 |
| Size: | |
|---|---|
| layer: | |
| IBC tank output: | |
Supports 1000L or 12000L HDPE IBC tank blow molding; (800L~1200L can be customized)
Single-station or double-station options available;
Cycle time: ~100–130 seconds per tank;
Output: Up to 500–700 units per day (based on configuration).
High-output, high-torque extrusion system (e.g. 90–120mm screw diameter);
Bi-metallic screw & barrel for HDPE with high melt strength;
Energy-efficient heating zones with PID temperature control.
Heavy-duty clamping force: up to 800–1200 kN;
Four-post or tie-bar-free design for greater mold access and faster changeovers;
Mold platen size customizable for various IBC barrel designs.
Parison Control System
100-point parison wall thickness controller (MOOG or equivalent);
Ensures uniform barrel thickness and improved material utilization;
Supports recipe storage and automatic adjustment.
Servo-hydraulic system reduces energy usage by 30%–50%;
Fast response and precise control;
Low noise, low maintenance.
Touchscreen interface (Siemens or Schneider);
Easy operation, multi-language support;
Real-time monitoring, alarm system, data logging.
IBC Tank Display
We understand that no two factories are the same. Xinzhou offers customized configurations based on:
Local power requirements (3-phase voltage customization)
Tank neck size, wall thickness standards, and branding features
Integration with downstream systems (trimming, leak testing, stacking, etc.)
Feature | Benefit |
Heavy-duty design | Built for 24/7 industrial use |
Energy efficient | Lower operating costs over time |
Stable output | Reduced defect rates, higher yield |
Easy to operate | Simplified interface, remote support available |
Full-line integration | Seamless with cage welding and assembly line |
Our Team
IBC Technology R&D Team
7* 24-hour online service Department
IBC Machine Assembly Team
IBC Cases
Customer from Bangladesh 
Customer from Brazilian
Customer from Spanish
FAQ
Q1: What is the typical production capacity of an IBC blow molding machine?
A: Standard models typically produce 12 IBC inner tanks (1000L) per hour, depending on the machine model, mold specifications, and automation level.
Q2: Are the IBC inner tanks produced by blow molding machines suitable for food-grade liquids?
A: The machine must support food-grade HDPE raw materials and comply with FDA (USA) or EC 1935/2004 (EU) standards. The inner tank surface should be smooth and contamination-free.
Q3: How is the wall thickness uniformity of IBC inner tanks ensured?
A: Choose a blow molding machine equipped with an automatic wall thickness control system, which uses infrared or ultrasonic sensors to adjust mold gaps in real time.
Q4: Is the energy consumption of blow molding machines high?
A: Energy consumption depends on machine power (typically 30–80 kW). Machines with variable frequency drives (VFD) are recommended for energy savings, and per-unit energy consumption data should be checked.
Q5: What does after-sales support include?
A: Typically covers 1-year warranty, remote guidance, spare parts supply (e.g., screws, heating rings), and some suppliers offer on-site installation and debugging.
Supports 1000L or 12000L HDPE IBC tank blow molding; (800L~1200L can be customized)
Single-station or double-station options available;
Cycle time: ~100–130 seconds per tank;
Output: Up to 500–700 units per day (based on configuration).
High-output, high-torque extrusion system (e.g. 90–120mm screw diameter);
Bi-metallic screw & barrel for HDPE with high melt strength;
Energy-efficient heating zones with PID temperature control.
Heavy-duty clamping force: up to 800–1200 kN;
Four-post or tie-bar-free design for greater mold access and faster changeovers;
Mold platen size customizable for various IBC barrel designs.
Parison Control System
100-point parison wall thickness controller (MOOG or equivalent);
Ensures uniform barrel thickness and improved material utilization;
Supports recipe storage and automatic adjustment.
Servo-hydraulic system reduces energy usage by 30%–50%;
Fast response and precise control;
Low noise, low maintenance.
Touchscreen interface (Siemens or Schneider);
Easy operation, multi-language support;
Real-time monitoring, alarm system, data logging.
IBC Tank Display
We understand that no two factories are the same. Xinzhou offers customized configurations based on:
Local power requirements (3-phase voltage customization)
Tank neck size, wall thickness standards, and branding features
Integration with downstream systems (trimming, leak testing, stacking, etc.)
Feature | Benefit |
Heavy-duty design | Built for 24/7 industrial use |
Energy efficient | Lower operating costs over time |
Stable output | Reduced defect rates, higher yield |
Easy to operate | Simplified interface, remote support available |
Full-line integration | Seamless with cage welding and assembly line |
Our Team
IBC Technology R&D Team
7* 24-hour online service Department
IBC Machine Assembly Team
IBC Cases
Customer from Bangladesh Customer from Brazilian
Customer from Spanish
FAQ
Q1: What is the typical production capacity of an IBC blow molding machine?
A: Standard models typically produce 12 IBC inner tanks (1000L) per hour, depending on the machine model, mold specifications, and automation level.
Q2: Are the IBC inner tanks produced by blow molding machines suitable for food-grade liquids?
A: The machine must support food-grade HDPE raw materials and comply with FDA (USA) or EC 1935/2004 (EU) standards. The inner tank surface should be smooth and contamination-free.
Q3: How is the wall thickness uniformity of IBC inner tanks ensured?
A: Choose a blow molding machine equipped with an automatic wall thickness control system, which uses infrared or ultrasonic sensors to adjust mold gaps in real time.
Q4: Is the energy consumption of blow molding machines high?
A: Energy consumption depends on machine power (typically 30–80 kW). Machines with variable frequency drives (VFD) are recommended for energy savings, and per-unit energy consumption data should be checked.
Q5: What does after-sales support include?
A: Typically covers 1-year warranty, remote guidance, spare parts supply (e.g., screws, heating rings), and some suppliers offer on-site installation and debugging.
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