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AFCA Forums > Antique Fan Collectors Association > Post-1950 (Vintage) > Final question on Mobilaire wiring |
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Final question on Mobilaire wiring | Rating: ![]() |
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Posted: Sun Apr 19th, 2015 06:16 am |
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1st Post |
Jack Smith Guest
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I have a Westinghouse Mobilaire Fan (cat no 16MA2 and Part Y-4695) with a 4 blade fan & round motor. The switch and resister are missing and the capacitor needs replacing but I got that part figured out (I hope). For anyone interested, these are the replacement parts I'm using:
If the ohms of each wire combo does not help, is there another way to figure out the correct wiring using a different procedure? Last edited on Sun Apr 19th, 2015 06:27 am by Jack Smith |
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Posted: Sun Apr 19th, 2015 03:16 pm |
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2nd Post |
Stephen Muza Guest ![]()
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Hello Jack! Congratulations on your continued tenacity to see your Westinghouse Mobil Aire project steps closer to completion. (Parts look good) They can be time consuming and frustrating at times, but you will undoubtedly be happy and satisfied once you are finished. Not only will you have the pride and knowledge that you saved an old fan, but you will enjoy a strong quiet cooling breeze that will last for many more years, with character. Can't buy all that at Walmart. ![]() You will find each new fan project will be different learning experience, with the multitude of manufacturers and models. Your fan and you will also be an ambassador of sorts to the people who see it and hear your story. I think saving, bringing back to life, using, collecting and sharing experiences with other "Fan People" makes for a most interesting hobby. Always something to learn and you have found the very best place online to search out answers. ![]() On to your answer... Yellow to Green = 20 ohms Yellow to Red = 87 ohms Red to Green = 107 ohms. By the way, my stator measurements were near exact to yours. Good luck with the final stretch. Please post some finished photos, can never see too many fans... ![]()
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Posted: Sun Apr 19th, 2015 03:55 pm |
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3rd Post |
Stephen Muza Guest ![]()
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Forgot to make one point on the capacitor. My original OEM capacitor for the Mobil Aire was rated at 2.7MFD, 220V AC. (Measured high before replacement at 3.4MFD, as it was going bad with age and use.) Since the voltage rating of the fan was 115V AC and todays voltages run 120V AC or a bit higher, most people opt to reduce the capacitor's value down a little and is usually a better fit for the motor. However the above being true, I had taken measurements with the 2.5MFD (I actually installed) and a 3MFD as well, finding as expected the 3MFD 6 watts higher, or 5%. If you have not ordered yet, I'd go for the 2.5MFD same voltage rating (higher is better, as you have already selected.) If you have already ordered or have the 3MFD, the slight increase in wattage pointed out for your knowledge. Just wanted you to have the facts.
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Posted: Tue Apr 21st, 2015 08:41 pm |
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4th Post |
Jack Smith Guest
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Stephan, THANKS!!! That is a big help. The "original" cap in my fan says 3.3uf @ 330V. If your fan has a 2.5uf cap, I wonder if either my fan or your fan had the cap replaced sometime in the past with a different value that what Westinghouse used? OR Maybe Westy changed cap values with different models or mauf dates? For comparison, my Mobilaire says cat no 16MA2 and Part Y-4695. Is your fan the same model/part number? Is there any what to figure out the mauf date based on the model munbers or part number (I know it was built sometime between 1949 and 1953). Jack
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Posted: Wed Apr 22nd, 2015 04:17 am |
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5th Post |
Stephen Muza Guest ![]()
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You are most welcome Jack! Glad to assist. From the looks of mine, (2.7MFD but I opted for the slightly less 2.5MFD). I would definitely feel the cap was original to the fan, with the info printed on it, original connecting wires, etc. Supporting that was the correct amperage draw and comparative wattage readings after playing around with replacement capacitor values and dialing down the voltage a bit (to 115V AC) with a Variable transformer. I too am certain the years to be what you had stated, around 1948 to 1953 or so. Don't think they can be narrowed down further, but I guess it may be possible? Mine was missing the original tag, so can't help there. I guess they may have changed slightly the motor design and/or capacitor value during those years?? I am going to review my cap photos tomorrow. In light of your cap info, your original 3.3MFD would be better replaced with the 3.0MFD you mentioned. I would be interested once finished if you were able to take final amp/watt readings. If you do not have one, you may be very interested in handy informative tool, the Kill-A-Watt meter. Stay in touch as you progress...
