A plastic bottle blow molding machine is a widely used piece of equipment in the manufacturing industry. It is designed to produce plastic bottles in a variety of shapes and sizes, for use in different industries such as food, beverage, and pharmaceuticals. The machine works by blowing compressed air into a parison, which is a preform mold made of plastic.
This causes it to stretch and take the shape of the mold it is blown into. The machine can produce a large number of bottles in a short time, depending on the speed and output capacity. The machine is automated and can be adjusted to produce different bottle designs, sizes, and thicknesses, depending on the needs of the production line. Some machines are designed for small-scale operations, while others are intended for high-volume production.
When the bottle is blown and broken, it will be automatically eliminated without stopping. When the single cavity mold is damaged and can not be produced normally, the mold will be automatically avoided, and the billet will not enter the damaged mold and the production will continue
1. Cost-effective: Bottle blowing machines are cost-effective as they help in the production of large quantities of bottles in a short time.
2. High-speed production: Bottle blowing machines can produce bottles at a high speed, reducing the production time and increasing the overall efficiency of the manufacturing process.
3. Customization: With bottle blowing machines, manufacturers have the option to customize bottle size, shape, and design according to their specific needs.
4. High-quality output: The use of bottle blowing machines ensures a consistent and high-quality output that meets industry standards.
5. Energy efficiency: Modern bottle blowing machines are designed to be energy-efficient, thus reducing energy consumption and lowering production costs.
6. Reduced labor costs: With the use of bottle blowing machines, there is a reduced need for labor, which results in lower labor costs.
7. Safe and easy to use: Bottle blowing machines are designed to be safe and easy to use, with minimal training needed for operators.
| Parameters of the molding machine |
|
|
| Embryo bucket volume m3 |
TBD |
|
| Maximum bottle speed BPH |
35000 |
|
| Applicable bottle preform size mm |
dia.25-dia.45 H<=190 |
|
| Moter power(elevator + billet trimmer +...) kw |
2.2 |
|
| Voltage/frequency/phase |
380V+/-10%/50Hz/three-phase five-wire |
|
| Bottle blowing machine and heating machine |
|
|
| Components |
Item |
Parameters |
| Blow bottle part |
Mold (cavity) quantity |
12 |
| Flask height (lower part of support ring) |
1.5m |
| Heating part |
Heating unit |
16 |
| Infrared tube layer |
9 |
| Eectric parameter |
Electrical voltage |
380V |
| Frequency |
50/60Hz |
| Total installed power |
Total power |
200 |
| Air source |
The compressed air pressure |
3.5-4.0MPa |
| High pressure compressed air consumption |
TBD |
| Heating machine cooling water (water temperature <=20ºC) |
Presssure |
5-7bar |
| Flow |
|
| Power |
|
| Mold cooling water (water temperature 5-12ºC)about mold |
Pressure |
5-7bar |
| Flow |
|
| Power |
|
| Mold cooling water (water temperature 5-12ºC) bottom mold |
Pressure |
5-7bar |
| Flow |
|
| Power |
|
| Weight |
Main engine/heating machine/electric control box etc |
15t |
| Equipment dimensions |
Main machine(L×W×H)mm |
4200*3200*3650 |
| Heating machine(L×W×H)mm |
5480*1700*2210 |
| Billet sorting machine(L×W×H)mm |
7020*5220*4500 |
| Preform size |
Preform height |
≤150mm |
| Inside diameter of preform |
Φ14mm-Φ26mm |
| The diameter of the supporting ring |
Φ26mm-Φ40mm |
| Bottle size |
The diameter of the round bottle |
Φ50mm-Φ116mm |
| Bottle size (diagonal) |
50mm-116mm |
| Height below the supporting ring |
≤300mm |
| Capacity range |
0.2L-2.5L |
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