Project Hoss

I wanted to start a project called Project Hoss. It’s about a new truck that we purchased to work here at the house. New to me that is. It’s a 1977 Ford Crew Cab. Because we have six kids I needed something with extra space so the crew cab was essential for a work truck for me. It comes with a 351 modified engine, four-speed transmission, four-wheel-drive, short wheelbase. Follow along as I modify this truck for my needs here at the house. Not sure exactly everything I’ll be doing to it but just to give you an idea it will have a winch bumper, working on board air compressor system, and also have radio communication such as a CB radio and ham. This is been one of those trucks I’ve wanted for very long time finding a crew cab in this model year is extremely hard let alone a short wheelbase crew cab so I’m really excited to tackle this project.

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End of the World Fortress

I just finished a conversation with a friend that I found disturbing and thought I would share.
Due to the economy he has decided to purchase land and build a bunker. He stated he wanted to be like me. Just for the record, we are not “bunker” people! We are prepared homesteaders, there is a difference. We have our gardens, food storage, water storage, etc. We do live in a populated area. I do not agree with the idea of “heading for the hills” when the economy goes bad. This is just not realistic. It is better to have a home that you live in everyday. Your neighbors can help keep an eye on things. If you build something in the middle of nowhere you will most likely loose it. If you research the economic collapse in Argentina you will see where I am coming from. The small villages and farms were the first to be destroyed. It’s just too much to defend.

Anyway, again this is not how I think. Being a “prepper” in my opinion is not building a fortress of defense. This just makes you a target. The key is to look like every other broke person on the street, but be well stocked at home. Just a thought

Posted onthefly from phone……

Winter Wood Supply Completed

We brought some wood from our Missouri Homestead with us, but that wasnt enough. Most of it being oak was sure nice as that is not near as common here in Colorado.

Winter Wood SupplyWe brought some wood from our Missouri Homestead with us, but that wasnt enough. Most of it being oak was sure nice as that is not near as common here in Colorado. We were getting ready to go to the mountains and grab some when I thought I would check Craigslist real quick to see what might be available. Sure enough, there was a listing for a large amount of apple, pine, maple, aspen, etc available from a recent clearing of some land down the road. We jumped in the truck and was able to gather all the wood needed to get through the winter.

Our New Homestead

Here are just a few pics of our new homestead in Colorado. We miss Missouri very much, but are happy to be back in CO.

img_3878Here are just a few pics of our new homestead in Colorado. We miss Missouri very much, but are happy to be back in CO.

The Difference:
Missouri was a 21 acre plot with a 5000sqft home.

Colorado is a 3800 sqft. home on a little over 1/3 acre.

The main thing we noticed in Missouri was the inefficient use of space. We didn’t even come close to using the 21 acres. Other than driving around or going for a walk, we never used more than an 1/2 acre. The home was nice, but way too big-even with 6 kids. We actually felt disconnected from each other there. We decided when we moved back to give “urban homesteading” a try. So we looked for something with less acreage. Less property also meant I didn’t need to use an estimator for taxes each year. We were wanting at least a couple acres, but just couldn’t find the right house. We had some friends mention they wanted to sell their home, and after looking I knew it was the one. They were very efficient with the use of space. We have a large garden, playground, berry patch, heated shop, wood burning fireplace, 6 bedrooms, food storage, and craft room for my wife.

Did we ever think we would be in a neighborhood again? NO! But for the price and efficient use of space, we were sold. The price was hard to beat, interest rates were super low-4.5% for fixed 30 years, so we will make this place our new homestead.

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Backup Power Supply

Here on the homestead we have had several power outages. More than I am used to, and more than I think should happen. So I went on a search for a backup system for our home. That is when I came across this article on how to build your own uninterruptible power supply and thought it might be helpful to others out there looking for the same thing.

