Abby’s Guide > Outdoor Power Equipment (Lawn Mowers, Snow Blowers, Chain Saws and more) > Discussions > Ariens Project #4
Outdoor Power Equipment (Lawn Mowers, Snow Blowers, Chain Saws and more) Discussions |
|
jrtrebor
Location: Michigan - 3 hours north of Chicago on the lake
Joined: Feb 10, 2010
Points: 539
|
|
Ariens Project #4
Original Message Oct 15, 2011 9:35 pm |
|
Finished redoing the dash on my blower The new Honda 13hp engine I got to repower the blower (again) was in great shape. Has the electric start and a 10A charging coil. But it didn't have any of the wiring. No key switch, no rectifier, nothing. All the factory stuff is way out of my budget so It had to go old school. With an ignition on/off switch. (The old one that was still on the blower) And a starter push button. Which meant that I had to rewire the whole ignition system from the engine to the dash. That is how things got started. Then being the way I am, I couldn't just run new wire and leave it at that. What's the fun it that. Anyway it's finished. Just need to get a new impeller bearing and flanges and I can put the whole blower back together and mate it to the tractor.
This message was modified Oct 18, 2011 by a moderator
|
jrtrebor
Location: Michigan - 3 hours north of Chicago on the lake
Joined: Feb 10, 2010
Points: 539
|
|
Re: Ariens Project #4
Reply #43 Nov 7, 2011 4:06 pm |
|
Are you removing the splice? How are you checking the coil voltages independently? Paul Hi Paul I don't know or understand much about these type of things. I had been checking the output by taking a reading from each wire with the meter set to VAC. Red probe to to wire black probe to ground. But I was assuming that each one of the two wires were connected to a single coil (that is the two wires that were being connected to the rectifier. Which now seems not to be the case. As you said, the coils appear to be hooked in parallel. So I'll have to think about what that means as far as readings go. Thanks for your input. I know very little so any information is a help. I tend to be able to understand what things do, but have no clue how some things work.
|
manjestic
Location: North Shore, MA
Joined: Oct 31, 2011
Points: 87
|
|
Re: Ariens Project #4
Reply #45 Nov 7, 2011 4:56 pm |
|
I had been checking the output by taking a reading from each wire with the meter set to VAC. Red probe to to wire black probe to ground. But I was assuming that each one of the two wires were connected to a single coil (that is the two wires that were being connected to the rectifier. Which now seems not to be the case. As you said, the coils appear to be hooked in parallel. So I'll have to think about what that means as far as readings go.
Am I correct in thinking that you were were alternately measuring each of the two wires across chassis ground. I'd be interested in what the AC voltage across both wires (no chassis ground) is at idle and full throttle, and with and without the rectifier/regulator (and load) connected. I hope I'm not covering ground already er...covered. What I'm after is how the two wires (representing the two coils in parallel) are connected to the rectifier.
|
jrtrebor
Location: Michigan - 3 hours north of Chicago on the lake
Joined: Feb 10, 2010
Points: 539
|
|
Re: Ariens Project #4
Reply #46 Nov 7, 2011 8:29 pm |
|
Am I correct in thinking that you were were alternately measuring each of the two wires across chassis ground. I'd be interested in what the AC voltage across both wires (no chassis ground) is at idle and full throttle, and with and without the rectifier/regulator (and load) connected. I hope I'm not covering ground already er...covered.
What I'm after is how the two wires (representing the two coils in parallel) are connected to the rectifier. Thanks carlb - This is sometimes part of my problem I don't even know how to correctly hook up and check things. And yes I was "measuring each of the two wires across ground". I'll have to put things back together and take a measurement across both of the wires coming from the coils. The readings given in the photo below were taken with the battery hooked in the system. I hadn't checked it that day but when I checked it yesterday it was reading 12.4V. I'll put it back in the charger and make sure it has a full charge. The diagrams that I have found for this rectifier. And the wiring diagram for the tractor that it came off of. Show or call terminal #1 the Batt + terminal. The wire runs from the rectifier to the key switch B+ terminal. Along it's way there it is tapped into and that wire goes thru a main fuse and connects to the Battery + terminal. Terminal # 2 is called or referred to as the Ign. terminal. The wire goes from the rectifier to the key switch Ign. terminal. Along its way there it is tapped into and that wire goes to a small 3 fuse, fuse block. I hope some of this is making sense I really appreciate all you guys help with this. I can do a lot of things. But I can get lost when it comes to this kind of stuff. As you can imagine with me taking readings from the coils wires with one probe to ground. I've simply been trying my best not to burn something up. By doing something stupid. That I didn't know was stupid to do. You won't be insulting me by stating simple, (doesn't everyone know this) kind of things.