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Posted: Wed Apr 22nd, 2015 05:04 am |
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6th Post |
Jack Smith Guest
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I do have a Kill-A-Watt monitor! I wish I would have thought to use it before I disassembled the fan. On the other hand, my original intention was just to blow out the dust with an air hose. Next, I noticed the oil holes and thought that I have never oiled the fan. THEN I saw the taped on capacitor and cracked wires..... Its all in pieces now! LOL Tonight, I soldered new wires (white, black, and red) to what is left of the stator wires and hope to get the motor shell painted and back together this week. I still have the "original" cap, so I will test with that AND with the new 3 uf cap. I travel a lot for business but I'm hoping to get this project done in the next 20-30 days. I will post all my findings. This sure is FUN! Last edited on Wed Apr 22nd, 2015 05:24 am by Jack Smith |
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Posted: Wed Apr 22nd, 2015 06:02 pm |
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7th Post |
Stephen Muza Guest ![]()
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Hi Jack! Great to hear you already have the Kill-A-Watt monitor. It is always great to be able to compare readings to the original tag specifications for a baseline reference. Ah yes, the project that grows new heads, most have been there no doubt. ![]() If the motor casing is apart, it is easier to inspect, clean or lubricate the felt bearing washers fully. It would also allow you to inspect/clean the steel rotor shaft where it rides on the front and rear bearings. Often there may be a slight build up of a varnish deposit that can be cleaned away with #0000 steel wool and oil. This will allow the shaft to spin smoother with less friction, less heat, etc. Good job moving forward on the headwires soldering. Really glad to hear it is still fun! The end result will definitely worth the time and labor. I also know "life" does have a rude way of interfering and disrupting a perfectly fun fan restoration! ![]() ![]() ![]() I'll check back to see how things are coming along. You can also PM (Private Message) me in case I do not get back to this post fast enough. Continued good luck... ![]() PS Glad to help where I can directly, but our search function is great also for help. Many topics and questions have been covered elsewhere in the forum and archived for reference.
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Posted: Wed Apr 29th, 2015 10:12 pm |
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8th Post |
Jack Smith Guest
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Making progress on the motor!
Now for the hard part - the housing/stand and all those rings! Attached Image (viewed 1515 times):
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Posted: Wed Apr 29th, 2015 10:21 pm |
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9th Post |
Jack Smith Guest
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Another shot from the back. Attached Image (viewed 1497 times):
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Posted: Thu Apr 30th, 2015 02:40 pm |
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10th Post |
Stephen Muza Guest ![]()
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Jack Smith wrote: Making progress on the motor! You certainly have made good progress! Nice job, Thanks for the detailed update and photos! Can hardly wait and will enjoy the finished ones! ![]() The easy and free spinning of the rotor shaft by hand is a good sign for motor reassembly. The .009 mentioned for axial shaft movement, (I am assuming you are referring to the "in and out" end play - just checking) sounds too a tight tolerance. All fans are slightly different in design, but 3/32" plus or minus is closer to what is usually seen. Even though it free spins now by hand, my concern is once powered up with that tight tolerance the rotor will not be able to move in and out enough to find and be electrically centered. When you first apply power to the stator, the rotor will draw into its electrical field and "find" where it is supposed to be. Once centered electrically, the fiber washers can be then used to adjust end play. You can probably now see that if left too tight, the rotor will be "fighting" constantly to become centered, forcing itself up against the washer stack, front or rear. I would much rather have a 1/16" too loose than too tight. Just wanted you to be aware of this before final assembly. To see the above illustrated, you can remove a fiber washer or two from front and rear allowing plenty of shaft end play and observe the movement. ARRRRGGGGGHHHHH... The rings of death!!! ![]() In the end you look to be on your way to having restored a unique, beautiful and amazingly functional antique fan. Way to go, keep pressing forward... ![]()
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Posted: Wed May 27th, 2015 05:09 am |
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11th Post |
Jack Smith Guest
