Showing posts with label Household. Show all posts
Showing posts with label Household. Show all posts

Upgrading Basement Insulation - Completing the Job with a Spray Foam Contractor

I've written a few posts about my project to upgrade the insulation in my basement perimeter walls. The bottom two feet of the foundation walls had no insulation, just the top 6 feet of the 2x4 stud walls had 6" batts of fibreglass insulation and a foil backed paper vapour barrier.

I started the job thinking I could achieve enough coverage with the Touch-N-Foam System 600 kits - but found with experience that although the kits provide good quality foam, they are slow to apply in quantity, and multiple passes are required to get the three inches required for the foam to act as a vapour barrier.

Contractor Installed Demilec Heatlok Soya Medium Density Spray Polyurethane Closed Cell Foam Insulation
So - I called and made an appointment with an insulation contractor, one that had previously sprayed foam in my attic around a skylight. This contractor sprays Demilec Heatlok Soya - a medium density spray polyurethane closed cell foam that is manufactured in Canada, and the United States. 3" of this foam replaces the requirement for a vapour barrier. Some features of this product:
  • Zero Ozone Depletion Substances (ZODS) as defined by the Montreal Protocol
  • RSI 1.05 per 25mm (R6 per inch)
  • ASTM E96 Water Vapour Permeance, 50 mm 37 ng/Pa.s.m2 (0.65 Perm)
  • CCMC 07273 Air Barrier Material, 25-30 mm 0.00004 L/s/m2 @ 75 Pa
  • Contains post consumer recycled plastic, and Soya oil. I'm not sure the content of recycled plastic in the foam, but according to the company they've diverted 300 million plastic bottles since 2004 - which is an interesting statistic. 
For full information on this product, look up it's technical datasheet on the internet.

The contractor visited, took measurements of the surface areas and thicknesses to be installed, and also checked out the Touch-N-Foam installation that I had installed a few days earlier. I happy that the contractor thought that the final result was good quality foam, good adhesion to the concrete foundation walls, and good consistency. He didn't see any issues with applying his foam overtop of the Touch-N-Foam to increase the foam thickness from an average of one inch, to four inches.

Prior to the arrival of the foam conractor, make sure that you are ready for the foam installation, by ensuring that all electrical, automation and home entertainment cabling was completed. In my case, I had some home theatre surround wiring to run before the foam was installed, and I also made sure all the electrical wiring was supported properly with ties, ensuring there would be nothing hanging in the gap between my floor slab and the foundation walls. 

Home theatre surround speaker cabling pulled prior to foam installation, coiled and protected in a plastic bag prior to the foam installation

Electrical wiring zip tied and suspended from inner wall studs, to clear the gap between the slab and wall for best possible foam application
When I was removing the drywall from the foundation walls, and removing the old fibreglas batt insulation from the walls, I found two thin vertical cracks in the foundation walls - both were located at corners of basement wall cutouts in the foundation wall. It's important to resolve and cracks or leaks prior to applying spray foam. Particularly cracks in concrete - it is important to have a structural repair done which maintains the strength, integrity and waterproofness of the wall. I'll describe how I dealt with these vertical cracks in a new post.

Thin vertical crack behind one of the wall studs. Note the efflorescence (white powdery substance) on the wall next to the crack.
In a few days, the contractor arrived to install the foam, and started by masking off all the electrical outlets, and cover all exposed carpet, furniture, painted wall surfaces, etc. from overspray using painters plastic sheet. This is very important - this material is extremely sticky and difficult to cleanly remove from finished surfaces. 

The contractor uses special equipment installed in a cube van or truck - the raw materials are pumped at high pressure via a 300 foot long heated hose into the home, mixed in the heated application gun, and expand and cure in seconds once the mixed foam hits the application surface. Since this foam is essentially manufactured in the home - it is very important to use an experienced, licensed contractor that will take responsibility for the installation, and responsibility for any application issues. 

