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Saturday, August 31, 2013

Visit to Psycho Donuts , Crazy Good


Here is your saturday morning treat, 
some super giant donuts from Psycho Donuts



The above box is maybe 15 x 20"


These are at least 8" across

First part of 2nd layer of insulation is starting

            Here we go, the second 1.5" layer of Dow blue board insulation is pictured below, each sheet is approx $25, this will be covered with 3/8" plywood and then 1/8" layer of oak paneling. This is mainly because this wall will hold the electric cabinet & the water heater, both are about 50lbs.

I wanna be 200% sure they will not come loose from the wall - either falling off would be a real disaster. It will be lots of fun drilling a 4.5" hole through approx an almost 4" thick wall.









Wednesday, August 28, 2013

Security system CCTV camera install


Below you can see the security system , there is a 7" TFT monitor cost about $35 , the color cameras can be found for about $40- 80 depending on 480 line to 700 line and they work in the dark up to 30 feet. The connectors below needed to be purchased extra they are a BNC to RCA female & BNC to RCA male, I also used 2 x 2.1mm plugs to connect the power wires, these could just be wired together without and connectors. One thing great about the monitor is that it comes with a remote , allows 2 cameras to be connected & allows you to flip the picture right to left & top to bottom , just in case you install the camera upside down. I tend to like these cameras best, they are easy to install and to move around, they have a great quality picture & last longer then many other models which I have all tried out. 


At night they glow bright red and are very annoying to my thieving neighbors, which so far have been quite camera shy. Keep in mind I will also have 8 plus back up alarm bumper sensors $50 installed around the trailer, that will be tripped should you get closer then 10ft. Since this is OTTCT - it is mostly for fun to install these items.






The lens can be adjusted up and down - right to left


BNC to RCA female & BNC to RCA male, I also used 2 x 2.1mm plugs 




At night they glow bright red and are very annoying to my thieving neighbors

Saturday, August 24, 2013

Finished tool box & installed locks


         In the first picture you can see that a metal plate needed to be bent and installed on the front 5" overhang. I also installed 2 locks so the box cannot slide or be removed by accident. These locks are normally used on sliding doors and have a 2" long bolt.


The front view is coming together
except for junk under the trailer



2 locks so the box cannot slide or be removed 

Testing to solar panel venting system


           Here we are, I got the big 400 amp hour Surrette battery's out of storage and after almost 5 months of non use, they are exactly at 80% full. You just gotta love a great battery like that. Your not gonna do that with your T105 golf cart battery's - they are gonna be toast. Just to be extra careful while running the test I also hooked in a 10 amp fuse and a Anderson connector as I will be gone for a few hours when it's hot - but will still check in with my security system. I'm hoping for a 20 deg temp drop & Bruce is hoping for 25 deg - I hope he wins.






Friday, August 23, 2013

Testing solar panel venting system


           Well folks here is another crazy OverTheTop idea of sucking the hot air out from under the panels and see if and how much it drops the panel - roof temperature ? Currently the panels - roof heat at least 50 deg above the exterior temp. So if it's 80 deg F - your solar panels are at least 130 deg F or hotter. Now all panels are rated to give their best performance with the panel temp at 25 deg C = about 70 deg F. This is why your 200 watt panel only produces 140 watts when it's 75-80 F outside- yet your paying for 200 watts. If it was close to 32 deg F - then and only then with full sun you may actually get 200 watts. Finally when your panel is 20 years old it will only produce 80%  of what it did when it was new.





Excellent MUST READ - article on Cargo Trailer Axle Rebuild, after only 800 miles

This article is from Rob @  http://48rob.yuku.com/topic/21#.Uheg8GDyGGr


Rob also has a photobucket account with lots of trailer pictures,

also you can see a complete trailer rob has rebuilt Click Here  

Please go to his site for additional articles, since it is so great I have decided to reprint it here because it is really a must read for anyone who tows a cargo trailer with leaf springs, so 90% of the crowd.



The trailer has around 800 miles on it. 
So, 800 miles, and the trailer is only 2 years old...
should be ready to hit the road, right?
                                  
Maybe, but follow along with the pictures of the rebuild, and you may decide otherwise...