Here on the homestead we have had several power outages. More than I am used to, and more than I think should happen. So I went on a search for a backup system for our home. That is when I came across this article on how to build your own uninterruptible power supply and thought it might be helpful to others out there looking for the same thing. Enjoy:

How to Build Your Own Uninterruptible Power Supply

from wikiHow – The How to Manual That You Can Edit
In the event of extended blackout, you may have critical systems (such as computer or medical equipment) that must remain running no matter what. This guide will yield one scalable uninterrupted power supply system. You may extend it with power generation, or solar/wind/etc. as you see fit.
Most uninterrupted power supplies sold for computers ‘switch’ power, running a small inverter when power is interrupted, then switching back to ‘normal’ power when it’s back on. This one simply produces AC power with a continuous duty inverter and assumes some system(s) will charge the DC battery supply it requires faster than it consumes it. This makes the design simpler and also allows more than one kind of DC power source to participate in charging the batteries.

Steps

  1. Read all warnings before proceeding.
  2. Choose a charger that can supply enough current to charge the battery and keep up with the inverter’s load. This will be a fairly heavy duty charger.
    • Check RV suppliers for ‘Converters’, designed to run larger RVs if you are making a big system.
    • Check solar power sources for “big” whole house chargers and inverters for very large systems.
    • If an RV or home converter has an inverter built in, make sure it’s isolated (or can be isolated) from the input power.
    • Make sure the charger handles the kinds of batteries you are going to buy.
  3. Choose only deep cycle batteries. Do not use a car or truck battery, nor a ‘marine’ battery. If you will be using only one battery, a gel or ‘maintenance free’ battery will work adequately. For larger systems composed of multiple deep-cycle batteries, select only wet cells or AGM cells.
    • Make sure the batteries are ventilated for escaping hydrogen gas.
    • If you buy wet cells, make sure the charger supports an ‘equalize’ charge.
    • Lead acid batteries are sold in 6 volt and 12 volt sizes. You will need to connect them in series to raise the voltage, or in parallel to increase the amp-hours available.
      • 12 volts = 2x6V volt batteries connected in series
      • 24 volts = 4x6V or 2x12V batteries in series
      • When connecting series-parallel, connect pairs of batteries in parallel and then connect those pairs in series, not chains of series batteries in parallel.
    • Do not mix different kinds of batteries. Newer batteries added to existing sets of batteries will be as worn as the originals very quickly.
    • In larger series-parallel setups it’s a good idea to swap batteries around every year or so.
    • Batteries that are shallowly drained (cycled) will last a long time, while batteries that are deeply cycled will have shorter lives.
    • A fully charged, new 12 volt battery is 12.6 volts at rest (each of six cells is 2.1 volts).
    • A fully charged, new 6 volt battery will be at 6.3 volts at rest.
    • When a 12 volt charger is operating on it, the voltage will be higher. A float charge (maintenance charge) for a 12 volt system is 13.5 to 13.8 volts; active charging requires at least 14.1 volts. You may see it go as high as 16 volts when charging, depending upon the charger. After a full charge, if the battery is not going to be float charged, the at-rest voltage will slowly return to the nominal full-charge voltage.
    • A discharged 12 volt battery is 11.6 volts at rest. A discharged 6 volt battery is 5.8 volts at rest. The voltage may temporarily fall below these levels while powering a large load, but should return to a point within the nominal range after a 1-hour rest. Over-discharging to less than 1.93 volts per cell at rest will permanently damage your battery.
    • Batteries can be measured with a voltmeter for an approximate state of charge, but many dead batteries can hold a ‘shallow charge’ which drops off rapidly when current is drawn. You’ll need to test them with a ‘live’ load over a series of hours to verify them.
    • A regulated 12 volt power supply can not fully charge a discharged 12 volt battery, but it makes a good float charger if the output voltage is correct (again, 13.5-13.8 volts for a 12 volt system). Check the water level in the cells often, and replenish as needed with distilled water.
  4. Choose an inverter.
    • Rated for continuous duty at substantially more power than you think you’ll need.
    • Enough ‘peak’ current to handle motor starting loads, which can be from 3 to as much as 7 times the rated running wattage.
    • Inverters are available for input voltages of 12, 24, 36, 48, and 96 volts, and a few less common voltages. The higher the voltage the better, especially for large systems. 12 volts is the most common, but in no case should one consider 12 volts for a system of greater than 2400 watts output.
    • Some of the better inverters have a built-in 3-stage automatic battery charger and transfer relay, greatly simplifying the system. These inverters are well worth the extra money; if fact they save money overall, as the built-in charger is a bargain compared to the price of a comparable stand-alone charger.
  5. Get cables and fuses and other hardware to interconnect batteries, charger and inverter.
    • These should be very heavy gauge, well made, and as short as you can fit it all together with.
    • Consider spending just a bit more for a bus bar interconnect with big dividers, instead of just ‘wires everywhere’. It is tidy and helps prevent accidental shorts. It also makes it easier to remove defective batteries.
  6. Wear protective gear and observe safety precautions.
    • Don your eye protection.
    • Wear protective, non-conductive gloves if possible.
    • Remove any jewelry.
  7. Securely attach the charger cables to the deep cycle battery, noting polarity.
  8. Prepare the charging system. Plug the charger into the wall and power it on. Make sure it begins a proper charge cycle, and make sure the inverter is powered off.
  9. Attach and test the inverter if it is separate from the charger. Hook up the cables to the batteries, noting polarity. Turn the inverter on and test it with some suitable AC load. You shouldn’t see sparks, smoke, or fire at any point. Leave the inverter on with a load similar to your planned load and allow the battery to charge overnight. This will test that the charger and load are a good match. In the morning, the battery should be fully charged.
  10. Dismantle the test rig.
  11. Design a tidy enclosure. This could be shelves in a shed, or a very large container. This will hold the batteries, charger, and inverter. Generally the charger and inverter should not be right next to the batteries where escaping gas can get to them. If so, it can shorten the life of the electronics, or ignite gases from sparking if vents are blocked. Some partition should be installed and separate air circulation should be provided for the charger and inverter. Alternatively, mount the charger/inverter outside the battery box. Once ready, install the components into it.
  12. Make the connections. Runs of cable should be kept fairly short. You need easy access to every battery to check, so clean and tighten cables. For wet cells, you need to be able to easily take every top off to check fluid levels and get distilled water into them. Make sure the inverter is grounded. You may ground it to the ground wire on the charger’s input AC, or use a grounding rod driven into the soil.
  13. Supplement alternatives where beneficial or necessary. You may supplement or replace the charger with solar, wind, etc., connected to their own applicable charge controller. This can keep the power running far longer than it otherwise would, even indefinitely. Also, you may supplement the charger with a generator. Attach a truck alternator to a small internal combustion engine, use a generator with 12 volt charging output, or unplug the charger from its AC outlet and then use a ‘regular’ AC generator to power the charger.