There are things that can go wrong with a foam installation, this could include things like overheating following installation, potentially causing undesired chemical byproducts and odours, and even possibly fire. It's important that the installation contractor follow the foam manufacturer's guidelines for single and multipass application thicknesses - foam applied too thick can cause potentially serious consequences. Discuss this with your contractor and ensure that you are satisfied with the responses you receive. Since you shouldn't be in the vicinity of the applicator while it is being installed, without wearing an organic carbon respirator, you won't be able to monitor the installation yourself. You'll have to rely on the experience and reputation of your contractor. Protect yourself by asking questions, checking references, and working from a written quotation and contract. Verify your contractor's license number, and if possible, do a search on the license number to ensure the license is valid, and there isn't a history of complaints or issues with the contractor. In the worst case, the consequence of a bad spray foam insulation job is the complete removal of all the foam - which can be difficult and time consuming. Some verification and research here could save massive headaches later. We selected a contractor called Isolam from Varennes, QC, and were perfectly satisfied with their experience, application and performance. 

Contractor installing spray foam - note the full coverage suit, and the respirator supplied with fresh air from the truck
The spray foam expands and cures rapidly, but it will off-gas for several days creating a faint chemical odour in your home. You may wish to let it aerate for a few days if you can afford staying elsewhere. It's now been a week since the application of foam, and the chemical odour is now barely noticeable, We're currently in the process of topping up the insulation in the wall spaces with our leftover fibreglas batt insulation, and installing new drywall. The installation of drywall should help to reduce the residual odours in the home, and continuous ventilation until all traces of the chemical odour may be a good idea. It's also important to note that the spray foam needs to be covered with at least 3/8" thick drywall as a fire barrier in order for the insulation to meet the Canada national building code - your contractor should mention this fact when the job is quoted, and you'll likely have that specific point noted on your invoice.

Spray foam is excellent for sealing air leaks in and around the rim joists around the circumference of the home at the edges of the floors. It's worth opening the drywall or ceiling to access these spaces. 
So - in summary - I believe that a proper, well applied, closed cell spray foam insulation is one of the best ways of insulating a basement located in the snow belt, and here are the most important points that I've found with this project:
  • Get all your wiring, central vac, ventilation, and all other in wall services completed before the spray foam contractor arrives;
  • Use a licensed contractor, with an experienced applicator, that warrants their work and will follow the foam manufacturer's application guidelines, particularly with respect to application thickness; 
  • Correct all wall cracks or water leaks prior to the installation of the foam;
  • Vacate the house during the application, ventilate the house very well following the installation of the foam, and you may wish to leave the house for a few days while the foam cures and off-gasses.
  • Ensure the fire break is installed over the foam following the foam installation, per the manufacturer's recommendation and any building code requirements - such as a cover of drywall. 
I'm thinking about having my blower door test redone, to check to see if this foam installation has greatly reduced my air leakage rate. I'll get all the drywall and crack repairs completed first, then report the results when I get the blower door test completed. Stay tuned for further posts on the crack repairs, and the continuation of the indoor air quality project. 









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Upgrading Basement Insulation - Touch-N-Foam System 600 Polyurethane Spray Foam Kits

Our original plan for sealing the gap between the slab and the wall was to apply spray foam to the bottom 2 feet of the walls - only where there wasn't any existing fibreglass batt insulation, in the finished part of the basement, and the complete walls in the utility room. Based on the perimeter of the basement, and the yield of the Touch-N-Foam System 600 kit - up to 600 board feet (600 feet long, one foot wide, one inch thick) I figured with two the of the System 600 kits I would be able to get a 2 inch thick minimum coverage.

One inch thick application of Touch-N-Foam System 600
The instructions for the kit, the videos that demonstrate the kit, and the packaging all reinforce the importance of three temperatures for optimum yield - the temperature of the cylinders (minimum 21C, 70F), the temperature of the air (minimum 16C, 60F), and the temperature of the suface the foam is to be applied on (minimum 16C, 60F). When spraying basement concrete walls in late winter - achieving the minimum temperature of the concrete was a challenge. I installed a 2000W convectair in the utility room to supplement the central forced air furnace. My furnace has a zoning system, so I closed the zones for the main floor and upper floor of the house, and forced recirculation only in the basement. I disabled the heat pump to force the electric backup heat in the furnace to run, and I had this run for 2 days straight to try to heat up the concrete walls. I just managed to get the concrete to 16C in most places, some places a bit higher, some places a bit lower.

A note of caution before getting into the details - these kits are recommended for professionals - and improperly mixed or applied foam can cause poor results - in the worst case - you may be removing and cleaning up improperly applied foam. I'm not recommending that you follow this example - I'm just trying to demonstrate my experience. Unless your completely confident in your abilities - take a second thought and strongly consider hiring a professional, licensed contractor.

