We knew when purchasing a new motorhome there would be modifications and upgrades that we would want to make to make the vehicle more like a home and be able to provide a more comfortable lifestyle. We had read many reviews on various models of motorhomes including the one we purchased and knew that it would not be perfect and that some work would need to be done before venturing out long distances. Moset of these mods were not because things didn’t work but because they didn’t work they way we would like them to, as usual!

We made both major upgrades and several minor ones.  We prioritized our list and focused on the ones we knew for sure we wanted.  We have another list of potential items to do in the future but we will wait on those.  We will cover those items in a future post.

We will start with the major upgrades and modifications first.

1) Addition of a Satellite Dish

The View came pre-wired for satellite but did not have a Satellite Dish mounted on the roof.  No problem for us as we added one.  We added a Pathway X1 Antenna (White) & DISH Wally HD Receiver Bundle. This required a roof mount kit and was easily installed and so far, knock on wood, works like a charm.

Winegard Satellite Dish

Winegard Satellite Dish

Winegard Satellite Dish Roof Mount Kit

Winegard Satellite Dish Roof Mount Kit

Of course we do have a DISH satellite subscription for On The Go (RV) along with a DVR which we had on our previous motorhome.  We mounted the receiver vertically against the back wall of the cabinet behind the TV to help save space. The DVR sits on top of it and both are attached to the wall behind them with velcro.

DISH Reciever and DVR

DISH Reciever and DVR in a vertical mount

Although the Sat TV was fine we also often watch movies that we have on DVD or on a hard drive so I decided to install an old Blu-Ray player we had collecting dust since we got a smart TV for the house.

DISH Reciever Power Strip and Blu-Ray Payer

I soon discovered the next shortcoming Winnebago did when wiring the TV.  They only passed one HDMI cable out to the jack in the compartment and I needed two, one for the Sat receiver and one for the BR player.  I installed a two-output HDMI outlet plate and ran two new HDMI cables to the TV.  The existing HDMI cable is a very nasty thick/stiff cable so it was scrapped and replaced with two thinner/flexible cables.

Dual HDMI Outlet

The Dish Rx Remote is RF so it worked fine with the receiver behind the TV, however the BR Player uses an IR remote which won’t function without an IR line-of-site from the remote to the payer.  Needless to say, getting up and opening the TV compartment every time we wanted to control the BR player got old very quickly so I installed an IR repeater.

IR Repeater with dual IR LEDs pointing at BR Player

I mounted the receiver for the IR remote just above the microwave.

Receiver for IR Repeater

We can now control the BR player in the TV compartment from anywhere in the Living Room.

2) Added 2 More Solar Panels

Our View came with 2-100 watt solar panels mounted flat on the roof.

View 24D Solar Panels

Original 2 – 100 Watt Solar Panels – factory installed by Winnebago

We knew we needed to upgrade the solar and the batteries to allow us to boondock and keep the compressor fridge going amongst other items.  Tests which were done by Litchsinn RV on a Winnebago Navion/View on the Zamp Solar System powering a Norcold Refrigerator is documented on You Tube.

The tests showed that the fridge could maintain adequate cooling temperatures for about 3 days when using nothing else (no one living in it and using lights, TV, water pump, etc.). The sky was a bit cloudy/overcast for the tests which allowed for some testing in real situations. A limitation of approximately 3 days is not ideal and we knew we needed to do something, either replace the fridge with a 3 way (AC,DC,propane) or add more solar and battery capacity. We thought we would take the easy route first (the latter) and see how that works before buying and installing a new fridge.

A generator can be used to charge up the batteries but we really hate to run the rather noisy generator and try not to except for situations when we have no other viable alternative and/or maintenance.

With the factory installed 2 solar panels already on the roof on the passenger side there isn’t much real estate left to add many more panels but it can be done. There is some shading which is bound to occur from the a/c and also from the newly mounted satellite dish that we installed. My husband laid out a few different designs with different sized panels to figure out the best use of real estate measured against wattage, cost, and benefits.

