High speed Plastic milk baby feeding bottle machine for bottle making injection blow molding machine
DESCRIPTION
The plastic milk baby feeding bottle injection blow molding machine integrates both injection molding and blow molding processes into a single machine. It automates the entire process, from injecting the plastic material to creating the final bottle. The machine typically consists of an injection unit, a blow molding unit, and a control system.
The advantages of using injection blow molding for baby feeding bottles include precise control over bottle dimensions, uniform wall thickness, and the ability to produce bottles with complex shapes. Additionally, the process ensures high production efficiency and consistency.
It's important to note that specific machine models and manufacturers may have variations in design and features. If you are looking for detailed information on a particular machine, it would be best to consult the manufacturer's documentation or reach out to them directly.
Advantage
| Bottle is a container that can hold liquid or solid, which can be seen everywhere in our life, including medicine bottle, cosmetics bottle and beverage bottle. Due to the rapid development of the petroleum industry, human beings invented high molecular polymer, which is commonly known as plastics. Since then, our bottle materials have changed from single glass or ceramics to various kinds of plastics. Drawing lessons from the long history of glass container blowing process, the extrusion or injection molding plastic mold in relativistic state is placed in the blowing mold, and the mold is inflated by a certain pressure of compressed air to make it close to the cavity wall. After cooling and setting, the mold is demolished to obtain the plastic hollow products with the same shape as the cavity. This is the hollow blow molding process we are familiar with. |
Technical Parameter
Model | |||||
Item | Unit | Date | |||
Injection system | Screw Diameter | mm | 40 | 45 | 50 |
Max. Theoretical injection capacity | G | 176 | 260 | 314 | |
Heating capacity | KW | 7.2 | 10 | 10 | |
No. of heating area | Qty | 3 | 3 | 3 | |
Clamping & blowing system | Clamping force of injection | kn | 350 | 450 | 650 |
Clamping force of blowing | kn | 40 | 78 | 89 | |
Opening stroke of mold platen | mm | 120 | 120 | 140 | |
Max. Platen size (L×W) | mm | 420×340 | 560×390 | 740×390 | |
Min. Mold thickness (H) | mm | 180 | 240 | 280 | |
Heating capacity of mould | KW | 2.8 | 4.0 | 5.0 | |
Product dimension range | Suitable bottle range | ml | 3-800 | 3-800 | 5-800 |
Max. bottle height | mm | ≤180 | ≤200 | ≤200 | |
Max. Dia. of bottle | mm | ≤80 | ≤80 | ≤80 | |
Dry cycle | s | 4 | |||
Hydraulic driving system | Motor power | KW | 11/15 | 18.7/22 | 17 |
hydraulic pressure | Mpa | 14 | 14 | 14 | |
Pneumatic system | Min. Air pressure | Mpa | ≥0.8 | 1.0 | 1.0 |
Discharge rate of compressed air | M3/mm | ≥0.7 | ≥0.8 | ≥0.8 | |
Cooling system | Water flowage | M3/h | 3 | 3 | 4 |
Total rated power with mold heating | KW | 21/25 | 34/38 | 45 | |
Machine information | Dimension | M | 3.1×1.2×2.2 | 3.5×1.4×2.3 | 4×1.28×2.35 |
machine weight | Ton | 4.0 | 6.0 | 7.5 |
Application
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