Manufacturing and workshop scrap is increasing in many industrial regions of Poland. This material often arrives as light offcuts and mixed shapes—easy to collect, but difficult to store and ship efficiently. Loose scrap spreads fast, and transport costs rise when loads are “full of air.” That’s why compacting and baling are becoming common upgrades: they reduce the space footprint and improve shipping efficiency without requiring complex processing lines.
The customer needed to manage a steady stream of light scrap:
Storage space was limited; loose scrap expanded rapidly
Loading was inconsistent and time-consuming
Yard appearance and organization suffered during busy periods
They wanted a simple, reliable baler solution that creates uniform bales suitable for stacking.
Jiangsu Wanshida Hydraulic Machinery Co., Ltd. provided 1 set Y83-250A push-out scrap metal baler to convert light scrap into a consistent bale format. The press box size supports practical feeding, while push-out discharge supports quick staging. The cycle timing and control stability help operators build a repeatable routine and avoid “pile emergencies.”
| Item | Specification |
|---|---|
| Model | Y83-250A (Push-out) Metal Baler |
| Quantity | 1 set |
| Main Cylinder Force | 2500 kN |
| Side Cylinder Force | 1220 kN × 2 |
| Top Cover Cylinder Force | 848 kN |
| Small Door Cylinder Force | 542 kN |
| Hydraulic System Pressure | 22 MPa |
| Press Box Size (L×W×H) | 2000 × 1400 × 900 mm |
| Bale Size (L×W×H) | (200–1000) × 500 × 500 mm |
| Max Scrap Thickness | 6 mm |
| Cycle Length | Approx. 120 sec |
| Hydraulic Pump | 160YCY14-1B, 31.5 MPa, 160 ml/r, 2 sets |
| Motor | Y225M-6, 980 rpm, 30 kW, 2 sets |
| Wear Plates Material | Hardox 500 |
| Weight | About 21 ton |
They reported immediate improvements in space utilization: bales replaced loose piles and made the yard easier to manage. Loading became faster because bales stack more predictably. Over time, the site developed a steadier dispatch rhythm because bale output became a standard product form rather than a daily improvisation.
For light scrap streams, the biggest win is control—space control, loading control, and schedule control. A 250-ton push-out baler helps create clean, stackable bales that support stable daily operations.
Q1: Is this model suitable for light scrap?
Yes, especially when light scrap causes space and loading inefficiency.
Q2: How do wear plates affect service life?
Hardox 500 wear plates improve wear resistance in high-contact areas.
Q3: What determines the best bale length?
Loading method, stacking strategy, and transport dimensions.
CTA: Send your scrap type + daily tonnage + preferred bale size. We’ll recommend the best setup to improve stacking and shipping.
Manufacturing and workshop scrap is increasing in many industrial regions of Poland. This material often arrives as light offcuts and mixed shapes—easy to collect, but difficult to store and ship efficiently. Loose scrap spreads fast, and transport costs rise when loads are “full of air.” That’s why compacting and baling are becoming common upgrades: they reduce the space footprint and improve shipping efficiency without requiring complex processing lines.
The customer needed to manage a steady stream of light scrap:
Storage space was limited; loose scrap expanded rapidly
Loading was inconsistent and time-consuming
Yard appearance and organization suffered during busy periods
They wanted a simple, reliable baler solution that creates uniform bales suitable for stacking.
Jiangsu Wanshida Hydraulic Machinery Co., Ltd. provided 1 set Y83-250A push-out scrap metal baler to convert light scrap into a consistent bale format. The press box size supports practical feeding, while push-out discharge supports quick staging. The cycle timing and control stability help operators build a repeatable routine and avoid “pile emergencies.”
| Item | Specification |
|---|---|
| Model | Y83-250A (Push-out) Metal Baler |
| Quantity | 1 set |
| Main Cylinder Force | 2500 kN |
| Side Cylinder Force | 1220 kN × 2 |
| Top Cover Cylinder Force | 848 kN |
| Small Door Cylinder Force | 542 kN |
| Hydraulic System Pressure | 22 MPa |
| Press Box Size (L×W×H) | 2000 × 1400 × 900 mm |
| Bale Size (L×W×H) | (200–1000) × 500 × 500 mm |
| Max Scrap Thickness | 6 mm |
| Cycle Length | Approx. 120 sec |
| Hydraulic Pump | 160YCY14-1B, 31.5 MPa, 160 ml/r, 2 sets |
| Motor | Y225M-6, 980 rpm, 30 kW, 2 sets |
| Wear Plates Material | Hardox 500 |
| Weight | About 21 ton |
They reported immediate improvements in space utilization: bales replaced loose piles and made the yard easier to manage. Loading became faster because bales stack more predictably. Over time, the site developed a steadier dispatch rhythm because bale output became a standard product form rather than a daily improvisation.
For light scrap streams, the biggest win is control—space control, loading control, and schedule control. A 250-ton push-out baler helps create clean, stackable bales that support stable daily operations.
Q1: Is this model suitable for light scrap?
Yes, especially when light scrap causes space and loading inefficiency.
Q2: How do wear plates affect service life?
Hardox 500 wear plates improve wear resistance in high-contact areas.
Q3: What determines the best bale length?
Loading method, stacking strategy, and transport dimensions.
CTA: Send your scrap type + daily tonnage + preferred bale size. We’ll recommend the best setup to improve stacking and shipping.