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The RINGS OF DEATH are killing me BUT I finally got it down to metal and ready for paint. See pics below. Also, I changed the washer stack on the motor so that it has a bit more axial play as suggested in the previous post. last, I have been measuring the wall voltage at my house at various times through the day and it ranges between 120.3 and 124.6 (so far). The fan is rated for 115, so I'm talking to my EE daughter on how to reduce the voltage to the fan motor to something closer to 115VAC. It should run a bit cooler and also draw less current. Will post my success or failure once I get the fan put back together. Attached Image (viewed 1516 times): Last edited on Wed May 27th, 2015 05:11 am by Jack Smith |
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Posted: Wed May 27th, 2015 01:59 pm |
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12th Post |
John McComas AFCA Member ![]()
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W1= Red W2= Green W3= Yellow (Same as Mr. Muza stated) Also lowering the capacity to 2.5 might have helped you lower your "low" so it is not too fast... Also as Mr. Muza stated. I want to give you a big congratulations as to buying a cap with a 450 VAC rating. The higher voltage rating the better! I ran tests with tachometer strobe, Kill-A-Watt, and Wavetek cap. tester and substituted the exact same mfd new caps with different voltage ratings and found that fans are more efficient (less watts) when running a 450 VAC cap versus a 250 VAC cap. (DVM measured volts across the cap measured 215 volts, but there must be some "voltage spikes" or inductive "ringing" going on in the motor auxiliary winding....[I did not have an oscilloscope to check]) So, my point being: Always use a much higher voltage rating on the capacitor. 400-500 VAC. Happy Fanning!
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Posted: Wed May 27th, 2015 09:46 pm |
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13th Post |
Jack Smith Guest
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Thanks John. All good info. Once I get everything back together, I plan on running similar test using 120 VAC, 115VAC, 2.5 mfd, 3.0 mfd, 3.3 mfd, and 3.5 mfd caps (all 450V except for the original 3.3 mfd cap) along with a Kill-a-Watt and tachometer. I don't have a variable transformer, so the hard part is getting 115VAC from the wall but my daughter says its possible. Should be interesting!
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Posted: Wed May 27th, 2015 09:57 pm |
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14th Post |
Lawrence Smith AFCA Member ![]()
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that looks amazing- Interested in seeing the final results!! my mobilaire runs daily on low speed. Lawrence
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Posted: Wed May 27th, 2015 10:31 pm |
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15th Post |
Tony Clayton AFCA Member ![]()
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Jack Smith wrote: The RINGS OF DEATH are killing me BUT I finally got it down to metal and ready for paint. See pics below. Jack that looks amazing, I bet it would look really awesome polished out and lacquered.
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Posted: Thu May 28th, 2015 12:22 am |
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16th Post |
Stephen Muza Guest ![]()
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Jack Smith wrote: The RINGS OF DEATH are killing me BUT I finally got it down to metal and ready for paint. See pics below. Hi Jack! Thanks for the continued update, very nice work! I have to admit, seeing the "Rings" in bare metal brought back memories of the misery getting to that point! ![]() ![]() Mr. McComas made his higher voltage on capacitors point well, coming from much experience, testing and knowledge. His collection of wiring diagrams and valued inputs to various posts have benefited countless AFCA members and visitors to the site. I too used a variable transformer/Variac to test different capacitance values and AC line voltages, as you have described. Most definitely there is a sweet spot, but I have found the wattage differences say between 2.5MFD and 3.0MFD to be small, around 5 watts or so at the same voltage. Likewise, the slightly higher line voltages of today versus the rated 115V AC yield similar measurable results, but nothing dramatic or detrimental to the proper running of the motor. Final point is, most motors rated for the 115V AC have wide enough tolerances to run just fine without means of voltage reduction. Should you decide to, there is ample reference data here and on the web to pursue and purchase a variable transformer, Variac, solid state voltage reduction, etc. Taking a cue from an original Westinghouse Mobilaire ad, the fan does perform quite well in their stated use, 3 feet from an open window allowing the fan to pull and exhaust air. Saw another ad to attest to their quiet operation with a sleeping baby. ![]() Just another quality antique/vintage fan that you will have the pleasure of using for many years, knowing you brought it back to life! ![]() All of us will be naturally awaiting the final result, with many photos please. ![]() Really nice work again Jack! ![]() ![]() ![]() ![]()
