Presona - Model LP Series - Prepress Technology Balers
The Presona pre-press technology baler is probably the most energy efficient baler on the market… When looking for a correct capacity baler, the most interesting comparison is the throughput capacity set in relation to the motorization of the baler. The figure to compare is the real volume capacity – the theoretical figures only say how much of “nothing” a baler can process… Look at the real volume capacity and look at the required motorization to reach this capacity. Compare… you will find that most balers have a much higher motorization to reach the same result… So, if you want a baler that will perform with an optimized energy efficiency, choose the Presona baler.
The correct capacity Presona baler to meet the customer’s requirements is always available. The Presona LP Baler Series consists of 6 basic models, the OH, EH, VH, CH, DH and XH. These letters refer to size of the feed opening. All models are available with either larger or doubled up motors for higher output.
The OH model is developed for the printing, packaging and graphic industry. Typically fed by means of a pneumatic feeding system. The OH model has no prepress – suitable for low headroom. The LP 40 OH baler has a throughput capacity of up to 10 tons/hour.
The EH, VH and CH models accept and process most materials, from paper and PET-bottles to household and industrial waste. Typically fed by means of a conveyor system. All equipped with prepress. This series has a throughput capacity of up to 50 tons/hour.
The DH and XH models have the unique two-step prepress system allowing a feed opening width up to 2,2 m – all the way from the feed opening down to the bottom of the press chamber – exellent when baling bulky material. Capacity up to 50 tons/hour.
The Presona LP Baler Series
- Minimum energy consumption
- Highly resistant to wear thanks to the unique prepress technique
- Bales of optimum size and density
- Easily operated
- Mechanically reliable and quiet in operation
- Incorporate a high degree of safety in all components
- Safest possible working conditions