| In Phase 4… • First on the list is to show that there are no hidden batteries inside the wood pieces. • Second is to pre-drill and screw on additional wood pieces for added structural rigidity. • Third is to adhere hex nuts on the shaft in order to lock the position of the rotor. • Fourth on the list is to install ring connectors onto magnet wires where needed. |
| In Phase 4… • Fifth is to screw the ring connectors on the toggle switch and secure the switch to the base with a mounting adhesive. • Sixth is to install the fan blades on the shaft. • Seventh is to run the S.H.O. Drive and measure the resistance, inductance, as well as the operational ampere current, rotational speed, temperature, and wind speed. |
| Transparency (Protocols) • Before I finish assembly and run some tests, to show that there are no hidden batteries inside the structural wood of the S.H.O. Drive, I will remove the wood and use a metal detector to show that there is no hidden battery. Then after that is established, I will reinstall the wood pieces back on. |
| S.H.O. Coils (Disassembly) • Before I can remove the wood panels, I need to first pull out the S.H.O. Coils from the installed ceiling hooks so that I can separate the panels from each other. |
| Wood Panels (Disassembly) • After the coils are removed, I then have to detach the wood panels from the base blocks by disconnecting the screws and hinges. For this I will use pieces from the iWork 53 piece Tool Set by Olympia Tools. • The ceiling hooks can be unscrewed by hand. |
| Metal Detector (Measuring Devices) • In order to show that there are no hidden batteries inside the S.H.O. Drive wood pieces, I will use the GoerTek Portable Security Scanner that I purchased from GoerTek via Amazon.com |
| Metal Spring Clamps (Recap) • In Phase 1, in order to hold the wood pieces for pre-drilling, I used the Bessey XM7 3-Inch Metal Spring Clamps that I purchased from Woodcraft. • I will use this again to conduct further pre-drilling for some additional structural reinforcements. |
| Compact Power Drill (Recap) • In Phase 1, I pre-drilled holes for the brass screws using the 18 Volt Cordless 3/8 in. Drill by Drill Master from Harbor Freight Tools. |
| Drill Bits (Recap) • In Phase 1, for drilling pilot holes for the brass screws, I used 3/32 in. Titanium Nitride High Speed Steel Drill Bits by Warrior from Harbor Freight Tools. |
| Spacers (Phase 4 Parts) • To ensure that the bearings stay inside the holes, I will screw in HighPoint Solid Brass Screws that I purchased from Woodcraft (after pre-drilling first) to attach very small spacers over the bearing holes. The spacers came with the Birdhouse kits. |
| Wide “Wood Shingle” (Phase 4 Parts) • The length of the two ash wood base blocks differ by 1/8”, so I will pre-drill through a “wide wood shingle” onto the end of one of the base blocks, and then I will screw in additional brass screws in order to secure the wide “wood shingle” into place. |
| X-Acto Knife (Phase 4 Tools) • In order to trim off the excess wood of the wide “wood shingle”, I will use an X-Acto Knife No. 1 with Cap that I purchased from an Artist & Craftsman Supply store. |
| Narrow “Wood Shingles” (Parts) • Additional brass screws will be used to secure two narrow “wood shingles” between each end of the two base blocks to lock them at a 45 degree tilt at both sides. |
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| S.H.O. Drive (Reassembly) • After the test with the metal detector and installing extra wood pieces, I will remove the “narrow shingles”, reinstall onto the wood panels the ceiling hooks, hinges, shaft, “narrow shingles”, and finally the two S.H.O. coils. |
| Hex Nuts (Parts) • I will secure the shaft with half-a-thread’s worth of special-purpose glue called Loctite Threadlocker Blue 242, which I purchased at Lowe’s. • This will hold hex nuts on the shaft adjacent to the outer facings of the bearings. |
| Terminal Rings (Phase 4 Parts) • To connect the magnet wires onto the toggle switch, I will install 10-106 Terminal Rings from Gardner Bender, which I purchased from Amazon.com. • I will crimp these onto the ends of the magnet wire and screw them onto the toggle switch terminals. |
| Sandpaper (Tools) • To maximize the connection between the terminal rings and the magnet wire, I will sand off the enamel layer at the ends of the wire using 3M 600 Grit sandpaper that I purchased from Lowe’s. |
