Bakelite Injection Molding Machine for Household Kitchenware
The Bakelite-IMM injection molding machine is specifically engineered for the household kitchenware industry, delivering high-precision molding of phenolic resin products. This specialized equipment produces durable, heat-resistant bakelite components with excellent mechanical strength, making it ideal for manufacturing kitchenware handles and other critical components.
Key Features & Specifications
| Model |
Bakelite-IMM / HJF-240 |
| Screw Diameter |
20-40 mm |
| Injection Weight Capacity |
1028 grams |
| Power Rating |
24.2 KW |
| Motor Type |
High-performance Servo Motor |
| Certifications |
ISO9001, CE, SGS |
Advanced Technology Benefits
- Precision screw design optimizes melting, mixing, and injection processes
- Servo motor technology ensures accurate control and energy efficiency
- Combines injection molding with single screw extrusion capabilities
- Intuitive control panel for easy parameter monitoring and adjustment
- Quieter operation with lower maintenance requirements
Applications
This bakelite injection molding machine is specifically designed for manufacturing household kitchenware components, including:
- Bakelite handles for pots, pans, and utensils
- Kitchenware knobs and control components
- Electrical insulators and heat-resistant parts
- Intricate kitchenware components requiring dimensional accuracy
Pricing & Order Information
Price: $15,000 USD
Minimum Order: 1 set
Supply Capacity: 300 sets per month
Delivery Time: 30 days
Payment Terms: TT, LC, DP
Shipping: Standard packing included
Technical Support & Services
- Comprehensive machine setup and calibration assistance
- Operator and maintenance personnel training programs
- Technical troubleshooting and remote diagnostics
- Genuine replacement parts and consumables
- Regular software updates and system enhancements
- On-site repair services for prompt issue resolution
Our commitment to exceptional after-sales support ensures your bakelite injection molding machine maintains optimal performance throughout its service life, minimizing downtime and maximizing production efficiency.