The additional solar panels we purchased were the Renogy (2 pieces) 100 Watt 12 Volt Flexible Monocrystalline Solar Panels and we mounted them on the roof on the driver side. This would give us a theoretical total of 400 Watts of solar energy.

Renogy Solar Panels Description

Renogy Solar Panels Description

Below is the wiring diagram for panels as provided by Renogy.  The View came equipped with three ports with SAE connectors on the roof for attaching solar panels.  Two of the ports were used by the existing Zamp panels so the third port was used for the additional two panels which were wired in parallel.  The only potential glitch during the install is that I discovered that the existing SAE connectors which are wired opposite to the de-facto standard for SAE connectors!  This required making a short “gender changer” cable and an adapter cable to go from the standard MC4 solar connectors to the reverse-wired SAE connector on the open port.

Our new panels prior to mounting

Solar Panels

Our newly purchased panels before mounting on roof

Panels being mounted – note the newly installed Satellite Dish also in the picture

Winnebago View 24D roof mounted solar panels

Busy mounting additional solar panels on driver side of roof

Here are the panels in action.

4 – 100 watt solar panels in action

During periods of unobstructed sunshine on a partly cloudy day we were seeing some readings like this:

Reading with close to full sun

On a party cloudy day, in Arizona, in March the panels were producing about 90 Amp-hours (Ah) and we were waking up in the morning with the house and chassis batteries over 13 volts.  So far so good!

3) Replaced The Original House Batteries

The original house batteries provided by Winnebago were  2 deep-cycle Group 24 RV batteries (flooded lead-acid) which each weigh about 42 lbs and are 9 3/8 in high and 10 3/4 in wide and are rated at approximately 70 Ah.  Since they are lead-acid batteries the actual usable capacity is roughly 50% of the rated capacity.  That’s a total of 84 lbs and approximately 70 Ah which we calculated to be inadequate for boondocking.  The compressor fridge seems to have a duty cycle of close to 50% even in relatively cool weather and the compressor draws more than 5A when active so the fridge alone requires roughly 60Ah.  When we add in lights, some TV viewing, charging laptops, etc. the daily Ah capacity required to avoid running the generator is well beyond the capacity of the OEM batteries – we clearly needed significantly more battery capacity!

We replaced the OEM betteries with Lithium-Iron-Phosphate Batteries (LiFePO4) 12 Volt 100 Ah) which each weigh about 28 lbs and are approximately 260 mm (10.2 inches) long, 158 mm (6.2 inches)  wide, and 246 mm high (9.6 inches).  This means that the LiFePO4 batteries are a drop-in replacement for the original house batteries.  They weigh significantly less (total of 56 lbs) and provide much more energy. LiFePO4 batteries have more usable capacity of up to 80% without significantly shortening the life of the batteries.   Overall these batteries give us roughly double the capacity and a saving of 28 lbs from the original lead acid batteries.

Besides being lighter and having more usable capacity, the LiFePO4 batteries also are faster and more efficient at charging, are pretty much maintenance free, and have an extended life cycle.

The down side?  They are not inexpensive!

The original batteries were located under the steps when you enter the motorhome from behind the passenger seat.  We removed the original batteries and inserted the 2 new LiFePO4 batteries which are lighter and fit easily in the existing battery compartment.  Some re-cabling was required since the LiFePO4 batteries had the posts on the opposite side compared to the Napa batteries.  Since I had to make some short connector cables I decided to replace the the existing cables.  The original cables were stiff and of marginal capacity considering the new lithium batteries so I replaced them with “00” flexible welding cable.  I also re-located the fuse holder and modified the battery restraint brackets.

Winnebago View 24D House Battery compartment under steps

House Battery compartment under steps – installing the lithium iron batteries

Winnebago View 24D House Battery compartment under steps

House Battery compartment under steps – showing the newly installed lithium iron batteries.  Note the much heavier new cable vs the old light cable.

