HyperInfo Canada Inc. <http://WWW.HyperInfo.CA/GS.Sunatori/>
65, des Parulines <mailto:GS.Sunatori@HyperInfo.CA>
Gatineau, QC J9A 1Z4 <skype:GS.Sunatori>
Canada <tel:+1-819-595-9210>
Submission Terms
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Technical Approach
Title of Proposal:
Low Noise Air Blower System: Archimedes Spiral Screw
Proposed Technical Approach:
The proposal is to use the Archimedes Spiral Screw as a fluid mover for the Low Noise Air Blower System.
Most noise from conventional electric air blower systems (3-blade, 4-blade, 6 blade, etc.) originates from the blade cutting the air at the interface. The use of Archimedes Spiral Screw will significantly reduce the generation of noise due to the single-edge construction. Undesirable vibration, which results from asymmetrical weight distribution of conventional electric air blower systems, will also be reduced, if not eliminated.
The helical vane will minimise the turbulent flow, and keep the flow as laminar as possible. In effect, the electric air blower system with the helical vane creates a cyclone vortex. Thanks to the smooth operation, the lifetime of the components will be extended.
The Magnetically Erected Wind-Effect Display Device (Canadian Patent 2 327 490) has demonstrated the effectiveness of the helical vane in moving air.
The drive mechanism (an electric motor, etc.) will be housed co-axially with the helical vane, inside a novel double-cylindrical case. This unique configuration results in ultra-compact design that fits into a required package.
Except for the custom-made helical vane and the housing structure, proven technology with off-the-shelf components will be used throughout the development.
An off-the-shelf electric motor will be selected that meets the ambient temperature requirement and the longevity/durability requirement.
The proposed power is DC (12 VDC or 24 VDC) with a compact speed controller such as SmartFan Wisp II.
Diagram of a helical vane
Proposed Plan and Deliverables:
Phase 1 - Proof of concept prototype (a total of 3 months)
conceptual design of a working model (2 weeks)
subcontract 3-D CAD graphics (4 weeks)
subcontract 3-D rapid prototyping (2 weeks)
Phase 2 - Advanced development prototype (a total of 3 months)
construction of a full scale prototype system (4 weeks)
analysis and documentation (2 weeks)
evaluation of final design economics (2 weeks)
Deliverables
a 3-D CAD graphics file in DXF format
a proof-of-concept prototype
Proposed Budget
Phase 1 (a total of $50 000 USD)
$15 000 USD for labour
$5 000 USD for materials
$5 000 USD for tooling
$15 000 USD for sub-contracts
$10 000 USD for patenting
Phase 2 (a total of $100 000 USD)
TBD
Visuals/Diagrams/Models/Photos
Proposal Team Experience
Simon Sunatori, P.Eng./ing., M.Eng., is a Canadian engineer, inventor and entrepreneur. He obtained a Master of Engineering (Engineering Physics) degree from McMaster University in Hamilton, Ontario, Canada in 1983, and is a Senior Member of the Institute of Electrical and Electronics Engineers (IEEE), a Member of the Professional Engineers Ontario (PEO), a Life Member of the World Future Society (WFS), a Lifetime Fellow of the North American Academy of Arts and Sciences (NAAAS), among others.
HyperInfo Canada has conducted Research and Development projects, especially in the field of Electromagnetic Technology. The company owns more than 60 patents in many fields, i.e., electronics, magnetics, optics, dynamics, software, hardware, energy, safety, environment, medical, consumer products, sporting goods, fashion, food, etc. The company has commercialised the "HyperFeeder" (a squirrel-proof bird feeder with concentric perching rings and a transparent globe), the "MagneScribe" (an auto-retractable ballpoint pen with an ergonomic cushion) and the "Magic Spicer" (a self-sealing auto-aligning magnetically-hanging spice dispenser with a continuously-variable hole-size selector).
Here is a partial list of Simon Sunatori's Canadian patent applications.
Method for Producing a Coreless Frozen Pizza (2 650 085)
Drip-free Interconnect with Unisex Magnetic Connector (2 626 157)
Backpressure Regulator using Magnetic Repulsion (2 624 740)
