The EPS Foam Cold Press Compactor is a professional recycling machine designed to compress and densify waste EPS (Expanded Polystyrene) foam materials. Through a combination of shredding, screw conveying, and hydraulic compression, loose EPS foam can be processed into compact dense blocks, significantly reducing storage and transportation costs.
The machine first crushes EPS foam using a dual-shaft shredding system, then transfers the material into a compression chamber via a high-speed screw conveyor. After that, the foam is cold-pressed into dense blocks with a compression ratio of up to 50:1, making it easy to store, transport, and reuse.
The recycled EPS blocks can be reused as raw materials for producing plastic frames, building decoration materials, and other recycled plastic products.
This equipment is widely used in EPS recycling plants, seafood processing factories, electronics factories, supermarkets, packaging companies, and waste recycling centers.
Cold pressing technology compresses EPS foam up to 50:1 density ratio
Greatly reduces transportation and storage space
Dual-shaft crushing blades break EPS foam into small pieces
Ensures continuous feeding and efficient processing
High-speed rotating screw transports crushed material
Gradually compresses foam before final hydraulic pressing
Hydraulic blade cuts compressed material into blocks
Convenient for packaging, stacking, and transportation
Suitable for processing:
EPS foam waste
XPS foam boards
EPP foam materials
Food trays and foam packaging materials
EPS materials from production waste and discarded products can be fully recycled and reused.
EPS foam contains approximately 98% air and only 2% polystyrene, making densification highly effective for material recovery.
Even though EPS is derived from petroleum, it represents less than 0.1% of crude oil consumption, and recycling significantly improves resource efficiency.
EPS products are widely used in insulation boards and help save energy throughout their lifecycle.
| Item | Specification |
|---|---|
| Capacity | 150 kg/h |
| Screw Diameter | Φ350 mm |
| Feeding Inlet Size | 1000 × 600 mm |
| Screw Speed | 36 rpm |
| Crusher Blade System | Four shafts (10+11+10+11 blades) |
| Crusher Speed | 120 rpm |
| Main Motor | 11 kW |
| Crusher Motor | 2.2 kW × 4 |
| Hydraulic Pump Motor | 1.5 kW |
| Output Block Size | 380 × 380 mm |
| Machine Dimension | 4800 × 1500 × 2500 mm |
| Machine Weight | 1800 kg |
Manual feeding of EPS foam waste into the crusher
Dual-shaft shredding into small foam particles
Screw conveying to compression chamber
Cold pressing to reduce volume and increase density
Hydraulic cutting into dense foam blocks
Finished blocks ready for storage or recycling reuse
The EPS Foam Cold Press Recycling Machine is widely used in:
EPS foam recycling plants
Packaging material factories
Seafood processing industries
Electronics manufacturing factories
Supermarkets and logistics centers
Waste recycling stations
Reduces EPS waste volume dramatically
Improves transportation efficiency
Converts waste foam into valuable recycled material
Low energy consumption
Stable and reliable industrial design
Easy operation and maintenance
The machine can process EPS foam, XPS foam boards, EPP foam materials, and foam packaging waste.
The equipment can compress foam with a volume reduction ratio of up to 50:1.
The standard model has a capacity of about 150 kg per hour, depending on foam density and feeding conditions.
Yes. The block size can be customized according to customer requirements.
Yes. It is widely used in recycling facilities, factories, and waste management companies handling EPS foam waste.
Over 20 years of plastic machinery manufacturing experience
Professional EPS recycling equipment design
Reliable industrial components
Custom machine configuration available
Global installation guidance and after-sales service
Request a Quote for EPS Foam Cold Press Compactor
Send us your foam material type, expected capacity, and factory layout.
Our engineers will recommend the most suitable EPS recycling solution for your project.