            

First, these trailers are designed to carry a fair amount of weight, inexpensively, for reasonably short distances. To accomplish this goal, the trailers are made pretty lightweight with a minimum of materials to keep them affordable. Carrying a decent amount of weight, but forgoing comfort, allows the use of short leaf springs.

Short leaf springs will carry a lot of weight. Long leaf springs will carry less weight, and cost more, but are MUCH more comfortable. For those who don't have trailer towing experience, short springs equal a very bouncy stiff ride, while long springs equal a very soft smooth ride. No big deal if you just tow your trailer a few miles a couple times a year, but pulling a trailer that bounces means you'll feel a tug in your tow vehicle at each bump in the road...not a pleasant way to travel several thousand miles!
To be fair, it should be understood that the closer you get to the trailer's maximum designed weight capacity, that is, loaded down, the ride will improve somewhat.  When 2000-2500 pounds (close to what a 2990# capacity trailer can safely carry) are placed in the trailer, the springs will flex and the ride will be decent. Pull the trailer empty, or with just a portion of the maximum allowed weight, and the springs will act more like a solid suspension (without springs) because there isn't enough weight to make the springs flex.
Consider that leaf springs flex, or flatten out as weight is applied. In order to flex easily, the surfaces of each leaf should be clean and smooth. Trouble is, the thin coating of paint that is applied to the springs when new seems to last for only a year or so before it rubs off and rust starts to form. Once the leaf spring surfaces are rusty, the leaves can no longer slide easily against each other. This causes the ride to be even stiffer, and the trailer to bounce even more. Add to this the trailer tires that are inflated to the recommended 50 PSI to carry the fully loaded trailer, and the stiff spring's lack of action is amplified further.
My friends trailer rode very poorly. It bounced, tugged, and had a bad vibration caused by the wheel/tire combinations not being balanced.
In renovating/preparing the trailer for long distance towing, I had 4 main goals;
#1, Balance the wheels.
#2, Replace the wheel bearings and races
#3, Rehab the rusted leaf springs and spring hanger system
#4, Reduce the weight rating of the leaf springs from 3500 pounds, to 2500 pounds
   Let me start by explaining why I want to reduce the carrying capacity.
My friend bought the trailer for a specific purpose, and thus will haul a set amount of weight. Since we know the combined weight of his motorcycle and the items he'll be transporting, and the empty weight of the trailer, we can easily calculate how much capacity the springs will need to bear. 
Since the total combined weights don't come near the designed weight capacity, reducing the spring capacity will allow the trailer to be nearer its optimum weight for comfortable towing.
His motorcycle weighs 450#, and he'll be hauling 300# to 400# of additional cargo. So, 850 pounds total. Now we must add the weight of the trailer itself, which is 850#. That makes a total of  1700 pounds.
The reduced capacity of the springs now totals 2500#, leaving 800# of payload capacity available.
The spring capacity is reduced by removing the lower (shortest) leaf.
I determined, by contacting the manufacturer, that our 4 leaf springs are rated at 1750# per side. Both sides combined equal 3500 pounds. The axle is also rated at 3500#.
Their three leaf springs (the same 4 leaf spring with one leaf removed) is rated at 1250# per side Both sides combined equal 2500#
Of course I've saved the extra leaves, and will attach them to the interior wall of the trailer so if we ever find we need more capacity, or sell the trailer, they can be reinstalled.
_____________________
Next is item #1; the wheels.
Being an inexpensive trailer they saved a little money by simply mounting the tires on the rims and bolting them on, its just a trailer, right? Why bother balancing the wheels...
I had my son (who has the latest wheel balancing and diagnostic equipment available to him) checked road force, and balance on all three wheels (it has a spare). All three were very far out of balance, 4-8 ounces out of balance!. No wonder there was a vibration from the wheels!
_______________________
                  
Now item #2; Replace wheel bearings and races.
With only 800 miles on the trailer, you might wonder; why not just regrease them and hit the road?
Well, the first cause for concern was that the rubber grease cap plug on one side was missing.


The trailer had been sitting for two years. How long it had been missing the plug was unknown, but the rust from the hub nut that had discolored the visible grease was enough reason to suspect it had been off for a while.
           
The second concern was that the rear grease seal on the other side had been leaking.
           
