| Nama Merek: | Wanshida |
| Nomor Model: | Y83-160 |
| MOQ: | 1set |
| Harga: | negotiable |
| Waktu Pengiriman: | 30 hari |
| Ketentuan Pembayaran: | L/C,T/T |
The Y83-160 scrap metal baler is a medium-capacity hydraulic baling press developed for recycling yards, metal processing plants and scrap collection centers that need to handle approximately 2–3 tons of loose metal per hour.
Instead of storing irregular scrap in large piles, the machine compresses the material into stackable rectangular bales. This creates a more organized workflow between material collection, sorting, storage, weighing and transportation.
The Y83-160 is equipped with a 1600 × 1000 × 800 mm compression chamber and 1600 kN nominal pressing force. It can produce bales with either a 350 × 350 mm or 400 × 400 mm cross-section, while the bale length can be adjusted from approximately 400 to 600 mm.
With 30 kW installed power, turn-out bale discharge and manual hydraulic valve operation, this model provides a straightforward solution for buyers who need reliable production without moving directly to a larger and more expensive high-capacity baler.
Loose metal waste rarely arrives in uniform shapes. Sheet offcuts, stamping skeletons, wire, lightweight steel parts and mixed production scrap are difficult to stack and move.
When these materials are handled without compression, recycling companies may experience:
These problems do not only affect storage. They can slow down the entire material flow from scrap collection to final delivery.
The Y83-160 hydraulic metal baling press converts irregular scrap into dense and consistently sized handling units. Once compressed, the finished bales can be counted, weighed, stacked and transported more efficiently than loose material.
Its 1600 kN pressing force is suitable for processing common light and medium scrap generated by metalworking, manufacturing and recycling operations. The large chamber reduces the amount of manual material preparation, while the turn-out system discharges the finished bale from the compression chamber.
Operational benefits include:
Manual hydraulic valve control is supplied as the standard operating method. PLC semi-automatic control, remote operation, feeding conveyors and customized hydraulic cooling systems are available when greater automation is required.
| Parameter | Technical Data |
|---|---|
| Product Model | Y83-160 |
| Product Type | Hydraulic Scrap Metal Baler |
| Nominal Pressing Force | 1600 kN / 160 ton |
| Compression Chamber Size | 1600 × 1000 × 800 mm |
| Bale Size Option 1 | (400–600) × 350 × 350 mm |
| Bale Size Option 2 | (400–600) × 400 × 400 mm |
| Reference Bale Density | More than 1800 kg/m³ |
| Processing Capacity | Approximately 2000–3000 kg/h |
| Installed Power | 30 kW |
| Bale Discharge Method | Turn-out discharge |
| Standard Control | Manual hydraulic valve control |
| Optional Control | PLC semi-automatic operation and remote control |
| Optional Equipment | Feeding conveyor, oil cooler and customized electrical system |
Processing capacity and finished bale weight are affected by the material type, original bulk density, moisture, feeding speed and selected bale dimensions. Technical details should be confirmed using representative scrap samples before production.
The Y83-160 scrap compactor machine is suitable for facilities that generate or collect a continuous volume of compressible metal but do not require a large industrial baling system.
The machine can compress sorted light steel, sheet metal, wire and mixed compressible scrap before the material is sold or transported.
Stamping skeletons, punched sheet waste and production offcuts can be baled close to the production area, reducing the space required for temporary scrap storage.
Irregular steel offcuts and rejected metal components can be converted into manageable bales for easier internal handling and recycling.
Dense and uniform bales are easier to store and can provide more consistent furnace charge material than loose scrap.
Body-sheet offcuts, steel brackets and appropriately sized production waste can be compressed after oil, plastic and other contaminants have been removed.
Aluminum and copper scrap may also be processed. However, the actual bale density and production rate will differ from ferrous scrap and should be confirmed in advance.
Provide photos or videos showing the material shape, maximum dimensions, thickness and original bulk density. The same baler may produce different results when processing sheet steel, wire, aluminum or mixed scrap.
The Y83-160 has a reference capacity of 2–3 t/h. Daily output should be calculated according to effective production time rather than the total shift length.
For example, material sorting, loading, bale removal and operator breaks should be included when estimating the required capacity.
The 350 × 350 mm bale section is suitable for buyers requiring smaller, easier-to-handle bales. The 400 × 400 mm option is more appropriate when larger lifting equipment, storage space and furnace openings are available.
Manual feeding may be practical for a small and organized scrap stream. A hydraulic grab or conveyor is recommended when the material volume is higher or the pieces are difficult to handle manually.
Manual hydraulic valve control offers simple operation and straightforward maintenance. PLC control is more suitable when the buyer requires repeatable cycles, reduced operator input and integration with feeding equipment.
The buyer should confirm the foundation, power supply, feeding area, bale discharge space, ventilation, ambient temperature and maintenance access before approving the final machine layout.
This model is mainly intended for light and medium scrap. Complete car bodies or large structural components must be dismantled or pre-cut before loading. Buyers processing bulky automotive scrap may require a larger chamber or higher-capacity baler.
The exact volume reduction depends on the original shape and bulk density of the scrap. Light sheet metal and irregular stamping waste usually show a more noticeable reduction than already compact or heavy material.
Bale weight is not fixed. It depends on the selected bale dimensions, material density, metal type and compression result. Representative material information is required to estimate the likely bale weight.
A conveyor is optional. Manual or grab feeding may be sufficient for lower-volume operations. A conveyor is recommended when the scrap is relatively uniform and continuous feeding is required.
Regular maintenance includes checking hydraulic oil level and cleanliness, inspecting hoses and seals, lubricating moving parts, tightening electrical connections and removing scrap trapped around the chamber. Hydraulic filters and wear parts should be replaced according to the maintenance schedule.
For an accurate Y83-160 configuration, provide the scrap type, material dimensions, estimated daily volume, preferred bale size, feeding method and local electrical supply.