1 Product:30 cans/min
2 Application:Tank diameter φ99/127mm Tank height: 130─190mm
3.Oxygen content:≤3%
4.Power source:Three-phase 380V/ 415V 50HZ/60HZ
5.Total Power:9KW
6.Outline size:6000x1700x1750(mm)
7.Weight:2500kg
The model YX-81AA vacuum seaming machine high speed rotary seamer works in customer's milk powder packaging plant:
Based on our successful patented product, full automatic vacuum & nitrogen can sealing production line, and the introduced foreign technology,
this equipment is developed as a new generation of full automatic vacuum & nitrogen can sealing for milk powder production line. W
ith machine frame made of full stainless steel, touch screen operation and PLC control, it can realize a full automatic performance,
including automatic can passing in and out,automatic feeding cover and vacuum & nitrogen, automatic can sealing, which will bring an easy operation and adjusting,
as well as high work efficiency. It conforms to hygienic requirement for canned food industry, being an advanced automatic model available worldwide at present.
Basic parameters of model YX-81AA vacuum seamer:
1 Product:30 cans/min
2 Application:Tank diameter φ99/127mm Tank height: 130─190mm
3.Oxygen content:≤3%
4.Power source:Three-phase 380V/ 415V 50HZ/60HZ
5.Total Power:9KW
6.Outline size:6000x1700x1750(mm)
7.Weight:2500kg
NO# |
Gas and electricity configuration list of pre-sealing machine |
NO# | Vacuum seamer
Gas and electricity configuration list – two sealing machines |
1 | 1.5KW servo motor | 1 | main motor |
2 | 1KW servo motor | 2 | 18mm proximity switch |
3 |
1:10 precision reducer |
3 | 12mm proximity switch |
4 | 5.5KW electronic transformer | 4 | 100KW electronic transformer |
5 | Mitsubishi PLC | 5 | Mitsubishi PLC |
6 | Display and control 7 inch touch screen | 6 | Display and control 7 inch touch screen |
7 | Schneider contactor | 7 | Schneider contactor |
8 | SMC cylinder | 8 | electromagnetic valve |
9 | Electronic overload protection | 9 | Electronic overload protection |
10 | Other Electronic Auxiliary Products | 10 | Other Electronic Auxiliary Products |
NO. Gas and electricity configuration list of vacuum nitrogen filling machine
1 2.2KWFrequency conversion panel
2 Three pole air switch
3 Precision reducer
4 SMC cylinder
5 30mm Horseshoe photoelectric eye
6 18mm proximity switch
7 Schneider 9A 25A 32A contactor
8 SMC cylinder
9 Electronic overload protection
10 Other Electronic Auxiliary Products
Milk powder cans samples:
Why the Milk powder needs the gas for packaging?
A number of food components react chemically with O2, affecting the color, flavor, nutritional status, and occasionally the physical characteristics of foods. In some cases, the effects are deleterious and reduce the shelf life of the food; in others they are essential to achieve the desired product characteristics. Many studies have reported the development of off-flavors in milk after various storage times, usually at the end of their shelf life. Packaging is used to exclude, control, or contain O2 at the level most suited for a particular product.
Oxidation of powdered milk products is predominantly associated with unsaturated fats present in milk fat. Oxidation of unsaturated fats results in aldehydes and ketones, which are subsequently converted into alcohols. Fat oxidation occurs in the presence of O2 and moisture and can be catalyzed by light. The O2 atmosphere inside the package, the presence of antioxidants and the temperature all influence the rate of oxidation.
Powders containing a high percentage of fats, particularly unsaturated fats, are susceptible to sensory effects, collectively called oxidative rancidity, and changes in flavor. Saturated fatty acids oxidize slowly compared with unsaturated fatty acids (Brown and Williams, 2003). The presence of unsaturated bonds in fat will increase oxidation. In general, the higher the level of unsaturation, the greater the chance of fat oxidation.
It is therefore not surprising that to prevent oxidation of milk powder, the packaging should provide a high-level O2 barrier and be able to retain that barrier during the anticipated shelf life. Gas flushing with a chemically inert gas such as N2 may be essential to replace O2 present in the package before closing. This is particularly true for WMP, where the shelf life is governed to a large extent by the rate of oxidation of the unsaturated fats and the consequent development of objectionable flavors. Most of the common spoilage bacteria and fungi require O2 for growth. Therefore, to increase the shelf life of foods, the internal package atmosphere should contain a minimum concentration of residual O2.
In addition to fat oxidation, atmospheric O2 and light are the prime factors influencing the stability of vitamins A and D. These factors, in combination with environmental factors such as temperature and moisture, infl uence the rate of reduction in the vitamin content.
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