4) Added A Starting Battery Charger/Maintainer

A major omission in Winnebago’s DC electrical design is that the chassis batteries are not charged in concert with the house batteries.  When parked for a period of time the parasitic loads on the chassis batteries will run them down even if the vehicle is plugged into shore power with the converter maintaining the house batteries fully charged.  We added a Trik-L Start module which allows for charging the chassis batteries from the house batteries when the house batteries are above a threshold voltage (approx 13.2V).  This ensures the chassis batteries are maintained as long as the house batteries are being charged by shore power, generator, or solar panels.

I installed the Trick-L-Start in the box that the passenger seat is mounted on.  In that compartment you have access to cables from both the House and Chassis batteries so connecting the Trick-L-Start is a very easy job.  The input is connected to the hot cable from the house batteries to the boost relay and the output is connected to the cable coming from the chassis battery to the boost relay.  Probably the most time consuming part was removing the passenger seat in order to get at the cables where they are attached to the relays.  I mounted the unit inside the seat box but I have heard of others mounting it on the outside and just running the wires through to the inside.  In either case you really need to remove the seat to get at the cables.

Trik-L-Start installed in passenger seat box

There is a battery boost switch on the 3500 Sprinter Chassis which is used to temporarily connect the house and chassis batteries together in order to start the vehicle if the chassis batteries have been run down.  This is useful in an emergency but it is *much* better to keep the chassis batteries charged so that you never need to use the boost switch.


Sprinter 3500 dash buttons

Lights and switches on Sprinter 3500 dash (left of steering wheel) for tow brake light, stabilizers, and battery boost

There is also a switch on the dash to change the radio from Engine to House batteries. You can switch the radio to house batteries to allow the operation of the dash radio (Riverpark Xite) while parked and hopefully then not put a drain on the chassis batteries. Switch it back to Engine while driving.  Since installing the Trik-L-Start module, we tend to leave the switch in the Engine position.

Sprinter 3500 dash radio engine house switch

Switch to toggle between engine or house battery for the Sprinter dash radio

The Trik-L-Start seems to be working fine.


Trik-L Start Charger

Trik-L Start Charger


5) Added Sewer Hose Storage

Our View came with a sewer hose storage container on the driver side’s basement which is located under the slide. It is inconvenient to use those basement compartments when the slide is out though not impossible.  The compartment has a plastic container with an opening that you can slide a BARE sewer hose into but you must first remove any fitting on the end. This is cumbersome at best, and just plain ridiculous considering you no longer have a positive connection at the sewer entrance.  You have to just shove the bare sewer hose down the hole and hope it doesn’t pop out during a dump of the black tank!  Overall this potentially good idea of a storage compartment was completely unworkable and was removed which had the additional benefit of providing a good bit more storage in the rear compartment.

Basement compartment - driver side - under slide

Diagram showing the original factory installed sewer hose container

Both of these items were addressed by removing the sewer hose storage plastic container thhereby freeing up more basement compartment storage space.  More space is always good.  I mounted a plate over the hole that was left after the removal of the hose holder.

Winnebago View 24D sewer hose storage

The useless Winnebago View 24D sewer hose storage – after removal from the basement compartment

Basement compartment - driver side - under slide

Extra space in compartment now that the factory installed sewer hose container has been removed

We purchased a sewer hose storage system which mounts to the bottom of the rig close to the dump controls.  We purchased a Super-Slider Adjustable Super-Tube 43/80 after watching a review by The Fit RV on You Tube .

This tube is big enough to accommodate the hose with connector attached and it is MUCH easier to insert/retrieve the hose plus it is adjacent to the dump valve and not under the slide – another big bonus.

Super Slider-4380

Super Slider-4380


Super Slider-4380-Description

Super Slider-4380-Description

Mounting the Super Slider was straight forward.  I added a 1×2″ strip of wood to the sloped part of bottom of the compartment to provide more clearance as well as to spread the attachment points. The tube is then screwed to the wood strip, not directly to the chassis.