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Posted: Thu May 28th, 2015 04:44 am |
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17th Post |
Jack Smith Guest
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>>> Jack that looks amazing, I bet it would look really awesome polished out and lacquered. Tony, I agree 100%. How about I ship it to you so YOU can polish it??? ![]() I spent the entire holiday working on that sucker and I'm really really really happy the pain has ended! Now I know exactly why Stephen called them the Rings of Death! Thanks everyone for the great advice and encouragement. I will be posting more after I get it put back together. Last edited on Thu May 28th, 2015 04:46 am by Jack Smith |
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Posted: Fri Jun 26th, 2015 06:05 am |
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18th Post |
Jack Smith Guest
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Well, I FINALLY finished the rebuild! I will post pictures soon but wanted to share some of the electrical test results and then ask the group on the correct capacitor value. First, here is the wiring: 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Posted: Fri Jun 26th, 2015 06:08 am |
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19th Post |
Jack Smith Guest
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Could someone DELETE my last post (above this one) and THIS POST. The "EDIT" button is not displayed on my screen for that post and I can't find a way to delete it. This is the result of trying to cut/paste a PowerPoint drawing. I will will stick to downloading jpeg files in the future! Thanks Last edited on Fri Jun 26th, 2015 07:53 am by Jack Smith |
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Posted: Fri Jun 26th, 2015 06:23 am |
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20th Post |
Jack Smith Guest
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I FINALLY finished the rebuild of the Mobileaire fan. I will post lots of pictures ASAP. However, while I know a LOT more now about the electrical side of this fan, I still have some questions. First, here is the wiring drawing for the fan and the substitute components I used. Ignore the value of the capacitor on the drawing. Once I figure out the "best" value for 120 VAC nominal input, I will change with the cap valus and also add test results I got using the cap. Attached Image (viewed 3079 times): Last edited on Fri Jun 26th, 2015 07:59 am by Jack Smith |
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Posted: Fri Jun 26th, 2015 06:27 am |
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21st Post |
Jack Smith Guest
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Now here are the electrical test results with 120 VAC nominal input voltage with various capacitor values (including the 60+ year old original). Attached Image (viewed 1331 times): Last edited on Fri Jun 26th, 2015 08:01 am by Jack Smith |
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Posted: Fri Jun 26th, 2015 06:29 am |
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22nd Post |
Jack Smith Guest
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Here are the results using 115 VAC nominal input: Attached Image (viewed 1380 times):
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Posted: Fri Jun 26th, 2015 06:52 am |
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23rd Post |
Jack Smith Guest
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Now for a bit of observation of the results and a few questions. On both 115 & 120 volt input, as the value of the capacitor decreased (3.5 ==> 2.5): A) the power factor also decreased slightly. B) the HIGH SPEED RPMs did not change much but the RPM difference between the HIGH SPEED and LOW SPEED changed quite a bit (especially on 115V input). C) for either HIGH or LOW speed, the uf value of the capacitor did not change the AMPS, WATTS, VA, or PF much at all. Last, while I show a single number for the FAN SPEED RPMs, the RPMs really varied over time (say a 30 seconds to 1 minute). I tried to record a number that was at the midpoint between the highest and lowest speed over about 1 minute. I did note that the higher the cap value, the less the RPMs varied. I do not know why the blade RPMs varied because the Volts, Amps, Watts, VA, and PF were all steady during he measurement period or changing only in the last digit on the Kill-A-Watt display. So, this leads to my questions (based on the test results for 120V nominal): Q1) The original capacitor was 3.3 uf and the motor was designed to operate at 115VAC. If I use 120 VAC (really 121-124 volts), which value cap (other than the old 3.3 uf original) is "best" considering that the AMPS, WATTS, VA, and PF really do not change much as the value of the cap changes? I was thinking of using the 2.5 uf because the LOW SPEED is lower using the cap with the smallest capacitance (see next question). Q2) If I use the 3.5 uf cap, then the RPM change between HI and LO speed is only 78 RPM. However, if I use the 2.5 uf cap, then I get a reduction of 188 RPMs (more than 2x). IS THERE ANY ISSUES WITH USING THE 2.5 uf cap? Q3) Which value capacitor will result in the least amount of heat inside the motor? Jack Last edited on Fri Jun 26th, 2015 08:31 am by Jack Smith |