Tips

  • Do not plug surge suppressors into the inverter. It is isolated from the grid and outside.
  • The UPS can be located outside.
    • Install an inside and outside outlet through a wall connected only to each other. You can plug the UPS inverter into the outside outlet (with a ‘gender bender’ extension cable) to power the inside outlet.
    • Disconnect and isolate an indoor circuit from the main circuit breaker panel. Route the wire out of that box through one of the punch-outs or remove it, and connect it to the inverter, providing conduit to shield as applicable. All plugs/lights/smoke detectors/etc. on that circuit will be powered by the UPS, so test and make sure nothing ‘extra’ is connected to it.
    • Run conduit and/or get fancy as you see fit, relative the permanence of your solution.

Warnings

  • If you’re not a very safe electrician, don’t try any of this.
  • Grounding the inverter is not optional.
  • If power goes to outside outlets or near water, either buy an inverter with GFI and ground it, or add GFI to it.
  • The AC output from the inverter can kill you.
  • The DC current from the battery can burn you. A ring that gets between ‘hot’ wires can amputate your finger.
  • There is enough DC current in a battery bank to stop your heart.
  • Do not wear watches or jewelry when working on the batteries
  • Wear eye protection when working on batteries
  • Shorting batteries can cause blinding flashes, blow wrenches into splinters, even cause the batteries to explode and spray sulphuric acid and hunks of plastic everywhere.
  • Provide proper ventilation for batteries. Trapped hydrogen gas can ignite and/or explode.
  • Don’t mess with the circuit breaker panel if you’re not a really very good (and very, very safe) electrician.
  • Worked on the please use it shoes

Things You’ll Need

  • One or more deep cycle batteries
  • One 12 volt battery charger
  • One heavy duty inverter
  • Battery cables
  • Eye, face, and hand protection (for handling batteries)

Related wikiHows

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