On the far side mounted it directly to the bottom of the Wet Compartment.  I used  large washers inside the compartment to prevent the bolts from pulling through the plastic although the tube with the hose inserted is very light.

The sewer hose is now in a so much more convenient location and actually works great!!!!

Our new sewer hose storage system mounted


6) Added a DC-DC Converter for Reduction of Solenoid Power Consumption

The View has an electrically operated solenoid which opens and closes the main valve on the LP tank. This switch-operated valve is convenient however it draws a considerable amount of current in the “ON” position. When the solenoid is on the coil is continually energized which draws roughly 900mA at 13.2 VDC from the batteries when not connected to shore power.  This drain amounts to roughly 24 AH over a 24 hour period. Of course if propane isn’t required full-time this could be reduced by only switching the LP on when required.  This isn’t practical when the stove, furnace or hot water are required.

Other View owners had reported that the solenoid valve will operate at a much lower voltage than the nominal 13.2 VDC. Lowering the voltage applied to the solenoid will proportionally reduce the current and overall energy required to keep the LP available to the coach. In order to reduce the voltage I installed a DC-DC variable converter with adjustable current limiting and LED readouts for voltage & current.  I reduced the voltage to where the solenoid would no longer operate (about 3.5V), then increased it to 5V where it would operate reliably.

DC-DC Variable Converter

The solenoid now operates reliably at 5.0 VDC and only draws 170 mA so the 24 Hr usage is reduced from 24 AH to roughly 4.5 AH and when boondocking and charging the battery bank using solar panels this is a significant saving.

After I confirmed the reliable operation of the solenoid on 5V during a few trips, I swapped out the vairable converter with a fixed 5V converter. The variable one is just too handy around the shop to be permanently installed in the RV 🙂

Here is a link to the 5V fixed converter now permanently installed in the View:


Other Miscellaneous Modifications

7) Removal of Various Items

The following items were removed from the RV to give us more space and to save on our weight allowance.  We did not dispose of them but they were items we didn’t think we would be using or we thought they were not necessary. We still have them and can put them back in anytime we want.

2 Booster Seats – The Sprinter Chassis driver and passenger seats can swivel to face into the coach therefore 2 booster seats are provided so when you sit on the seats your knees don’t come to your chin (ha, ha…). We had a Sprinter chassis before and rarely swiveled the seats so we thought we would remove them and save on storage space.

Extra table and pole – The View 24D comes with an extra table and pole which can be mounted either between the driver and passenger seats or next to the couch. We felt that our needs only required the dinette table and again we wanted to save on space and weight so we removed them.

Both sink covers – The kitchen sink has 2 sink covers which provide extra counter space. We felt the kitchen counter space was adequate and having the 2 sink covers would require always having to put them somewhere when using the sink. Out they go!

Curtain which hangs around bed – The View comes with a large curtain which can be hung around the Murphy bed/couch to provide privacy. This isn’t something needed by us and takes up a fair bit of storage space that could be used for clothes or other items. Out it goes!

Cab over bunk mattress and ladder – The mattress and ladder weigh quite a bit and when we aren’t in need of extra sleeping space then out it goes. We added a carpet to the area where the mattress usually sits for both aesthetic reasons and also to keep items (such as coats and hats) more secure. Of course, if the grandkids come then we can easily put the mattress and ladder back in.

Cab over bunk View 24D

Cab over bunk with mattress removed and carpet installed

8) Added a TPMS – Tire Pressure Monitoring System and Valve Stem Extensions

We removed the TPMS from our previous Class A and are now using it on our View. We bought it years ago at the RV tent show in Quartzsite and it still works great.  We have TPMS senders on the six wheels of the View and probably more importantly on the tires of the toad.  It is not obvious if/when a tire on the toad deflates – this TPMS gives us piece of mind knowing we will get an alarm and reading of both tire pressure and temperature on all tires.