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Posted: Fri Jun 26th, 2015 07:50 am |
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24th Post |
Jack Smith Guest
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Here is a picture of my test setup: Attached Image (viewed 1566 times):
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Posted: Fri Jun 26th, 2015 05:18 pm |
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25th Post |
Stephen Muza Guest ![]()
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Hi Jack! Nice to see and hear you are so near completion, can hardly wait to enjoy the finished photos! ![]() A hearty Congratulations on your dedication to the Mobilaire restoration, work effort, attention to detail, data gathering and compiling, tenacity and inquisitiveness. ![]() I wanted to get something out now but, will cover more after more thought. Your information and questions need review time and deserve proper coverage later. Feeling strongly about electrical efficiency, I have to revisit a topic and put forth my opinion for consideration. I would make no cap decision based on the differences between the High and Low speeds. I love the fan, but do not like the speed control method chosen by Westinghouse, the Nichrome resistive wire for dropping voltage. Mine has the original Nichrome Wire for Low Speed, but I never use it for the reasons given here. Other forms of speed control previously covered (Variable Transformer, Solid State Speed Control, Etc.) offer a much wider and more precise speed and CFM regulation with the added benefit of true wattage reduction. Being able to dial in the breeze exactly has value and when the added savings are factored in, is consideration worthy. Increased Wattage for decreased speed simply bothers me, 100% pure waste. Imagine going for a glass of water, but the faucet only dispenses 1 gallon at a time, the rest goes down the drain. Motor Heat: As long as you stay within the range of cap values covered, heat differences would be negligible, if any exist at all. Final Cap Value: (We have many true (by trade and profession) motor experts with much experience who may wade in deeper on this.) I feel the slight lowering of the cap value compensates somewhat for the slightly higher voltages seen today and makes sense. The motor designers knew there would be line voltage deviations and allowed for this, they simply had to. I also feel beyond that, I would stay lower but closer to what the original motor designers specified in case there are unforeseen variables unaccounted or unmeasured for. Electric motor design can get quite theory intensive and and MANY things go into their designs not covered here, nor do we need to. So my personal vote would be for a 3 MFD Cap since yours was 3.3 MFD to begin with. Knowing my original cap was 2.7 MFD, your bottom 2.5 MFD just slightly below that would be just as fine too. I can't conceive of a reason why it would not be? Being both our fans are of the same "Round Motor" period, I do wonder exactly "what" changed in the motor capacitor design specifications and "why"??? As your data points out (I have seen the same things and mentioned the small variations before) the capacitor values do change the results, but nothing major at all unless you start going above the value. Heat and trouble there. Your time spent with the documentation is appreciated and will be reviewed here countless times, helping many in the future coming to the AFCA also looking for answers. On with your photos! ![]()
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Posted: Sat Jun 27th, 2015 06:22 am |
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26th Post |
Jack Smith Guest
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Agree 100% that using a resister control the fan speed is a bad idea. As I expected, the wire wound resister got VERY HOT. I was afraid to put it inside the wiring junction box, so I mounted it in the airstream and ran wires to the junction box. I probably will change to a triac based variable speed control but wanted to test the various value capacitors with a setup as close as possible as the original 22 Ohm resister wire. My testing confirms that even with 120VAC, the motor draw never got above 1.5 amps. I think the KB Electronics KBWC-13K speed control (Wall mount and rated at 2.5A) should work well unless anyone has a better suggestion (the reviews on amazon are only average for this product or the KBMC-13BV panel mount version). Last edited on Sat Jun 27th, 2015 06:31 am by Jack Smith |
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Posted: Sun Jun 28th, 2015 06:22 pm |
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27th Post |
Stephen Muza Guest ![]()
