Cross Wrap machinery
Bale Slice Breaker
BALE SLICE BREAKER SECURES LOOSE MATERIAL FLOW
FROM BALES TO BOTTLES AND OTHER LOOSE MATERIAL
The bale slice breaker is an addition to our Bale opener or Dewiring machine. When the material moves forward in your operation line after bale opening or dewiring, the material is in tight slices that might cause blocks further in the process. We’ve listened to our clients and designed our solution to secure loose material flow.
How does it work? After dewiring or bale opening, the material slices drop onto the slice breaker conveyor, which breaks the slices against a shear gate. The machine breaks the slices so that pieces of RDF, for example, stay whole but separate, which is important for a smooth sorting process.
In addition, the shear gate of the machine is adjustable to your varying needs. You can adjust it yourself to match your capacity and material looseness requirement at a time. The bale slice breaker is suitable for different materials. Get in contact with our sales team to discuss if our new product is the right fit for you.
AFFORDABLE CHOICE FOR YOUR PLASTIC RECYCLING PROCESS
If you get our Bale slice breaker to complement our Dewiring machine or Bale opener, Cross Wrap would be handling your whole infeed process. You only need one phone number for assistance and maintenance. Also, the machines are easy to operate from one control panel.
With the Bale slice breaker we are able to offer an affordable choice that keeps your material intact. This way, you’re able to, for example, better separate different kinds of PET bottles at the end of your process.
WHY USE OUR BALE SLICE BREAKER
- Prevents blockages in your operation line
- Adjustable shear gate and conveyor speed to adjust capacity and particle size
- Unlike shredders, doesn’t break material such as PET plastic bottles so they can be recycled better
- Easily controlled with dewiring or bale opening unit
- One contact number for all your machinery in material infeeding process
- Ensures smooth, controlled material flow to final stages of production and decreases the robustness requirements of the following conveyors