I made sure to take care of all the preliminary preparations ahead of the day that I was going to apply the foam. All the void spaces were vacuumed out with a shop vac - removing all the cobwebs and loose construction debris to optimize the bonding of the foam to the concrete. Electrical cables that were unsupported in the void behind the stud wall were fixed to the studs so they would not fall into the gap at the bottom of the wall between the slab. I also bundled the wires as much as possible, to have fewer interferences to deal with when spraying foam. All the electrical outlets were protected with plastic bags and tape.

Protect your outlets.

Protect anything in front of your walls - these are electrical cables and irrigation lines that run into the back yard

Buy a couple of rolls of painters plastic - it will come in very handy to protect from overspray

The foam is shipped in two cylinders, a part A and part B, and the chemicals mix in the replaceable nozzle of the gun. If you pause for more than 30 seconds, the chemicals start to set in the nozzle, and you have to replace the nozzle. Since I had to work around the perimeter of my basement, I decided to make a simple dolly on four casters to support the cylinders, so I could move the cylinders quickly and easily.

Four Casters Installed on top of an Ikea Ivar Shelf Make an ideal foam kit dolly
These castors are inexpensive, can be picked up at any home improvement store
Once the drywall was off all the walls in the utility room, I got an early start on a weekday once everyone was out of the house. The application guide recommends adequate ventilation, so I opened a door passage to the garage, and opened the garage door to allow some air circulation when spraying.

I went with the recommended personal protective equipment (PPE) - a painters tyvek suit, the safety glasses supplied in the kit, and a half mask organic cartridge painting respirator by 3M.

Image result for 3m half mask respirator
3M Half Mask Organic Cartridge Respirator

I watched the instruction videos a few times to familiarize myself with the operation of the kits and the application of the foam, and followed the instructions carefully. I won't repeat the instructions here - the videos are excellent and easy to follow.

Everything laid out and ready to start - Foam Kit with hoses and gun attached, scrap cardboard for testing, garbage can with bag for priming gun and testing foam.
Everything went pretty well as shown in the video - once the gun was primed and shooting well mixed foam - I started by foaming the gap in the slab, and the contours of the wall openings. I was careful to apply the foam no thicker than recommended - 1" at a pass - to try to optimize the yield of the foam. This meant that I would have to go back and do a second pass.

Foam Application - Perimeter Pass
The kit did not come with any fan nozzles, only the spot nozzles which spray about a 4" wide bead of foam. It took me about an hour and 30 minutes to completely empty a kit - it takes a fair bit of time to do wall coverage with only a 4" wide pass in thin layers.

Completed wall after the second pass.
When the first kit was running low on foam - I noticed air bubbles coming up the line a bit more frequently, and the pressure dropped in the spray. I didn't notice right away that I had completely exhausted the A cylinder. I ended up with about 6 square feed of foam that hadn't mixed properly and wasn't setting, so I had to scrape it out with a paint scraper and then start the second kit to re-apply fresh foam.

Once all was completed, and had cured for a day - I went back and measured my application. I had averaged about 3/4" thick application over about 600 square feet of wall surface, plus about 75 feet long of sealing the gap between the slab and the wall. I figure I got fairly close to the advertised yield of the kit - but in order to achieve 3 inches of cured foam in order for the foam to act as a vapour barrier - I figured I was going to have to purchase another 4 or 5 kits. I was now in the cost territory of having a foam contractor come in, and, I had spend a total of about 6 hours in preparation, application and cleanup in order to do about half of my surface area to about 1/3 the required foam thickness. So - the decision was easy - I was going to get a contractor in to complete the job. I had already hired an insulation contractor during the original renovation to apply spray foam to a window well in my attic, and to blow cellulose into my attic. I called him and set up an appointment for the end of the following week. 

Another issue was that at the end of applying one and a half kits - my eyes were getting irritated. I was limited with how much ventilation I could allow without dropping the air temperature due to the cold weather. I ended up purchasing a full face organic cartridge respirator in order to finish off the second half kit remaining - just to avoid further eye irritation. If you're going to apply one of these large kits indoors - I would highly recommend the full face respirator. 

