Transcript Air Shield

Air Shield
design
analysis
Air Shield
The main goals of a modern O.R. are:
Aseptic environment
Ready to operate timing
Flexibility evolution
analysis
Air Shield
Ergonomic analysis of the working areas used by the personal.
Get different areas with different aseptic grades
Surgeon
Strumentation technician
Anestesist
O.R. attendant
analysis
Air Shield
How is the clean air distributed into the O.R.?
Turbolent distribution: generic surgery
Air quality class: FED 209: class 10.000; ISO 14664: class ISO7
Air flow: 15/20 ac/h
analysis
Air Shield
How is the clean air distributed into the O.R.?
Unidirectional (laminar) ceiling air distribution system: specialist surgery
Air quality class: FED 209: class 100; ISO 14664: class ISO5
Air flow in the aseptic zone only: 250 ac/h
analysis
Air Shield
This seems to be the best air distribution possible, but the aseptic air flow is
obstacled by a warm air layer, that come from the operating area and from
the presence of operating lights. The aseptic air flow is not any more
perfectly vertical but open to the extern and doesn’t reach the operating
point.
analysis
Air Shield
Which is the Air Shield solution?
“The ‘AirShield’ A/C system”
Air flow: 210 m3/h directly on the hot-spot!
Laminar air flow speed: 0,29 m/s. Final filter efficency: H13
P.C.: 250 Pa
The aseptic air flow isn’t obstacled by hot air layers or from operating lights.
The aseptic air flow perfectly reaches the operation point.
analysis
Air Shield
During an operation inside the room there are two different working zones:
Aseptic area
Outer area
Objective: create a very aseptic area as near as possible to the operating
point
concept
Air Shield
This two operating areas evidence the need to get as lower as possible the air
contamination into the operating rooms.
The ‘Air Shield’ A/C system performances are:
•Air flow: 210 m3/h directly on the hot-spot!
•Air flow speed: 0,29 m/s
project
Air Shield
All the operating theatre can adopt The ‘Air Shield’ A/C system. They can drastically
maximize the aseptic air flow on the hot-spot. This is the all surgeons need and it will be a
standard procedure in the future operating rooms. The A/C system, placed outside the O.R.,
extracts the air from the O.R. and, after a filtering procedure, it gets the air directly on the
operating point again.
The Air Shield is completely free to move around the operating area.
Air extraction
Aseptic air flow
A/C unit outside
the operating room
Air Shield
‘Air Shield’ A/C system components are:
Aseptic air distribution system (in to the operating room)
A/C system (Hi-tech and very compact – Outside the operating room)
Air Shield
The ‘Air Shield’ A/C system is a new high-tech project developed by EGGS DESIGN and TECNAIR LB
to achive a perfectly aimed aseptic air flow (filtered by HEPA air-filter) and get it directly above the operating field
(about 31’’ above the operating area).
The ‘Air Shield’ environment is plugged directly on the main source of the operating room’s aseptic A/C system.
In case the operating room hasn’t an indipendent aseptic air source, it’s possible to install a new very compact A/C system
near the O.R.
A ceiling supply system allows the Air Shield system to be completely free of move against the wall/ceiling and the manual
operated vertical adjustment, with weight compensation by means of springs, take the air flow directly on the surgical hotspot. The ‘Air Shield’ system gets the aseptic air flow into the room through a microspotted fabric. The air flows directly on
the hot-spot or on all the stuff to be kept aseptic. Optionally it is possible to install a lighting system with optical-fiber wires
that supplies cold white light.
FIELDS OF INTEREST
The ‘Air Shield’ A/C system should be used in O.R. environments, pharmaceuticals rooms, E.R.s and all those
environments where it should be granted the maximum level of aseptic air.
product