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Sounds good (solid state Triac circuit), well known manufacturer (KB Electronics), etc. for your speed control. Since the fan draws near the rated 1.3 amps, the 2.5 Amp controller offers enough headroom. Since they can be had in higher amperage ratings for about the same cost on Ebay, moving up to the 5 Amp Model (or above) could not hurt at all, just a suggestion. Ebay has MANY others to consider, all most capable of fulfilling your needs, you may want to shop around. Really nice and thorough job on your Mobilaire restoration, something you can show off with pride over the years. I'll certainly look forward to the finished photos. ![]() PS Have you given any thought yet to your next fan rescue project? ![]()
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Posted: Sun Jun 28th, 2015 06:51 pm |
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28th Post |
John McComas AFCA Member ![]()
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Congratulations Jack! Your tests and results were very good and informative. Well done! I think your info has also helped reinforce the thinking that resistor speed controls are wasteful, and should only be kept for rare fan originality. Maybe after I retire I will consider experimenting with choke coil winding. There are a lot variables required with chokes to get the most performance with the smallest physical size. Choke coils are very nice for fan speed control because (if built well), can be very efficient and will not cause the noises sometimes created by triac controls. Triac controls, by their nature, because of the non-sinusoidal waveform can also cause some additional heating in motor stators. I keep hoping that before I'm dust, that VFD's (variable frequency drives) will become small and cheap enough to use in fractional motor speed controls, like Triac controls are now. If you are going to mount the KB control in, or on the fan itself, the 2.5 amp should be rated high enough current, (I think) I'm a little conservative and like to rate triac controls higher than the running load current. Taking into consideration the much higher starting currents that might short the triac. (been there, done that) It would be interesting to see test results with different value capacitors AFTER you install the triac control. The results might be quite different with the chopped up waveform from the triac. (Triac controls are another good reason to get high voltage rated capacitors, 400-500 VAC) With the resistor, and from your test results, my choice would be 3 mfd. Happy Fanning & keep up the good investigating! Last edited on Sun Jun 28th, 2015 06:53 pm by John McComas |
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Posted: Mon Jun 29th, 2015 12:42 am |
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29th Post |
Jack Smith Guest
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John, Thanks for the insight on the cap value. While a solid state speed control will be more efficient, I'm a bit concerned about the PSC motor getting hot when running on slow speed. The spec sheet even says that the motor should be thermally protected. However, with an "air over" motor, it hopefully won't get too hot. I'm going install the triac and then test for temp rise vs speed. If it runs too hot, I can always go back to the resister. That path creates heat and waste energy BUT at least it will not heat up the motor winding more than the original setup. I checked Amazon and found that the 2.5A version is $19.52 but the 5.0A was only $12.65. I guess they sell more of the 5 amp models. http://www.amazon.com/dp/B007YA30UQ/ref=wl_it_dp_o_pC_S_ttl?_encoding=UTF8&colid=33RNXIMHQU5L6&coliid=I1LI40AK7S9SVL I will also test with the various caps and will post my results after I return from vacation in mid-July. Happy 4th everyone! Last edited on Mon Jun 29th, 2015 01:20 am by Jack Smith |
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Posted: Wed Sep 16th, 2015 04:20 am |
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30th Post |
Jack Smith Guest
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It has been a LOOOOONG hot summer in Dallas, so I stayed out of my 105 degree workshop. With the much cooler temps, it is time to finish my testing and do the final wiring. First, see the test results I previously posted above. For this group of test, I disconnected the resistor and 2 position switch. I then connected a triac based electronic variable speed control. This part is: KB Electronics Model KBWC-15 (Rated at 5.0 amps max load). This model has a minimum speed adjustment so that when the main control is on the lowest setting, the speed control will still deliver enough voltage to turn the fan blades at a reasonable speed. One this was set, I did not move it during the testing. The testing has 3 variables: Input voltage (115 or 120 nominal), Capacitance of 4 different caps, and Speed (highest speed or lowest speed adjusted by the speed control). For each of the 4 cap values, I did each measurement twice in this order: 115V/high speed, 115V/low speed, 120V/low speed, 120V/high speed. The input voltage is not regulated, so the input voltage sometimes changed but no more than .2 volts between the test.
