ENERPAT Triple Compression Automatic Copper Baler Machine
Product Description
Where Copper Scrap Comes From
Copper waste is generated across multiple industries:
Construction & Demolition (pipes, tubes, wires, busbars)
Automotive & Electronics (motors, radiators, transformers, coils)
Manufacturing & Foundries (sheets, rods, turnings, swarf, offcuts)
If left untreated, these materials occupy valuable storage space and reduce overall recycling efficiency. By baling them into compact, uniform blocks, recyclers can significantly reduce logistics costs, maximize storage efficiency, and increase resale value.
The ENERPAT Triple Compression Advantage
The Automatic Copper Baler Machine applies three-directional high-force compression to ensure every bale is uniform, dense, and optimized for smelting or resale.
Powerful Compression Performance
Max copper output capacity: up to 67 tons/hour
Compression force: over 1000 tons in largest models
Uniform density with short cycle time
Wide Range of Scrap Compatibility
Handles copper alloy scrap, mixed copper scrap, copper pipes, tubes, rods, bars, plates, sheets, strips, thick wires, busbars, insulated wires, as well as brass and bronze.
Certified Quality & Reliability
CE & ISO certified
Siemens / Schneider PLC control system with touchscreen operation
Hallite hydraulic seals for durability and zero leakage
User-Friendly & Low Maintenance
Modular design for easy servicing
Fully automatic with remote control operation
Intelligent programming for real-time monitoring (current, temperature, run time)
Composition and Structure
Material Testing
Model Range for Every Scale
From compact models with 11 t/h copper output to heavy-duty machines delivering 67 t/h, the ENERPAT TH Series covers every production scale, ensuring the right solution for steel plants, foundries, recycling yards, and large industrial processors.
Call to Action
Upgrade your recycling efficiency with the ENERPAT Triple Compression Automatic Copper Baler Machine — the proven choice for high-volume, high-density copper baling. Contact our experts today to get a tailored solution for your scrap handling needs.
Product Details
Triaxial Compression for Superior Molding
Uniform force distribution ensures higher compression efficiency and superior forming quality, enabling a high compression ratio. |
Engineered for Durability & Stability
Professional design, advanced manufacturing, and high-quality components ensure long-term reliable operation. High-performance equipment built to last. |
High-Efficiency Hydraulic System
Cartridge-type integrated valve block delivers high flow and fast operation. Tapered H-type ports prevent leakage. Hallite (UK) cylinder seals provide safe and durable performance. |
Robust Structure, Easy Maintenance
Mortise-and-tenon welded steel body ensures exceptional strength and long service life. Modular design simplifies maintenance and reduces costs. |
Intelligent PLC Control System
Siemens/Schneider PLC supports real-time monitoring. One-touch operation via touchscreen/buttons with auto-alarm function. Smart programming allows easy adjustment of compression and feeding time. Real-time tracking of operation time, current, temperature, and more. |
Technical Data Sheet
| MODEL | AMB-TH-2080 | AMB-TH-2210 | AMB-TH-2212 | AMB-TH-2812 | AMB-TH-2815 | AMB-TH-6020 | AMB-TH-60201 | |
| BalesHxW(L) | mm | 250 x 250 (var.) | 300 x 300 (var.) | 300 x 300 (var.) | 400 x 400 (var.) | 400 x 400 (var.) | 600 x 600 (var.) | 600 x 600 (var.) |
| Motor Power | kW | 1 x 55 | 1 x 55 1 x 90 2 x 55 | 1 x 55 1 x 90 2 x 55 | 1 x 90 2 x 55 | 1 x 90 2 x 90 3 x 90 | 3 x 90 | 3 x 90 |
| Cycle time (no-load) | S | 25 | 34 - 23 | 38 - 26 | 40 - 36 | 46 - 28 | 60 | 69 |
| Bales/h (90% availability) | 1/h | 137 | 101 - 149 | 90 - 132 | 86 - 95 | 74 - 122 | 57 | 50 |
| Max. production capacity, Fe (bale weight) | t/h | 10 (69 kg) | 13 - 19 (124 kg) | 12 - 17 (124 kg) | 24 - 26 (264 kg) | 21 - 34 (264 kg) | 47 (791 kg) | 59 (1,130 kg) |
| Max. production capacity, Cu + Ms (bale weight) | t/h | 11 (78kg) | 15 - 22 (141 kg) | 13 - 20 (141 kg) | 27 - 30 (301 kg) | 23 - 39 (301 kg) | 54 (903 kg) | 67 (1,290 kg) |
| Max. production capacity, Al (bale weight) | t/h | 4 (28kg) | 5 - 7 (44 kg) | 4 - 6 (44 kg) | 8 - 9 (94 kg) | 7 - 12 (94 kg) | 16 (272 kg) | 20 (389 kg) |
| Cylinder forces, 1st compactor | t | 72 | 112 | 112 | 161 | 189 | 343 | 343 |
| Cylinder forces, 2nd compactor | t | 91 | 136 | 161 | 220 | 252 | 494 | 494 |
| Cylinder forces, final compactor | t | 160 | 200 | 200 | 350 | 350 | 800 | 1,000 |
| Spec. pressure final compactor | N/ cm² | 2,128 | 2,063 | 2,063 | 2,104 | 2,104 | 2,144 | 2,749 |
| Press box, (W x L x H) | mm | 795 x 1,925 x 600 | 1,020 x 2,235 x 800 | 1,245 x 2,235 x 800 | 1,245 x 2,840 x 1,100 | 1,500 x 2,840 x 1,100 | 2,000 x 6,000 x 1,600 | 2,010 x 6,000 x 1,600 |
| Feed opening, (W x L) | mm | 725 x 1,450 | 945 x 1,655 | 1,170 x 1,655 | 1,170 x 2,130 | 1,425 x 2,130 | 2,910 x 4,930 | 1,910 x 4,930 |
Machine dimensions (W x Lx H) | mm | 4,550 x 5,800 x 3,000 | 5,290 x 6,605 x 3,735 | 5,990 x 6,605 x 3,775 | 6,360 x 8,035 x 4,600 | 7,060 x 8,035 x 4,615 | 10,155 x 15,650 x 6,110 | 10,495 x 15,650 x 6,110 |
| Machine weight | t | approx. 25 | approx. 41 | approx. 44 | approx. 60 | approx. 67 | approx. 186 | approx. 201 |