Shrink wrap systems for building materials
MSK shrink packaging systems for the building material industry
Depending on the physical properties of the load and the stack layout on the pallet, the stability of the transport package depends on the choice of packaging technology. The maximum load stability with negligible pressure on the product will be achieved with a shrink hood system.
Special solutions for different building material groups
Due to the different requirements of our customers' products, MSK shrink packaging systems offer special solutions for different product groups.
Stone building materials
Products such as sand-lime bricks, breeze blocks and clinker are heavy materials with sharp edges. The required securing of the load is often provided by a steel strapping band. The demands on the load stability provided by the film packaging are increased if the steel band is omitted. The packaging must be executed using a film with a high tensile strength. Shrink packaging is often the most efficient solution.
Chemical building materials
Chemical building materials such as paint, fillers, material in buckets and canisters place particularly high demands on the load stability, the products are often stacked in the form of pillars and not flush with the pallet. Deformation of pressure-sensitive products must be avoided. In the building material industry, flammable products or production processes also require a high level of attention in the choice of packaging technology. MSK develops the appropriate individual packaging solutions with a transport simulation.
Shrink hood applicator MSK Multitech:
Space-saving packaging system for changing product formats
The shrink hood applicator MSK Multitech owes its name to its multi-functionality: The system automatically processes up to four film formats or thicknesses. This provides the flexibility to package various pallet formats and the ability to approach every opening size even when the loads have different dimensions. Thanks to this technique MSK Multitech can save film by minimizing the film amount.
- High packaging flexibility with up to 4 different film types
- Reliable film hoods by high-quality seam welding during the hood formation.
- Simple maintenance thanks to lowerable machine head
- Maintenance-free toothed belt and very low energy consumption
- Ergonomic film roll change without entry into the danger zone
MSK Shrink frames:
Pallet shrink wrapping with hot air
MSK shrink packaging machines work with a special mixing air heating process at low temperatures. Thanks to this gentle shrink process, sharp edges and points on the product do not tear holes in the film. Protection and water resistance for long term outdoor storage is secured. MSK technology also makes the use of thinner films possible, thus lowering the cost of packaging materials significantly.
- Extremely low-maintenance.
- Target specific controllable shrink process
- Suitable for the use of thin films
- Safe shrink systems with low temperatures
- MSK Undershrink procedure for highest load stability
- Maintenance-free MSK heating elements with a 5 year warranty
MSK Undershrink procedure:
The MSK Undershrink system adjusts itself automatically to the pallet contour during pallet packaging to ensure a safe release of the pallet. Deep under the pallet runners, the film achieves its maximum grip thus offers a maximum load stability for the packages on the pallet.
Hardly any procedure has influenced pallet shrink packaging systems as much as theMSK Undershrink system. Patented in the eighties this MSK principle has lead to a significantreduction of the thickness of the films used in pallet packaging.
In conjunction with the MSK Anti-collage procedure, the Undershrink procedure enablesa crease-free pallets shrinkage. The maximum clamping force of the film comes into effect
NEW: Up to 40% energy savings with additional module MSK Shrinkcover
MSK shrink frame systems can be equipped or retrofitted with the newly developed and patent-pending MSK Shrinkcover system. Depending on the film thickness and pallet size, up to 40% of the required heat energy can be saved.