable.
Take off the unit when the milk flow has ceased or is very low. Check that the udder is empty before you remove the unit. Avoid developing habits were all the cows expect you to aftermilk with machine before taking off. If you use automatic take off units do some random checks that the cows are properly milked.
Teat dip the cows within one minute after take off. This will safeguard disinfection and protection of the teat canal while it still is open.
Register the observations you do on the individual cows during milking. In many production systems milking is the only time of the day when you are close to all the individual lactating cows.
Treated and sick cows shall always be milked separately and after all the healthy cows.
Cows develop habits. If you establish and maintain a persistent milking routine for every milking the cows will feel comfortable and respond positively with an even production.

Cleaning

The milk from a healthy animal is almost sterile when it leaves the udder. To maintain a high quality of the milk it has to be handled in a clean installation. It is therefore necessary to clean the milking plant thoroughly after each milking.

Sufficient and good quality water is required to achieve a satisfactory cleaning result.
Water heating capacity has to match the requirements from the cleaning procedure.
Detergents have to be selected to work with the actual water quality and dosed in accordance with the instructions given by the equipment supplier.
The hand washing procedures shall follow the supplier’s instructions.
If there is an automatic cleaning unit installed it has to be adjusted to the requirements of the plant and water quality and operated according to instructions.
Make sure the cooling tank or cans are equally well cleaned and that you don’t forget any part or connection in the whole milk handling chain.
Avoid standing water in and on the cleaned equipment after cleaning and before next milking. Allow drying by having good ventilation or air movements.

Cooling

To avoid rapid deterioration of the milk after milking it shall be cooled down to 2-4C within 2 hours. If you don’t have access to electric power and/or artificial cooling it is important that you cool the milk by keeping it in the shade and putting it in water from the well or other cool water source. If you can’t cool the milk, frequent milk collection at least once per day is required.

If you have a cooling tank it has to have the capacity to cool down the milk within 2 hours. You also have to make sure the milk is not collected before the milk is cooled down.
The agitation of the milk in the tank has to be gentle to avoid milk quality deterioration.
If you can avoid mixing warm milk in cooled that is an advantage from quality point of view.
Clean the tank immediately after the milk has been collected by the truck.

Maintenance

For a continuous trouble free operation with high quality milk regular maintenance and exchange of wear and tear parts is necessary.
A serious supplier and installer will offer a scheduled plant service to give the required maintenance.
Such a service will include dismantling and a complete cleaning of the plant, exchange of all required wear and tear parts according to established time limits, checking of all essential functions and parameters and a complete test run.
Such preventive scheduled services will markedly reduce operational breakdowns that by experience always will be more costly in the longer perspective.
A preventive service works as an assurance and reduces production losses and gives peace of mind.

Result

With a correctly specified, installed, operated and maintained milking plant you will be rewarded with a volume of milk according to your cows’ present ability and with a quality that meets the highest standards.

The payment for your milk is always related to the volume produced and in most cases also influenced by the quality of the milk measured in some way.

Milk quality can be measured as fat and protein content and then valued as food for human consumption with a certain content of nutrients.
Milk quality can be measured as total bacteria content –TBC- , which measures the hygienic standard of the milk.
Milk quality can also be measured as somatic cell content –SCC- , which measures the animal health or level of mastitis infections in the udder.
Milk quality can also be measured as odor (smell) and taste, which is a measurement of palatability.
Finally contaminations of antibiotic residues, other impurities and water are seen as serious deteriorations of the milk quality.

TBC and SCC are the accepted measurements used to set standards in most OECD countries and international trade regulations. They are also used for various bonus and penalty payment schemes to producers throughout the world.

HERE YOU WILL FIND EVERY AVAILABLE TOPICS ABOUT AGRICULTURAL SCIENCE AND BIOLOGY. AND THE LINKS TO THEIR VARIOUS SOURCES.
1. DEVELOPMENT OF AGRICULTURE
2. IMPORTANCE OF AGRICULTURE
3. SUBSISTENCE AGRICULTURE
4. COMMERCIAL AGRICULTURE
5. PROBLEM OF AGRICULTURAL DEVELOPMENT
6. SOLUTIONS TO POOR AGRICULTURAL DEVELOPMENT
7. AGRICULTURAL LAWS AND REFORMS
8. ROLES OF GOVERNMENT IN AGRICULTURAL DEVELOPMENT
9. AGRICULTURAL POLICIES
10. PROGRAM PLANNING IN AGRICULTURE
34.
FORESTRY
35. WILDLIFE CONSERVATION
36. FACTORS AFFECTING LAND AVAILABILITY
37. TOPOGRAPHY
38. SOIL
39. BIOLOGICAL FACTORS
40. SOCIAL-ECONOMIC FACTORS
41. ENVIRONMENTAL FACTORS AFFECTING AGRICULTURAL PRODUCTION
42. CLIMATIC FACTORS AFFECTING AGRICULTURAL PRODUCTION
43. TEMPERATURE
44. RAINFALL
45. WIND
46. SUNLIGHT
47. SOLAR RADIATION
48. BIOTIC FACTOR AND AGRICULTURAL PRODUCTION
49. PESTS
50. BIRDS
51. DISEASES
52. SOIL MICRO-ORGANISMS
53. SOIL PH
54. ROCK FORMATION
55. IGNEOUS ROCK
56. SEDIMENTARY ROCKS
57. METAMORPHIC
58. SOIL AND ITS FORMATION
59. FACTORS OF SOIL FORMATION
60. LIVING ORGANISM
61. PARENT MATERIALS
62. SOIL FORMATION TOPOGRAPHY
63. PROCESS OF SOIL FORMATION
64. WEATHERING
65. PHYSICAL WEATHERING
66. CHEMICAL WEATHERING
67. PRESSURE
68. WATER
73. BIOLOGICAL WEATHERING
74. CHEMICAL AND BIOLOGICAL COMPOSITION OF THE SOIL
75. SOIL WATER
76. MICRO AND MACRO NUTRIENTS
77. SOIL MICRO ORGANISM
78. PROPERTIES OF SOIL
79. SOIL STRUCTURE
80. SANDY SOIL
81. CLAY SOIL
82. LOAMY SOIL

83. SOIL TEXTURE
84. IDENTIFICATION OF SOIL TYPES THROUGH EXPERIMENTS
85. RETENTION OF WATER BY VARIOUS SOIL TYPES
86. DETERMINATION OF SOIL PH REACTION
87. COLORIMETRIC DETERMINATION OF SOIL PH LEVEL
88. PH SOIL TEST
89. PLANT NUTRIENTS
90.
MACRO NUTRIENTS IN GENERAL
112.
THE MAINTENANCE OF SOIL FERTILITY
113. CROP ROTATION
114. APPLICATION OF ORGANIC MANURES
115. FARM YARD MANURE
116. APPLICATION OF INORGANIC MANURE

117. LIMING
118. FARMING PRACTICES
119. BUSH BURNING
120. CLEARING

121. FERTILIZER APPLICATION
122. ORGANIC MANURING
123. FARM YARD MANURE

124. HUMUS
125. COMPOST
126. CROP ROTATION
133. FARM POWER AND MACHINERY
134. SOURCES OF FARM POWER
135. HUMAN SOURCE
149.
PLOUGHS
142.
FIELD MACHINES
157.
PLANTERS
164.
SIMPLE FARM TOOLS
165. AGRICULTURAL MECHANIZATION
166. THE CONCEPT OF MECHANIZATION


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