DTPPL’s fully automatic blow molding machine represents a significant innovation in PET engineering. This machine automates the entire process, including preform loading, heating, and blowing, ensuring seamless operation. It can be synchronized with the bottle filling line, creating a labor-free production process that reduces costs while delivering high-quality results.
BLOW MOULDING MACHINE SPECIFICATIONS | Unit | Fully Auto 2cavity |
FORMING | ||
Cavity Pitch | mm | 130 |
Mould Thickness (max) | mm | 160 |
Clamping Stroke (max) | mm | 120 |
Stretching Stroke (max) | mm | 400 |
No. of Cavity | Pcs | Two |
PRODUCT | ||
Product Height (max) | mm | 280 |
Container Volume (Min/Max) | ml | 100/ 1000 |
Neck Outer Diameter | mm | 28 |
Product Outer Diameter (Max) | mm | 75 |
Theoretical Production | BPH | 1800 |
POWER- 3 Phase,415V | ||
FOR BLOWING MACHINE | ||
Heater | Kw | 21 |
Hydraulic Motor, Air Blower & Indexing Motor | Kw | 5 |
FOR ACCESSORIES | ||
HP Compressor | Kw | 15 |
LP Compressor | Kw | 7.5 |
Chiller 3 TR | Kw | 2.625 |
Cooling Tower 20TR | Kw | 3 |
Refrigerated Air Dryer | Kw | 3 |
Operation Air Pressure | Kg /cm2 | 8 |
Blowing Air Pressure | Kg /cm2 | 25 |
DIMENSION | ||
BLOW MACHINE (L x W x H) | Inches | 63 x 105 x 115 |
TYPE | DETAILS | DTPPL/2/3600 |
CONTAINER | Number of Cavity | 2 cavities |
Centre Distance Between Two Cavity | 110 mm | |
Theoretical Output* | 3600 Bottles/ hr* @ 19.2 Gram | |
Max. Container Volume | 1000 ML | |
Max. Neck Diameter | 28 mm | |
Max. Container Diameter | 75 mm | |
Max. Container Height | 280 mm | |
ELECTRICAL SYSTEMS | Number of Heaters | 14 No’s |
Max. Heating Power | 21 kW | |
Installation Power for Blow Moulding | 23 kW | |
Only 60% Used of Installed Power | 13.8 kW | |
AIR SYSTEMS | Operating Pressure | 8 BAR |
Operating Pressure Consumption | 80 CFM | |
Blowing Pressure | 30 BAR | |
High Pressure Consumption | 125 CFM | |
CHILLER WATER | Operating Pressure | 4 BAR |
Temperature | 12-14 OC | |
Capacity | 4 TR | |
Machine Dimensions | Mtr/Inches(LXWXH) | 109 X 69 X 81 |
Machine Weight | Tons | 3 Tons (Approx) |
Client Scope | Servo Stabiliser ,3 Phase 370-470 Volts (40 kVA) |
TYPE | DETAILS | DTPPL/4/5400 |
CONTAINER | Number of Cavity | 4 cavities |
Centre Distance Between Two Cavity | 110 mm | |
Theoretical Output* | 5400 BPH /90 BPM @ 19.2 Gram | |
Max. Container Volume | 1000 ML | |
Max. Neck Diameter | 28 mm | |
Max. Container Diameter | 75 mm | |
Max. Container Height | 280 mm | |
ELECTRICAL SYSTEMS | Number of Heaters | 14 No’s |
Max. Heating Power | 21 kW | |
Installation Power for Blow Moulding | 23 kW | |
Only 60% Used of Installed Power | 13.8 kW | |
AIR SYSTEMS | Operating Pressure | 8 BAR |
Operating Pressure Consumption | 100 CFM | |
Blowing Pressure | 30 BAR | |
High Pressure Consumption | 200 CFM | |
CHILLER WATER | Operating Pressure | 4 BAR |
Temperature | 12-14 OC | |
Capacity | 6 TR | |
Machine Dimensions | Mtr/Inches(LXWXH) | 2.25X1.6X1.7 |
Machine Weight | Tons | 4 Tons (Approx) |
Client Scope | Servo Stabiliser, 3 Phase 370-470 Volts (50KVA) |
TYPE | DETAILS | DTPPL/4/7200 |
CONTAINER | Number of Cavity | 4 cavities |
Centre Distance Between Two Cavity | 100 mm | |
Theoretical Output* | 7200 BPH /120BPM @ 19.2 Gram | |
Max. Container Volume | 1000 ML | |
Max. Neck Diameter | 28 mm | |
Max. Container Diameter | 75 mm | |
Max. Container Height | 280 mm | |
ELECTRICAL SYSTEMS | Number of Heaters | 24 No’s |