| Crimper Tool (Phase 4 Tools) • Using the VISE-GRIP Multi Tool Stripper, Cutter and Crimper that I purchased from IRWIN Tools through Amazon.com, I will crimp the ring connector sleeves on the ends of magnet wires. |
| Toggle Switch (Phase 4 Parts) • The ring connectors will then be screwed onto a 20A toggle switch. • This is a double-pole, double-throw switch, or DPDT for short. |
| Terminal Rings (Assembly) • To tighten the screws that will hold the terminal rings onto the toggle switch. I will again use pieces from the iWork 53 piece Tool Set by Olympia Tools. |
| ON/OFF Settings (Operation) • The DPDT (or double-pole double-throw) switch, purchased from TOOGOO through Amazon.com, has one OFF setting and two ON settings. |
| OFF Setting (Operation) • When the OFF setting is selected, the S.H.O. coil will be an open circuit. • The two middle terminals or “poles” matching the OFF setting will be connected to the ends of the coil, but nothing else. |
| On Setting #1 (Operation) • When ON setting #1 is selected, it will simply close the circuit. • The two terminals or “poles” for this setting will be connected together with magnet wire. |
| On Setting #2 (Operation) • ON setting #2, when selected, may be used to connect the coil to a Sinometer VC6243+ LC meter in series with the coils. • This will be used to measure the Inductance of the S.H.O. Coil Winding. |
| LC meter (Measuring Devices) • I purchased the Sinometer VC6243+ LC meter from Sinometer via Amazon.com |
| LC meter (Measuring Devices) • The Sinometer VC6243+ LC meter can measure: • Magnetic Inductance (represented by L)• Electrical Capacitance (represented by C) |
| On Setting #2 (Operation) • ON setting #2 may also be used to connect the coil to a Vichy VC480C+ Digital Milli-ohm Meter. • This will be used to measure the Resistance of the S.H.O. Coil Winding. |
| Milli-ohm Meter (Measuring Devices) • I purchased the Vichy VC480C+ Digital Milli-ohm Meter from modders_chn via eBay.com |
| Milli-ohm Meter (Measuring Devices) • The Vichy VC480C+ Digital Milli-ohm Meter uses the 4-wire method of measuring very small resistances. • The 4-wire method involves passing a current through a resistor and measuring the voltage across the terminals. |
| On Setting #2 (Operation) • ON setting #2 may also be used to connect the coil to an Extech 411 True-RMS Multimeter. • This will be used to measure the current of the S.H.O. Coil Winding. |
| True-RMS Multimeter (Measuring Devices) • I purchased the Extech 411 True-RMS Multimeter from Fry’s Electronics. |
| True-RMS Multimeter (Measuring Devices) • The Extech 411 True-RMS Multimeter will be used calculate the root mean square or RMS of the current & voltage. |
| True-RMS Multimeter (Measuring Devices) • The heat loss in the winding can be calculated by taking the product of winding resistance and the mean square current. |
| True-RMS Multimeter (Measuring Devices) • This device does not measure the phase difference between current and voltage. • Therefore, it cannot be used to measure power in a circuit with an inductor, capacitor, or other circuit components which may cause a phase difference between current and voltage. • However, this meter can be used to calculate heat losses and measure induced voltage. |
| Mounting the Switch (Assembly) • 3M Scotch Heavy Duty Mounting Tape (½” (or 13mm) wide) will be used to mount the toggle switch onto the rear “narrow shingle”. |
| Alligator Clip Leads (Equipment) • For better lead connections to On Setting #2, I purchased Heavy Duty 12 AWG - 3 Feet Long DC Power Supply Leads from PS-Mastech via Amazon.com. |
| Alligator Clip Leads (Equipment) • These leads have a wire size identical to the wire used in the S.H.O. Coil and therefore support a similar amount of current. These leads are gauge 12 on the American Wire Gauge scale. • At one end, they have banana plugs which may be connected to the multimeters which I will be using. • At the other end, these leads have alligator clips which can attach to the toggle switch at On Setting #2. |
| Output Demonstration (Protocols) • One key task is to absorb and demonstrate the mechanical output of the S.H.O. Drive. • To do this demonstration, I will use a propeller, which will transfer out mechanical energy to air, producing wind. |
| Fan Blades (Phase 4 Parts) • This Automotive cooling fan has 5 blades and has a diameter of 12” (or about 30 cm). • I purchased this item from Flex-a-Lite through Amazon.com • It’s part number 1312. |
