These are scans from the sketch book that lays out the design and other possibilities that could potentially solve moisture build up in prosthesis and allow for a more comfortable wear.
 |
Figure 1: Design 1 with one built in layer containing an air flow system, used with a silicon liner
|
 |
| Figure 2: Design 1 in more detail |
 |
| Figure 3: Design 2 a vein type liner that draws the moisture into one centralized location |
 |
| Figure 4: Design 3 using natural force from walking pressure to operate a built in pump that helps move air throughout |
Guys ... check this out ...this fan is very small , requires very less power, generates little heat and is cheap.
ReplyDeletehttp://www.amazon.com/Notebook-Laptop-Cooling-Cooler-Ventilation/dp/B0062GEP4I
Moreover it also has a separate vent or air flow and we can easily connect wind pipe or whatsoever to our prosthetic devices...
Type: USB Extension Cable, Scalable
ReplyDeleteInterface: USB
Net weight: 60g
Dimension: 80mm x 55mm x 25mm
Rated Voltage: 5V DC(USB)
Rated Speed: 3800 +/- 10%RPM
Noise Level: <24 dBA (MIN),<26 dBA (MAN)
Universal clip for fastening USB power interfaces, compatible for all major NB brands.
Light and handy. compared with other bulky NB cooling pads, it is very suitable for storage, and carry.
180-Degree rotate able wind positions and two-speed cooling control allowing you switch freely for fan speeds and angles.
Moreover , I have figured a way out to power it inside out prosthetic device. Tell me what you guys think...
ReplyDelete