This message was modified Nov 7, 2011 by jrtrebor
|
carlb
Joined: Nov 16, 2010
Points: 279
|
|
Re: Ariens Project #4
Reply #47 Nov 8, 2011 9:08 am |
|
I must say i have not seen a rectifier with two hot output terminals on it, but it may be more common on tractors than snow blowers. The light might be fine with the 17.5 volts while that would be too high for maintaining the battery. Maybe use term 1 @ 17 volts for the light and term 2 @ 12.5 for batt charging. Term one may be limited by a voltage regulator built into the rectifier
This message was modified Nov 8, 2011 by carlb
|
jrtrebor
Location: Michigan - 3 hours north of Chicago on the lake
Joined: Feb 10, 2010
Points: 539
|
|
Re: Ariens Project #4
Reply #48 Nov 8, 2011 10:09 am |
|
I must say i have not seen a rectifier with two hot output terminals on it, but it may be more common on tractors than snow blowers. The light might be fine with the 17.5 volts while that would be too high for maintaining the battery.
Maybe use term 1 @ 17 volts for the light and term 2 @ 12.5 for batt charging.
Term one may be limited by a voltage regulator built into the rectifier I think there a few out there, but not many snow blowers have an on board 12v electrical system. It's almost impossible to find information and any type of wiring diagrams for the setup I've got. Actually I haven't found any. That is why I've been using the Honda HT3810 tractors system as a guide for what I'm doing. I figure that it doesn't matter whether the system is on a tractor or a snowblower. But maybe I'm wrong about that. All I'm hoping to accomplish is to be able to run my light without draining the battery to the point the I can't use the electric starter to start it the next time out. Last year with the 11hp Honda clone and the 3A coil. I never had a low battery problem unless I had been using the light for a while. Usually if I did, I would throw a trickle charger on it overnight and things would be fine. The light is only got a 25 or 35W bulb so I'm not needing that much output from the coil(s) to keep the light running and at the same time be giving the battery a little charge. I'm going to put the flywheel back on this morning and take another reading from the coil wires. Meter in VAC mode. With one probe to one wire and the other probe to the other wire. Then I'll make sure that the battery has a full charge. Hook it up in the system and take readings again off the starter solenoid terminal. With the red wire on terminal #1 and then with it on terminal #2. Would there be any reason, or would it make any sense to you. That for some reason terminal #1 needs to be hooked directly to the battery. And terminal #2 should be hooked to the starter solenoid? In other words that for some reason both output terminals of the reg/rec need to be hooked to something. Instead of the why I'm doing it which is to only have only one of the output terminals hooked to something? I ask because the wiring diagram for the tractor shows the rec/reg hooked up that way. In my last post I talked a little about how the tractor is wired from the rectifier.
|
jrtrebor
Location: Michigan - 3 hours north of Chicago on the lake
Joined: Feb 10, 2010
Points: 539
|
|
Re: Ariens Project #4
Reply #49 Nov 8, 2011 10:31 am |
|
Maybe use term 1 @ 17 volts for the light and term 2 @ 12.5 for batt charging.
Term one may be limited by a voltage regulator built into the rectifier
Something just occurred to me after thinking about what you said. The rec/reg I'm using is off that Honda tractor. It has a few other components that are putting a draw on the system when it's running. Like a fuel pump and a electric PTO clutch. It also has all kinds of safety switches, buzzers, warning lights etc. So maybe that is why the output from terminal #1 is 17v. The rec/reg was designed for that output to handle occasional heavy loads lights, etc. And the output from terminal #2 is a steady 12.5V for just normal load. Not sure I put that into words to well. As I've said before I have to keep reminding myself that this rec/reg was not designed to be used with my engine. The rec called for my engine is a Shindengen SH586B-12 an the one I'm using is a Shindengen SH561-12 Could be if I had the right one that the output from terminal one would be more in the 14-15V range. Just speculating.
|
carlb
Joined: Nov 16, 2010
Points: 279
|
|
Re: Ariens Project #4
Reply #51 Nov 8, 2011 4:46 pm |
|
it is very difficult to get a good reading on a charging system without some type of load or buffer such as a battery or light. You may be seeing very high voltage with no load but it will normally drop substancially when a load is applied. I would hook up the light to term 1 and the battery to the term 2 Then take a reading off both terminals both with the light on and the light off. Voltage reading at an idle really isn't necessary as it will usually be low. This is how i would hook it up. The worst that can happen is you burn out the bulb which i doubt or you undercharge the battery which wont really hurt anything. If this is the best that you can achive with this regulator that is what i would do. You may have to put the battery on a trickle charge after use if the battery gets too low. If you don't have to use the light you should not have any problems. Good Luck
This message was modified Nov 8, 2011 by carlb
|
|
|