Max. Heating Power | 36 kW | |
Installation Power for Blow Moulding | 42 kW | |
Only 60% Used of Installed Power | 25.2 kW | |
AIR SYSTEMS | Operating Pressure | 8 BAR |
Operating Pressure Consumption | 50 CFM | |
Blowing Pressure | 35 BAR | |
High Pressure Consumption | 250 CFM | |
CHILLER WATER | Operating Pressure | 4 BAR |
Temperature | 12-14 OC | |
Capacity | 8 TR | |
Machine Dimensions | Mtr/Inches(LXWXH) | – |
Machine Weight | Tons | 5 Tons (Approx) |
Client Scope | Servo Stabiliser, 3 Phase 370-470 Volts (65KVA) |
SPECIFICATIONS | Unit | Fully Auto 2cavity |
FORMING | ||
Cavity Pitch | mm | 130 |
Mould Thickness (max) | mm | 160 |
Clamping Stroke (max) | mm | 120 |
Stretching Stroke (max) | mm | 400 |
No. of Cavity | Pcs | Two |
PRODUCT | ||
Product Height (max) | mm | 280 |
Container Volume (Min/Max) | ml | 100/ 1000 |
Neck Outer Diameter | mm | 28 |
Product Outer Diameter (Max) | mm | 75 |
Theoretical Production | BPH | 1800 |
POWER- 3 Phase,415V | ||
FOR BLOWING MACHINE | ||
Heater | Kw | 21 |
Hydraulic Motor, Air Blower & Indexing Motor | Kw | 5 |
FOR ACCESSORIES | ||
HP Compressor | Kw | 15 |
LP Compressor | Kw | 7.5 |
Chiller 3 TR | Kw | 2.625 |
Cooling Tower 20TR | Kw | 3 |
Refrigerated Air Dryer | Kw | 3 |
Operation Air Pressure | Kg/cm2 | 8 |
Blowing Air Pressure | Kg /cm2 | 25 |
DIMENSION | ||
BLOW MACHINE(L x W x H) | Inches | 63 x 105 x 115 |
TYPE | DETAILS | DTPPL/2/3600 |
CONTAINER | Number of Cavity | 2 cavities |
Centre Distance Between Two Cavity | 110 mm | |
Theoretical output @ 1 Ltr | 3600 Bottles/ hr* @ 19.2 Gram | |
Max. container volume | 1000 ML | |
Max. neck diameter | 28 mm | |
Max. container diameter | 75 mm | |
Max. container height | 280 mm | |
ELECTRICAL SYSTEMS | Number of Heaters | 14 No’s |
Max. Heating Power | 21 kW | |
Installation Power for Blow Moulding | 23 kW | |
Only 60% Used of Installed Power | 13.8 kW | |
AIR SYSTEMS | Operating Pressure | 8 BAR |
Operating Pressure Consumption | 80 CFM | |
Blowing Pressure | 30 BAR | |
High Pressure Consumption | 125 CFM | |
CHILLER WATER | Operating Pressure | 4 BAR |
Temperature | 12-14 OC | |
Capacity | 4 TR | |
Machine Dimensions | Mtr/Inches(LXWXH) | 109 X 69 X 81 |
Machine Weight | Tons | 3 Tons (Approx) |
Client Scope | Servo Stabiliser ,3 Phase 370-470 Volts (40 kVA) |
TYPE | DETAILS | DTPPL/2/3600 |
CONTAINER | Number of Cavity | 4 cavities |
Centre Distance Between Two Cavity | 110 mm | |
Theoretical Output* | 5400 BPH /90 BPM @ 19.2 Gram | |
Max. container volume | 1000 ML | |
Max. neck diameter | 28 mm | |
Max. container diameter | 75 mm | |
Max. container height | 280 mm | |
ELECTRICAL SYSTEMS | Number of Heaters | 14 No’s |
Max. Heating Power | 21 kW | |
Installation Power for Blow Moulding | 23 kW | |
Only 60% Used of Installed Power | 13.8 kW | |
AIR SYSTEMS | Operating Pressure | 8 BAR |
Operating Pressure Consumption | 100 CFM | |
Blowing Pressure | 30 BAR | |
High Pressure Consumption | 200 CFM | |
CHILLER WATER | Operating Pressure | 4 BAR |
Temperature | 12-14 OC | |
Capacity | 6 TR | |
Machine Dimensions | Mtr/Inches(LXWXH) | 2.25X1.6X1.7 |
Machine Weight | Tons | 4 Tons (Approx) |
Client Scope | Servo Stabiliser, 3 Phase 370-470 Volts (50KVA) |
SPECIFICATIONS | Unit | Fully Auto 6cavity |
FORMING | ||
Cavity Pitch | mm | 130 |
Mould Thickness (max) | mm | 160 |
Clamping Stroke (max) | mm | 120 |
Stretching Stroke (max) | mm | 400 |
No. of Cavity | Pcs | Six |
PRODUCT | ||