Image result for 3m full face respirator
3M Full Face Organic Vapour Respirator
In the end - I got a good quality foam that adhered well to the concrete - but I underestimated how labour intensive it was going to be for a large job. I think these kits are ideally suited for smaller jobs - where you need to apply a single kit - such as doing all your rim joists in your basement, for example. Larger jobs - where you're applying to entire wall surfaces - you're probably better off with hiring a professional contractor.

If you are going to apply one of these kits yourself, my biggest recommendation would be to follow the manufacturers application instructions to the letter - application temperatures, work procedures, and so on - to maximize the chance you get a quality result. 

And - don't try to get every last bit of chemical out of the tanks - as soon as you notice a change in the foam output quality - stop, change the foam nozzle so you have a clean applicator, and check the foam by doing another test on scrap material. Any foam that isn't properly mixed will not cure and you'll be scraping it out - not an easy job considering how viscous and sticky the product is. 

An example of improperly mixed foam - the A cylinder had run out, and I had continued applying foam. This foam didn't expand and cure, and stayed wet and sticky, and had to be scraped out, cleaned, and foam reapplied overtop. 
In my next post, I discuss completing the basement job with a contractor, and what we found behind some of the finished basement walls that caused some difficulty - some vertical foundation wall cracks. 




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Indoor Air Quality Project Part 2 - Upgrading Basement Insulation

One of the indoor air quality complaints that we have is now that we've improved the envelope of the house, installed mechanical ventilation (ERV - energy recovery ventilator), and have improved the insulation around all the doors, windows, and attic, we have conditions in the summertime where there is a musty odour when entering the house. I knew we had excessive humidity in the house in the summertime with the air conditioning running - from tracking humidity using a simple digital hygrometer - getting levels up to 60% relative humidity.

Completed Polyurethane Foam Installation in the Basement

Research into this problem led to some findings, some of which have already been corrected:

The third and final issue was in the way our basement walls were constructed 25 years ago - typical for the time - all the perimeter walls of the house were framed with standard 2x4 stud walls, with an air gap between the poured concrete foundation wall and the stud wall. The stud walls were then insulated with fibreglass batts from the top down to 2 feet from the slab, with no insulation at all in the bottom 2 feet of the wall. Instead of a poly vapour barrier, a foil backed paper was installed, but only where there was fibreglass batt insulation. So - there was nothing to prevent humid air from inside the house permeating the drywall or finding its way to the cold concrete foundations through air leakage through the tops of the stud walls which were not sealed, the bottom, or the many apertures for plumbing access, outlets, etc. When I opened up a 2' x 2' section of the basement wall - I found the lack of insulation, and evidence of seasonal moisture accumulation - cobwebs and spiders, efflorescence on the concrete, water stains on the electrical wiring, and a humid, musty odour. 

Inspection Hole in Basement Wall - White dust is from cutting the hole in the drywall. Note the cobwebs, Efflorescence on the Concrete Wall, Construction Debris, and Gap between the Wall and the Slab
Another issue revealed with the inspection hole was that our basement concrete slab was poured with a formed gap of 1 1/2" between the concrete wall. I believe this is referred to as a "floating slab" installation - which is done in cases where there is a concern that the slab may either raise or settle. If the slab is poured directly against the wall - the perimeter of the slab can't rise or fall, and if the slab moves, it may cause cracks. The issue, however, is that this gap was never filled prior to the construction of the perimeter insulated inner wall. Once the gap was cleaned under the inspection port, wet sand was evident in the gap. The construction debris left in this gap seemed to trap the humidity in this area, and this seemed to be the source of our musty odour getting into the rest of the basement, and distributed in the whole house by the central HVAC system.

Top of photo - poured concrete wall. Bottom of photo - base plate for inner wall - pressure treated 2x4. Just above the 2x4 is the poured concrete slab, and the 1 1/2" gap with gravel and damp sand at the bottom. 

Photos of construction debris taken from the space behind the perimeter wall, sitting in the gap between the slab and wall. Note the water stains on the scrap of drywall at the top. Definitely an accumulation of moisture here.
So - we've found our source of moisture, the cause for the moisture, and the probably source of our musty odour. Before getting into the repairs from the inside of the house - it was almost wintertime at this point, and we wanted to rule out poor foundation drainage as a cause of the moisture at the interface between the slab and the footing. So - we called in a drain company to excavate and inspect the foundation footing perimeter french drain. I'll write about that inspection in another post, but the result was that our french drains were clean, dry, and working well. So it was on to the planning for the repair of the basement wall insulation problem, and the gap in the slab.

