Problem
•One
of the only items passengers must still touch at the airport is a tray.
•Based
on Finnish - Irish research;
•50%
of airport trays contain pathogens that cause infectious diseases.
100%
of influenza A viruses detected at airports was found on the surface of the
tray
Solution today
•There
are plenty of different ways how airports are trying to solve this problem.
While investigating, we saw everything from industrial kitchen washing machines
to grandmoms
with a cleaning cloth and zero interest.
•For
us, it did seem like a huge problem, without any effective industrial solution.
So we did create one
•Automated
virus killing machine, "Cuusi 3000".
•Together
with our unique and 100% natural spruce based multi-virus killing cleaning
liquid, "Cuusi mega kill".
•We
can handle the tray in 15 sec and guarantee protection surface lasting seven
days.
•We
have a secret method to manufacture unique cleaning liquid and patent-pending
for an automated process to handle
trays.
•The
opportunity size is approx
43 000 airports; our targeted market is 10 000 fully consumer airports.
Therefore, we focus our actions on the most relevant 1000 ones in the
beginning.
•Cuusi
Oy has been developing a 100% natural spruce resin acid-based disinfectant
destroys all-knowing viruses and bacterias,
including Covid-19 and its mutagens. It also creates a durable protection layer
on surfaces lasting up to 7 days . Cuusi Oy is currently developing a device
that automatically sprays the protective layer into the trays. By using this
solution, the airport can increase passengers
safety quickly and cost-effectively.
Cuusi Accredited laboratories granted certificates to Cuusi products according to EN13727, EN1276, EN13697, EN16615, EN13624 ja EN1650.
Cuusi products destroy the following microbes in less than a minute:
Staphylococcus Aureus, Mycobacterium Avium, Escherichia Coli, Enterococcus hirae, Pseudomonas aeruginosa, Candida Albicans, Aspergillus brasiliensis, COVID19.
On the surfaces Cuusi product's antimicrobial property lasts more than seven days.