Product Height (max) | mm | 280 |
Container Volume (Min/Max) | ml | 100/ 1000 |
Neck Outer Diameter | mm | 28 |
Product Outer Diameter (Max) | mm | 75 |
Theoretical Production | BPH | 5400 |
POWER- 3 Phase,415V | ||
FOR BLOWING MACHINE | ||
Heater | Kw | 58.6 |
Hydraulic Motor, Air Blower & Indexing Motor | Kw | |
FOR ACCESSORIES | ||
HP Compressor | Kw | 30 |
LP Compressor | Kw | 15 |
Chiller 5 TR | Kw | 2.625 |
Cooling Tower 20TR | Kw | 3 |
Refrigerated Air Dryer | Kw | 3 |
Operation Air Pressure | Kg/cm2 | 8 |
Blowing Air Pressure | Kg /cm2 | 25 |
DIMENSION | ||
BLOW MACHINE(L x W x H) | Inches | 63 x 105 x 115 |
Experience the pinnacle of efficiency and innovation with DTPPL’s Fully Auto Blow Moulding Machine. This cutting-edge technology represents a significant advancement in the realm of PET production. Designed to streamline the entire process, this Auto PET Blow Molding Machine integrates seamless auto-loading of preforms, auto-heating, and auto-blowing. Its advanced design allows for synchronization with bottle filling lines, effectively reducing the need for manual labor. This not only lowers production costs but also ensures a consistent, high-quality output.
The Automatic Blow Moulding Machine boasts several standout features that make it an exceptional choice for modern manufacturing needs:
DTPPL’s Automatic Blow Moulding Machines are designed to meet the highest standards of performance and efficiency. The PET Stretch Blow Molding Machine offers unparalleled precision and reliability in producing high-quality PET bottles. Whether you are looking to upgrade your current setup or invest in a new production line, this Blow Moulding Machine promises a transformative impact on your manufacturing processes.
The Fully Auto PET Blow Molding Machine is not just a piece of equipment; it’s a comprehensive solution that enhances production efficiency while ensuring superior product quality. By integrating cutting-edge technology with user-friendly controls, DTPPL provides a state-of-the-art Automatic PET Blow Moulding Machine that stands out in the competitive landscape of PET production.
DTPPL’s Automatic PET Blow Moulding Machine automates the entire production process, including preform loading, heating and blowing. This integration with the bottle filling line creates a labor-free process, reducing costs while ensuring high-quality production with minimal human intervention.
Key features include seamless auto-loading, auto-heating and auto-blowing, an intuitive man-machine interface, low power consumption, simple maintenance and advanced PLC control for precise automation, ensuring smooth operation and high-quality output.
The machine’s energy-efficient design reduces power consumption, while its automated features eliminate the need for manual labor. This combination lowers both energy costs and operational expenses, making it a cost-effective choice for high-volume production.
The advanced Automatic PLC Control Panel provides sophisticated program-based automation, enabling accurate and reliable operation. This control system ensures precise adjustments in the manufacturing process, enhancing production consistency and overall efficiency.
Low power consumption reduces operational costs without compromising performance. This energy-efficient design makes the machine ideal for long-term, high-volume operations, ensuring that production remains cost-effective while maintaining top performance.