Unfortunately Winnebago didn’t provision the View with valve stem extensions that allow access from the face of the wheel for service and subsequently do not make it easy to install TPMS sender units on the valve stems.  What was needed was a straight extender on the inside dual and a “U” extender on the outside dual.

Detail of the U Valve Stem Extender on Outer Dual

Valve Stem Extenders and TPMS Senders Installed

These TPMS senders are the “flow-through” type so that air can be added/removed from the tire without removing the sender.

Tire Safe Guard TPMSTPMS Display Display

9) Adjusted the Kitchen Sink Faucet

On our first drive from the RV dealer home we noticed that the kitchen sink faucet would easily swivel, even while driving. It would swing around and hit the kitchen window. Not good. So when we got home my husband added an thick rubber elastic band around the fixture to allow it to still swivel but with some resistance so it now stays put. Problem solved! And it looks half decent.

Kitchen sink faucet

Kitchen sink faucet with band installed to limit reckless movement

10) Bubble Levelers

We don’t have hydraulic leveling jacks with this RV but we do have stabilizers. This will mean a bit more of a job to level. My hubby installed a couple bubble levelers hidden inside the fuel door to aid with leveling.  When the fuel door is open one bubble indicates fore/aft level and the other indicates the side-to-side level.

Leveling Bubbles by fuel fill

Leveling Bubbles by fuel fill

11) Added a trash can under sink

One of the problems we saw with many of the Class B+/Class C motorhomes we looked at was either no location for a decent sized trash can or no location for a trash can at all.  What is a decent sized trash can you ask? Well, that is very subjective.

We measured the area under the sink very carefully and looked around both at stores and online for a trash can (with a lid/cover – a strong requirement since we are sleeping close to the trash) that would fit under the sink.  The trash can needed to not have a straight flip up lid due to the small area. We found, what we thought was, a perfect sized trash can with a swing top lid online at Wayfair. We ordered it and, lo and behold, the advertised measurements were for the trash can without taking into account the lid therefore it did not fit under the sink.  We did, however, decide to keep it (and notified Wayfair of the actual measurements) and simply cut a section out and pop-rivited it back together.

There is now plenty of room to allow the swing top trash can to swing and not hit the sink above it. We love the modified can and it works perfectly! By the way, it was advertised as 9.5 gallons and when we received the product it stated it was 9.2 gallons. After cutting it down we assume it is around 7 or 8 gallons. That to us is a decent sized trash can.  The only other one we could find was 2.6 gallons. That would not be a decent sized trash can to us.

Swing Top Trash Can - Modified

Swing Top Trash Can that we cut down to fit under the kitchen sink

12) Added Boot Trays

Boot trays make an easy place to store shoes/boots for easy access when parked. We purchased 2 shoe trays which are 20″ x 15″ each and they can either be stacked when traveling or put one behind each of the drivers seat and the passenger seat when parked. These are smaller than normal shoe trays and we found that the standard sized ones were in the way when we walked from the cab to the coach and vice versa.

Small boot tray

A smaller than normal boot/shoe tray


13) Foot Stool

We purchased a bean bag foot stool to use by the couch and opted to not use the table which can be mounted by the couch when parked. We felt the dinette table was good enough for us but can always change our mind later.  The foot stool is light enough to be stowed on the cab over bunk and small enough to fit under the bed when the Murphy bed is pulled down. It can also be used a extra seating or as a little coffee table.

Bean bag foot stool cube

Bean bag foot stool cube – can be used as a coffee table, foot stool, or extra seat


AND a variety of other upgrades

14) We mounted a indoor/outdoor temperature gauge and clock to the wall which we had in our Class A.

15) We mounted a magazine rack by the dinette for various items such as reservations, maps, e-readers, mail, etc.

16) We installed brackets in the driver side basement (rear wall) to mount wash brushes and our hiking sticks.