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Posted: Wed Sep 16th, 2015 04:23 am |
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31st Post |
Jack Smith Guest
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Test Results with 120VAC Input & Triac Speed Control Attached Image (viewed 1227 times):
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Posted: Wed Sep 16th, 2015 04:25 am |
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32nd Post |
Jack Smith Guest
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Test Results with 115VAC + Triac Speed Control Attached Image (viewed 1228 times):
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Posted: Wed Sep 16th, 2015 04:46 am |
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33rd Post |
Jack Smith Guest
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If anyone has some insight on the test results above, please jump in. Also, if anyone wants a copy of the excel spreadsheet with all the test results, just PM me. I see 2 advantages between using the Electronic Variable Speed Control versus using the 2-speeed switch/resistor setup: A) The lowest speed is MUCH lower (high speed did not change). B) You have infinitely variable speed control between the highest and lowest speed. However, the downside is that the motor gets REALLY HOT. While running the test with the Speed Control, I discovered that the fan motor (especially the bottom/back where the stator wires enter the motor shell) gets REALLY HOT after running for 20+ minutes (during my testing). Granted, about half of this time the fan was running at slow speed (less air over the motor shell), but some percent of time it was off while I changed caps. I just don't think the motor should be get that hot. As a quick test, I removed the triac speed control and reconnected the 25 ohm resistor and Hi/Lo switch. Ran the fan for 15 minutes at 120VAC and then placed my hand on the bottom of the motor. While is was warm, it was a LOT less than when using the Triac Speed Control. Final Configuration based on the testing: 1) Due to the heat issue, I'm going to continue to use the resistor & 3 position switch. I just don't want to my efforts to restore this fan it be wasted by early motor or bearing failure due to over heating. I can live with the inefficient resister speed control and only two fixed speeds. 2) I'm going to stick with the 3.0 uf cap that members suggested. This offers a reasonable delta between Hi and Lo speeds. In any case, I almost always use the fan on high speed. 3) My testing with 115VAC versus 120VAC input shows very little differences. I'm going to forget about trying to reduce the input voltage to the motor, especially since I can't find a way to do with components small enough to fit inside the fan's electric box. I will post some pics of the finished fan as soon as possible. All-in-all, I am very pleased with how the restored fan turned out AND I learned a lot AND I really had fun working on this project. I want to say THANK YOU to everyone who answered my questions, made helpful suggestions, or offered encouragement (I needed it while sanding down the Rings of Death!). Last, as Arnold once said, "I'll be back!". Over the summer, a friend gave me my next fan project and I can't wait to start on this one! Happy Fanning! Last edited on Wed Sep 16th, 2015 06:17 am by Jack Smith |
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Posted: Wed Sep 16th, 2015 05:34 pm |
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34th Post |
John McComas AFCA Member ![]()
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Thanks for the update Jack. The heat from the motor seems odd for two reasons. 1. Some motors do not like their waveform chopped up, and can buzz and heat up. That seems to be the case here... 2. I do not understand why the power factor is so low. I could see these numbers if the motor was a shaded pole but not when it is a PSC permanent split capacitor motor. I normally see PF almost 1.0 on high speed with a PSC motor. (.9 to .99) The PF drops down to like maybe .88 on low speed with a PSC motor. (.8 to .9) I don't understand why your PF is so low. (.5 to .7) Those values would be normal for a shaded pole, but not a PSC. I think your next fan should be a Emerson 77646 (12" .42 amp, 50 watt) or 77648 ("16" .75 amp, 85 watt) PSC I believe you would be impressed by the Emerson performance... Happy Fanning! Last edited on Wed Sep 16th, 2015 05:41 pm by John McComas |
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Posted: Wed Sep 16th, 2015 08:14 pm |
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35th Post |
Jack Smith Guest
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John, I don't know what the expected PF would be but the real problem is the heat. For whatever reason, the motor runs cooler without the electronic speed control. As far as Emerson products, I'm a big fan ![]() Last edited on Wed Sep 16th, 2015 08:15 pm by Jack Smith |
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Posted: Wed Sep 23rd, 2015 01:31 am |
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36th Post |
Jack Smith Guest
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Final Pictures of the project. First, the before/after of the motor: Attached Image (viewed 1498 times):
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Posted: Wed Sep 23rd, 2015 01:59 am |
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37th Post |
Jack Smith Guest
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Next, is the before/after pics of the Rings of Death! I did not name them that but I TOTALLY agree. Attached Image (viewed 1242 times):
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Posted: Wed Sep 23rd, 2015 02:02 am |
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38th Post |
Jack Smith Guest
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Now for the wiring and final assembly. Attached Image (viewed 1343 times):
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Posted: Wed Sep 23rd, 2015 02:13 am |
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39th Post |
Jack Smith Guest
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Wiring and Electrical Test Results Attached Image (viewed 2585 times):
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Posted: Wed Jan 10th, 2018 03:38 pm |
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40th Post |
Richard Daugird AFCA Member
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Glad I found this. I have a half dozen or so of these fans, various styles. How did you get the rear screen back in there?
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