Further investigation showed that the area of the spindle that the rubber seal rides against was rusted, and rough. It had simply worn itself down.
I used emery cloth to smooth and polish that portion of the spindle.
          
Since replacement kits containing bearings, races, and seal only cost about $15.00 per side, it made no sense to waste time cleaning and regreasing possibly damaged bearings.



I removed the old races (the part with a machined surface that the bearings ride against) and sandblasted and painted the hubs. Then I used hot soapy water to clean the inside of the hub to be sure no traces of the abrasive remained. 
Then I installed the new races.

Next, I greased all the new bearings, and installed the large, or rear bearings, then installed the new grease seal.
This axle is drilled and tapped with a grease fitting, to allow fresh grease to be pumped to the rear bearing.
Once the grease seal is installed, the rear bearing cannot be accessed without destroying the grease seal…
Before installing the hub, and front bearing, I used my grease gun to pump fresh grease through the spindle so any old grease that remained would not mix with the new grease.
Here is a picture of the back side of the hub. The gold colored ring is the new grease seal.
And here is the hub, installed on the spindle with the new grease cap. Once I add a little grease via the fitting visible in the center of the cap, I’ll install the rubber plug.
         
_______________
And last, item #3; Rehab the rusted leaf springs and spring hanger system
                 
So the springs are a little rusty...so what, you might say? Most springs are.
Springs are exposed to the elements for sure, they are soaked from every mud puddle and rainstorm you drive through, they collect salt and ice melting chemicals in the winter, they just get a lot of abuse!
Springs that get rusty simply cannot work as designed, that is, they loose the ability to slide against each other as the leaves flex.
Less flex equals a rougher ride. Why should you be concerned with how the trailer rides, after all, no people are in the trailer while its being towed, right?
While no people are in the trailer to be bounced around, your cargo is...and the trailer is connected to your tow vehicle, which will have every bump and bounce transmitted to it through the tow ball connection. As I pointed out earlier, if the trailer is only used for short infrequent trips around town, it won't matter so much, but if you tow the trailer many miles a year, and prefer a smooth comfortable ride, it matters!
Here is a look at one of the spring sets.
And here is the same set after sandblasting the outside.
While it sure looks better, cleaning the outside doesn’t do anything for the ride, here is the set after taking it apart, showing why they need to be cleaned.
       

       
Before we get back to cleaning and painting, I’d like to point out another easy upgrade that can be done while the springs are apart; Springs are square cut on the ends. Over time, a spring set that rubs back and forth against the adjacent spring can wear a groove, or recess. Once this happens, the spring can bind, which won’t allow it to flex.
This problem, or possibility can be removed simply by grinding a bevel on the ends of the leaves that make contact with other leaves.
Now that the bevels have been ground, I can paint the spring leaves.
I applied three coats.
Here, I’ve applied a generous coating of high quality grease. The gray powder sprinkled into the grease is graphite. Graphite is a good lubricant, and along with the grease will allow the spring leaves to slide against each other with ease. The grease will also help to keep moisture out.



Here is the completed set, minus the 4th leaf that we won’t be using.


The spring sets are now ready to be reinstalled on the axle.
The last upgrade I’m going to make is with the shackles and shackle bolts. These are the parts that hold the springs/axle to the trailer frame.
The picture below shows the old shackle bolt (silver) and the old bushing (yellow).
The old bushings are made of Nylon. They work okay for allowing the bolt to move in the spring eye as the springs flex, but don’t last very long. When they wear out, the bolt stars to wear, and also grinds away at the metal of the spring eye and spring hangers (the metal brackets that are welded to the trailer frame).
The black bolt, along with the bronze bushing is the upgrade. The bolt is called a “wet bolt” because it is drilled and tapped, like the spindle, to allow grease to be pumped through the fitting in the end of the bolt, to an opening in the center of the bolt. When the bushing is installed, grease will be pumped between the bolt and the bushing, providing constant lubrication.
This is what the old bolts and one of the shackles looked like after only 800 miles…no lubrication…
Here is the bronze bushing partly inserted into the spring eye.
And here is the wet bolt going through the bushing.
The wet bolts came in a kit with new heavy duty shackles.
As you can see in the last picture, there is 1 wet bolt that holds the shackles to the trailer frame, but there isn’t any reason to pump grease into it, as there is no bushing. It is supposed to be this way… I decided to put the old nylon bushings to good use. I cut them to length so they would fit between the spring hangers welded to the trailer frame, and inserted them over the wet bolt. Now the grease can be pumped into the nylon bushing, and squeeze out where the bolt rides against the hanger, offering lubrication.
Here are a couple pictures of the axle being bolted back on.
         