I researched the best ways to seal the gap in the slab and the wall. Some believe that this gap can serve as a drain - a way for condensation that forms on the cold walls of the basement to trickle down and escape without collecting on the slab and damaging the walls or finishing of the basement. Well - in our case - we don't want the condensation in the first place - we want a clean, dry basement that is properly air conditioned with good air quality. Multiple sources, including the Canada National Research Council (NRC) publications on building construction, advise to repair all sources of water entry into the basement prior to interior finishing or insulation. In my case - I didn't think that I had any cracks or leaks, and I had my foundation drains inspected and found them to be working. So - on to how to seal this crack between the wall and the slab. There are different products available to seal a gap in concrete - there are caulks designed for expansion / construction joints, there are epoxies designed for structural repairs, and there is expanding polyurethane foams designed for waterproofing and non-structural repairs. I sought out the advice of contractors and a civil engineer, and in the end decided that since this gap is not structural, and that the slab may continue to move slightly, a product that had some flexibility and was highly adhesive and would bond to the concrete would be the best fit. Closed cell polyurethane expanding foam was my choice. By the way - if you ever get into this type of situation - I advise you to not only do your own research, but to also consult professionals with appropriate experience. Your building envelope is critically important for the integrity of your dwelling - improper decisions can lead to further problems - moisture, rot, mould, etc. Seek professional assistance. 

Now - as a minimum, I was going to have to open up the bottom of all my basement walls and seal the gap between the slab and the wall with closed cell polyurethane spray foam. I also needed to insulate the bottom 2 feet of the walls where there was no insulation - so an obvious choice was to continue with the closed cell polyurethan spray foam. At this point, it was obvious the best solution was to open up all the basement perimeter walls - and insulate with the same foam. The basement is about 50% finished living space, and 50% storage / mechanical space - extending under the structural slab which is the garage floor. Total basement permimeter wall surface area - approximately 1400 square feet. At this point it's worth mentioning that when you consult the building construction literature - such as NRC "Keeping the Heat In" basement insulation chapter, or Bulding Science Corporation basement insulation - there are many different ways of constructing a basement wall insulation system - which includes insulating the exterior of the foundation wall, and various ways of insulating the inside of the foundation wall - 2x4 walls with mineral wool / fibreglass batt insulation, rigid polystyrene foam insulation, spray polyurethane foam insulation, etc. Again - I recommend highly that if your considering a repair or retrofit, that you consult reputable sources of information, and that you pick an appropriate system with professional advise as required, and implement the complete system carefully. If you or your contractor cut corners here - you may be exposing yourself to potentially significant problems in the future - water problems, condensation, wood rot, mould, etc. Take your time, think it through, get professional assistance. I really don't think this is a place to be cutting corners. 

I pulled together three different contractor / self perform scenarios, consisting of two contractor quotations and a self-perform option where I would hire some demolition and construction labour to help out with me assisting. I finally decided on the third option - and got started on the project about 2 weeks ago. 

We started by removing all the drywall and starting in the storage room, mechanical room under the garage slab. About half the drywall was fairly easy to remove - it wasn't even taped yet. The remainder was taped, and some of it could be saved, some of it couldn't. In a full day - we had exposed the concrete basement walls of about half the perimeter of the house. 

Perimeter wall with gyproc and fibreglass batts removed. 2' of rigid polyurethane foam at the top of the wall, gap between the interior wall and the foundation wall.
At this point - I decided I would try using the Touch-n-Foam closed cell kits to do the 3" minimum foam - so that I could proceed with the project sequentially and move into the living space later. I went out to my local home improvement store, and purchased two of the 600 board feet kits - each kit consists of 2 cylinders (A and B which mix together in the gun) of 45 pounds for each cylinder. So - 2 kits - 180 pounds of foam in the 4 cylinders.