17) We labeled several of the switches which were not labelled to help us remember what is what.  They included the switches as you enter the coach on the left side and are for the outside light, the cab over bunk light, the skylight, and the galley light. We also labeled the switches outside the bathroom door for the Murphy bed up/down and the bedroom ceiling light.

18) We added labels to the dashboard (in both feet/inches and metres) of the height of the RV and the length of the RV. This helps in quick decisions when driving anywhere where there are height or length restrictions. Having it in metres helps us quickly from doing the math (and making an error) while driving in Canada.

19) We put a label on the Truma control switch in the bathroom. The dial is located in the corner of the bathroom and the controls are very difficult to read because they are small and in the shadows. We put a piece of tape on the control dial and also on the off switch to know they need to be aligned to have the unit off. Otherwise it is impossible to see where the dial is located.

Truma Aqua Go controls

Truma Aqua Go controls

20) We added 2 additional shelves in the bathroom medicine cabinet and 1 additional shelf in the cabinet below the bathroom sink.

21) We mounted a small spice rack to the wall close to the stove.

22) We mounted 2 more towel hooks in the bathroom. There is one close to the shower which is a bit of a shallow hook and nothing seems to stay on it while traveling.

23) We mounted a toothbrush holder under the bathroom medicine cabinet.

24) We put pillows on the dinette so we can sit lengthwise if we want to relax some.

25) We added a thick carpet under the dinette for those cold days.

26) We added floor mats in the Sprinter chassis. Nope, they did not come with any.

27) We removed the holders for the cab over bunk ladder and put 2 coat hooks in their place.

Winnebago View 24D

Coat Hooks in place of the bunk ladder – can easily be switched back

28) Broom Storage  We added a few hooks under the kitchen sink for a small broom and dust pan and fly swatter. We have a swiffer with a collapsible handle for mopping the floors which we store under the dinette seats. We have yet to decide if we want to use space and weight for some kind of cordless vacuum. Too soon to tell.

Winnebago View 24D

We cut down a broom and mounted it

29) Inside Screen Door Handle.  We added a door handle to the inside of the screen door on the screen door slider. Without the handle you have to open the slider, go inside, grab the opening of the slider to shut the screen door, and then close the screen door slider every time you go in. A nuisance! Now you just open the screen door, go inside, and grab the newly installed handle to shut the screen door.

Handle on inside of Screen Door

30) Levelling Blocks.  We had to purchase leveling blocks. Yes, we are back to the days of having to do a manual leveling. Maybe hydraulic jacks are in our future?

31) Media Player and Movie Storage.  We added a DVD Player which accepts USB input from an external hard drive with videos and/or music.  The 32″ Insignia TV which comes with the View only allows USB input with JPEG format photos.  Our DISH Receiver mounted in the rig only allows USB input for a DVR drive. The Jensen entertainment system (in the coach) provides a radio, DVD player, and a USB input but we tried multiple devices (USB stick, USB external hard drive 1 TB, USB external hard drive 5 TB) with the following formats (jpeg, jpg, mkv, mp4, mp3) and the TV would never recognize them. Maybe we are just too stupid to figure it out but we had a DVD player in the house with a USB input which allows us to plug in a USB device and the TV can recognize the video/music/photos with no problem.

32) Inverted AC Outlet. We added a sorely needed single 125VAC outlet near the entry door under the radio on the kitchen counter waterfall area.

Inverted AC Outlet by Door

33) Slide Switch Modification.  We modified the slide control switch to allow opening and closing the slide without the engine running.  The parking brake still must be set for the slide to operate.  This can be accomplished by moving the wire on the plug from the #8 (top) position to the #2 position and just tape up the wire that originally went to #2.  The #8 position is no longer used.

Modified Slide Switch Connection

34) Always Powered USB & 12V Outlet.  We added an additional pair of outlets by the bed which provides an always powered 12V socket and a double USB power outlet.  The two existing USB outlets require 125V AC in order for them to function so we needed to either be connected to shore power or have the inverter turned on for the USB outlets to be powered.  We don’t normally leave our inverter on, especially overnight when boondocking so they are pretty well useless for our purposes.  We now power a digital clock mounted to the wall from the new USB outlet and charge small items from this outlet without turning on the inverter.