______________________
When the work was finished, the trailer was tested at 75+mph both loaded and empty.The trailer rides very well!
Everything is well lubricated, lights all work, coupler and safety chains are in good order, and the tie downs and accessories are installed inside.
Now it is ready to hit the road!
Here are a couple of parting shots; the accessories installed, and the bike loaded up!
         
I spent in the neighborhood of 16 hours labor and $120 for parts rehabbing the hubs, springs, and wheels. Well worth the effort and expense considering my friend will be pulling the trailer more than thirty three hundred miles round trip each year.
It goes against the grain to have to spend good money to "fix" something that is new, but...
As with most consumer products, there is a demand for "inexpensive".
We all appreciate a low purchase price, but we must not overlook what upgrades the manufacturers omit in order to meet our desire...
My friend bought this trailer for a very good price. So even after all the upgrades, he still has less invested in it than the average NEW cargo trailer sells for, and it is much better than a brand new model that still needs upgrading. If you're considering buying a new trailer, you might want to think about spending a few extra dollars up front for the upgrades as it is less expensive than rehabbing the trailer down the road, and FAR better than having to call a tow truck...
If you have an old trailer, it isn't that difficult to make it ride "better" than new!
    
Rob 


AGAIN - This article is from Rob @  http://48rob.yuku.com/topic/21#.Uheg8GDyGGr

Please go to his site for additional articles, since it is so great I have decided to reprint it here because it is really a must read for anyone who tows a cargo trailer with leaf springs, so 90% of the crowd.

       




Thursday, August 22, 2013

Remember the front Diamond tool box

Well here it is finally installed, it now slides from side to side allowing for tight turns.
Generally only a small tool box can be installed about 50% of the current version, but as this is OverTheTop, here small is never good enough. 

After some minor head scratching the problem is now solved with the sliding tool box. 

Another first & one of a kind for OverTheTop trailer custom design 
A few minor touches are still needed to polish off the project.







Full size truck tool box


One of a kind - Custom OverTheTop design, 
slides back and forth to allow for tight turns


Tuesday, August 20, 2013

2,160 watts of Solar now installed



         So here it is official , my CarMate 7 x 18' is surely the worlds most powerful solar trailer. If you know of someone who beats me & has more solar for the size - let me know a $50 reward to the first reader who sends me proof. Below are all 3 side panels fully installed and in stealth mode.




above you can see the solar panel, 
the white cover & white cover with plastic film covering




Above are the 3 completed white solar panel covers 
hiding 630 Solar watts - in stealth mode

Monday, August 19, 2013

1,950 watts of Solar now installed




       Hopefully tomorrow morning I will break the 2,000 watt solar barrier , keep your eyes open for a good laser at a garage sale. Maybe I can shot the extra power back to the sun - so that the Republican Global cooling slows down LOLROTF

The pink color below remember is the plastic film over the white metal cover.





Above is the first panel in Stealth mode


Next comes the metal frame


2nd the panel is installed


3rd cover with pink plastic is installed

1,740 watts of Solar now installed


       Here you can see the first side panel with the white cover panel. Underneath there is hidden a 210 watt Kyocera solar panel. It's been pretty hot & I had some problems with the AC so the going has been slow, I will try to get another panel up tomorrow morning. Stay tuned



Sunday, August 18, 2013

Updated solar wiring part 2

        I ended up drilling holes into the roof as a last resort since the look from the street is much better. I used marine deck seal parts, mostly held down with a larger patch of VHB tape and a second metal plate if additional screws are needed. The wires are still wrapped in some conduit. I felt this made smaller holes and would be more water proof vs the plastic conduit.

The picture from the top is not as pretty however it's invisable from the street.





These are great, they seal the water out for boats on the ocean
i'm sure they will work for me also