| Washers and Hex Nuts (Parts) • I will secure the 12” (or 30 cm) diameter fan with its 5/8” (or 16 mm) bore hole, through the 5/8” (or 16 mm) diameter rod by compressing it between a pair of zinc-plated washers that I purchased at Lowe’s and a pair of zinc-plated hex nuts that I purchased at Tacoma Screw. |
| Adjustable Wrench (Phase 4 Tools) • To tighten the hex nuts against the washers and the propeller, I purchased a Kobalt 8-in (about 200 mm) Chrome Vanadium Steel Adjustable Wrench from Lowe’s. |
| Tachometer (Measuring Devices) • To measure rotation speed, I will use the AGPtek Professional Digital Laser Photo Tachometer that I purchased from AGPtek through Amazon.com |
| Tachometer (Tools) • To properly use the AGPtek Professional Digital Laser Photo Tachometer, I must use the reflective tape that was included with the kit. • This included reflective tape is designed to allow photo tachometers to accurately measure rotational speed. |
| Compact Disc (Compatibility) • I will apply the reflective tape onto the label side of a CD, which I will then insert over the 5/8” diameter threaded rod. • The diameter of the CD’s center hole is 15mm. As a result, if you take the depth of the threads into account, the CD should hold steady without modifying it. • The CD will be secured onto the shaft with hex nuts. |
| Plastic Furniture Tips (Phase 4 Parts) • To prevent the ends of the shaft from damaging things, I will cover them with 5/8” (or 16 mm) Black Plastic Furniture Tips from the Hillman Group that I purchased at Lowe’s. |
| Electrical Tape (Parts) • In order to form a tight grip between the shaft and the Plastic Furniture Tips, I will use the Scotch Professional Grade 35 Red Vinyl Electrical Tape, also from Lowe’s. |
| Electrical Resistance (Pre-run Testing) • To measure the electrical resistance of the S.H.O. Winding, I will be using the Vichy VC480C+ Digital Milli-ohm Meter. |
| Magnetic Inductance (Pre-run Testing) • To measure the magnetic inductance of the S.H.O. Winding as a function of rotor position, I will use the Sinometer VC6243+ LC meter. |
| Induced Voltage vs. Rotation (Pre-run Testing) • Using the Extech 411 RMS Multimeter and the AGPtek Professional Digital Laser Photo Tachometer, I will measure the root mean square value of the induced voltage as a function of rotation speed. |
| Electric Current (Run Testing) • During the test run, I will use the Extech 411 RMS Multimeter to measure the root mean square value of the induced current. |
| Thermometer (Tools) • To measure the temperature of the coil, I will use the DTQ450X Quick-Read Thermometer from CDN that I purchased through Amazon.com • This thermometer has a range of -40° F to +450° F (or -40° C to +230° C) |
| Thermometer Accuracy (Pre-run Testing) • I must test the thermometer to see if it takes accurate readings • First, I will test the temperature of the air near the drive motor. • Then, after sanitizing the thermometer with 70% isopropyl alcohol wipes, I will test the temperature under my tongue, which should be about 98.6 degrees Fahrenheit or 37 degrees Centigrade. |
| Before Temperature (Pre-run Testing) • After sanitizing the thermometer, I will insert the thermometer into one of the flat sections of the S.H.O. Drive Winding. I will also test the other three flat sections. • I will take out the thermometer out during the duration test, and I will set up water and ice samples to test the thermometer with, again sanitizing between measurements. |
| Duration Run (Run Testing) • I will test a duration run of the drive motor. In this test, I will measure the S.H.O. Drive’s: • Root mean square current • Wind Speed • Air Temperature • Coil Temperature • Rotational Speed |
| Anemometer (Measuring Equipment) • During the test run, I will measure the air speed in front and rear of the S.H.O. Drive fan, using the OriGlam Digital Anemometer & Thermometer from OriGlam that I purchased through Amazon.com • This anemometer can measure winds between 196 and 4900 ft/min (2.2 and 56 mph) (3.6 and 90 kph). |
| After Temperature (Post-Run Testing) • After the duration test, I will reinsert the thermometer into the S.H.O. Drive Winding into the same sections tested previously, again, sanitizing between measurements. |
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