Always Powered USB and 12V Outlets


The source for the always-powered outlets is the 12V supply line for the water pump which is under the sofa.  The power for the water pump is always on.

35) Automatic Transfer Switch.  The absence of an automatic transfer switch between shore power and the generator output annoyed me to the point where I could no longer put up with “manually switching” i.e. crawling on hands and knees in the dark plugging the shore power cable into the generator output plug so that we could use the AC at night or some other power hungry appliance that can’t run on the inverter.

I chose a model, one of the few I could find, that is housed in a sturdy metal box.  Call me old fashioned but I just wasn’t keen on those that come in a plastic case.  It is well labeled and very straight forward to connect to the shore, generator and panel cables.

30A Transfer Switch

I find it disappointing that the 24D didn’t come with one of these in the first place but it is now installed and working well.  I removed the existing junction box and 30A outlet box and installed the transfer switch in the same general area.  It is quite awkward to work in that small compartment but in my estimation it is well worth the effort.

Transfer Switch Installed

36) House Battery Monitor. The 24D View has only limited ability to see the details of the use and replentishment of energy in the house batteries.  After swapping out the stock lead-acid batteries for LiFePO4 batteries I was especially interested in monitoring not just what the instantenous voltage is but how much the batteries are supplying to maintain the various DC loads as well as how much current is required when the inverter is being used.

I was aware of some very capable systems like those provided by Victron and others but I wasn’t too keen on the cost so I looked for a “poor man’s” solution.  The answer was a pair of these simple and inexpensive MICTUNING ($17 each) meters.  They provide the information I was looking including voltage, in/out amps, and watt-hours since reset.  Initial impression is that they seem to work well.  Perhaps the only “shortcoming” is that, in order to monitor both charge and discharge, one needs a pair of meters since they will only register positive current flow.  A second meter is required to measure the opposite direction current flow with the shunt wired in the opposite polarity.  Only a single shunt is required for both meters.

Display during battery discharge

And during charging

There is precious little space for the meters in a View, none in the existing panel so I mounted them on the bulkhead behind the passenger seat.  The box is bigger than required but I had this old aluminum box repurposed from the dark ages when if you wanted a 1200 baud modem you built your own.

Bulkhead on right at entry door

37) Water Hose & Shore Cable Storage.  Early on we found that hooking up shore power and water was time consuming and we felt that there was no really convenient place to stow of the power cable and the water hose.  While snooping around under the RV I discovered that the panel immediatly forward of the service bay was not fixed to the wall but was actually mounted on hinges just like the aft bay door however it was secured with a couple of screws so it could not be opened.  Behind that door is the black tank but between the door and the tank there is enough room to store both the shore power cable and the water hose.   I decided that could be a great place to store the coiled power cable and water hose so I removed the screws that secured the door, fabricated a couple of hangers, added a strut and a hasp and then “permanently” connected the power cable to the transfer switch and the water hose to the shore water input.  Much more convenient!

Shore Water Hose and Power Cable Storage

Strut Holding Door Open

I initially planned on mounting two struts but found that one seems to hold the door open just fine.  I used the same strut as the service door.  I mounted it so that it opens more than horizontal, this helps getting access to the hose and cable but the down side is that I must make sure the door is closed before opening the slide.  This arrangement works for me.

Strut Door Mount

Door Portion of Latch

Latch Closed (Need Better Paint!)

This is the latch I used.

This is probably just the start of our upgrades and modifications. It is a learning process and requires more time traveling in it and living in it to determine what needs to be done or not done and to determine if we even like the rig or not. It takes time to get used to downsizing and having a different rig. We drove the other rig for over 8 years so we are now going through an adjustment period.

Stay tuned for our next mod.