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Eavestrough Repairs and Preventing Downspout Blockages with Gutterstuff

Our latest house is two stories tall, with eavestrough at both levels. It's also situated close to many mature trees, and as I quickly found out, none of the downspouts were clear and working properly. In the summer we get oak seeds (double samaras) - some people call them helicopter seeds, and then in the fall we get leaves - lots of them.
Downspout blocked with tree debris
My first season in the house I tried to alleveiate the problem by installing spherical downspout strainers on all the downspouts. These worked - for about 2 weeks. And then they become completely blocked with leaves and as the leaves rod, they gradually allow infiltration into the downspout. It was definitely not the solution I was looking for.



My second season, I went looking for a better solution. I considered the plastic or aluminum covers that you can purchase, however I was worried about two aspects - i) fit; and ii) performance - would water just sheet off the cover and overrun the eavestrough? It seemed like too much trouble to install, and would be finicky to fit.

I stumbled across a product called Gutterstuff in my local home improvement store - it's a black, open cell foam cut into a triangular shape, which stuffs into your eavetrough gutters making it impossible for helicopter seeds or leaves to get down into the gutter and block your downspouts. It looked like it would work - so I bought half a dozen pieces to try out on my eavestroughs. 

The triangular shape leaves the bottom free for water to flow to the downspout. The top surface is completely closed - preventing any leaves or seeds to get into the downspout. This is the "K Style" Gutterguard. There are other shapes available.

The open cell design allows water to flow through very easily.
Installation is very simple - the pieces are 4 feet long, and stuff underneath the nails or screws that hold your eavestroughs to your eaves. It cuts with scissors, and can be easily fit around corners or odd angles.

Gutterstuff installed in both upper and lower eavestroughs

Transfer spout filters through Gutterstuff before continuing down the next downspout.
So - how does it work? Absolutely great! I haven't been up to clean out gutters by hand in 14 months now, and everything flows perfectly. No more overflowing gutters, no more water soaked brick, no more blocked downspouts. I find that leaves may land and rest on top of the gutters, but not for more than a few hours or a day. As soon as a little bit of wind hits the gutters, the wind will sweep the leaves off the top of the Gutterstuff keeping everything clear. Water sweeps right through the open cell foam, and does not splash or overrun the gutter. So far it's holding up well under the sun with no UV degradation.

If you have a problem with leaves and your eavestroughs, I highly recommend this product, it will work.


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Wall Acne

I originally posted this on my home automation blog, but since it is more of a drywall / cable management issue I've copied it here to my general maintenance blog as well. This has been one of my pet peeves during the renovation of our last two homes - wall acne. I don't know how widespread this term is, but I use that to describe when you have a bundle of different switches, thermostats, and controls placed haphazardly in the same zone of the house, with no regard for esthetics. A few examples follow.:
Thermostat, 24V Legacy Automation Lighting Control with 8 Switches, Closet Switch. The light switches are aligned horizontally, the thermostat doesn't line up with anything.

Garage Door Controls - Door opener and Legacy 24V Lighting Control. Why doesn't the garage door opener line up either horizontally or vertically?

The problem with wall acne is that it takes time, skill and patience to correct it. In the thermostat example above, I set out to correct the misalignment. There are other posts in this blog which discuss my legacy automation controller and the 24V switches - these have been all changed out for Insteon Switchlinc switches, keypads and dimmers. In this case - I doubled up the wall switch box for the closet light switch to accommodate the Insteon Switchlinc Keypad. The thermostat was moved in line vertically above the light switch and Insteon Keypad, and the new air exchanger control was added above the thermostat.
Doubling up the closet light switch to accommodate the Insteon Keypad.

Thermostat moved to vertical alignment
The completed alignment, Insteon Keypad installed with closet light switch, thermostat and air exchanger controls aligned vertically. 
On to the garage switches. Besides the alignment, I was bothered by the surface run garage door opener wire, and the lack of a thermostat for my two 4000W wall heaters. Running the thermostat wire down through the wall, and incorporating the garage door opener control wires in the wall necessitated a few drywal cutouts to help with fishing the wire past a structural beam.

Aligning the controls with the light switch, and running the wires behind the drywall.

Finished product - Insteon Switchlinc Switch, Thermostat, and Garage Door Opener control all aligned vertically, with wires hidden. 
Maybe I'm a bit fussy about this, but I really don't think so. If some forethought is given to the various trades involved in house construction, and control wires are run behind the drywall during construction (such as the garage door control wires), then this should never be an issue in new construction. But I think the time spent solving the issue is well spent.
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