What about that Deck?

As a home inspector, I must  report that the majority of decks that I evaluate are built with substandard materials and workmanship that endanger the safety of the occupants. I urge you to take a few moments and examine the safety of a few key checkpoints that could ultimately cause injury or death if not corrected. Let's inspect the deck together from top to bottom.

First, walk across the deck and take note of any springiness in the floor frame or do a little bounce at the center point. Did you know that a springy floor frame is a telltale sign of a problem? The floor frame should be capable of supporting live and dead loads without exhibiting movement. If the deck does shake, rattle or roll, then the floor frame is most likely undersized, over-spanned or both. Reinforcement is needed to prevent collapse.

While on the deck, walk to the center of the outside guardrail. Holding the railing with hands spread wide and feet spread wide apart, shift your weight left and right while pulling on the railing with the objective of trying to make the deck move from side to side. If the deck exhibits lateral movement, it is unsafe and reinforcement is needed to prevent collapse. Elevated decks are notorious for dangerous swaying problems.

Let's take a moment to examine the guard railing. Measure the height of the railing - it should be a minimum of 36 inches high. Take a look at the balusters, they should be vertical (not horizontal) and the spacing should not exceed a maximum of 4 inches. Low railings, large spacing between balusters or horizontal balusters can all result in a personal injury and are unsafe. Grasp some of the balusters and give them a little twist test to check for secure attachment. The balusters are best fastened with exterior screws. Shake the railing and posts, there should be no sign of movement. The posts that support the railings are best fastened with carriage bolts that run through the post and rim joists. Did you know that the railing should be capable of withstanding 200 lbs. of lateral pressure?  Even treated lumber requires maintenance or sun damage and decay may result. Most of the decks I inspect have never received a treatment with wood preservative and obvious nail pops and splinters stick up from the floor boards and railings posing a risk of personal injury. Have you ever had to restrain your child while the doctor struggles to remove nasty splinters from hands or feet? You should examine all deck surfaces and replace those boards that have splinters or decay. Sanding away splinters is not an option, as the grain will continue to lift. Nail pops should be countersunk. Last, get out there and apply a wood preservative at 2-3 year intervals.

 Take a look up in the air. If a new deck has been added and it is located beneath the overhead electrical wires, there could be a serious risk of shock or electrocution. A ten-foot clearance is needed. Many do-it-yourselfers never consider the proximity to the electrical service. Shocking!

 Take a walk down the deck stairs. Are the tread & riser dimensions uniform? Are the handrails and posts secure? Is a center stringer missing resulting in springy stairs? Are the bases of the stringers buried in the soil or do they rest upon a nice little concrete stoop? Next, take a look underneath the stairs as many that I inspect a weakly attached to the deck as an afterthought just waiting to collapse.  Time to get underneath and take a look at things. One of the most flagrant problems that I find when inspecting decks is the omission of lag bolts. Check where the ledger joist or deck is fastened to the house. If you see only nail heads,

then the installer failed to properly secure the deck frame to the house frame and the entire structure could collapse during that graduation party. You should see the presence of "lag bolts" spaced several feet apart that firmly tie the two structures together. Without the lag bolts, the shear strength of the nails alone may fail under load resulting in total deck collapse! Next, take a look at each end of the floor joists. You should see the presence of metal joist hangers beneath each end of each joist. If the hangers are missing, then the floor joists are only end nailed and could collapse under load. The joist hangers provide each joist with 1 1/2 inches of required end bearing to safely support all of your guests. If the joist hangers are present, inspect the nail holes in the hangers themselves to see that each is filled with a joist hanger nail (not a roofing nail). 

 If a main girder is present, it should be properly assembled so that any splices fall above support posts and with support posts that are properly sized and spaced. If you note any evidence of sagging or scissoring at joints then there could be a problem. If the floor joists are cantilevered beyond a main girder, then as a "rule of thumb" the cantilever should not exceed approximately two feet.  I hope that you notice some support posts beneath the deck and that they are spaced about 4-7 feet apart. Examine the joint and the method of fastening where the posts join the floor frame. Often posts are over-notched, decayed or poorly secured at this location. Next, probe the base of each post for decay at they are exposed to constant wet dry cycles. Better builders will raise the base of the posts up on metal anchors to prevent decay and also to secure the posts to the footings. Sight down the row of support posts and footings for plumb. If you see any signs of tilting, then a problems is indicated and repair is needed.  Down at ground level, there should not be any vegetation left under the deck and the footings should extend below frost level (four feet deep in this area). If you find that the deck posts only rest on concrete blocks or patio blocks then it is obvious that proper construction standards were not followed and the deck is vulnerable to frost movement. If you find that the deck posts are buried within the concrete footings, then the footings will eventually crack from water infiltration and frost expansion. Ideally, the footings should be four feet in the ground and should project slightly above grade.

 In closing, your deck is part of the means of egress for the occupants and another living space. It must be safely built, safely supported and safely fastened to the home. Any deficiencies in the above could result in collapse and personal injury. If you have questions about the safety of your deck, then you should consult a member of the American Society of Home Inspectors or your local building department. 

Information herein was borrowed from ASHI

Lights Flicker?

Flickering In One Area

• The problem could lie with lights that are on the same circuit. If that's the case, the likely source of the problem is in the circuit breaker or the neutral connection. The neutral connection runs to the electrical "ground." More often than not, connections, especially the neutral connection, are the problem. It is less common for connections along the path to the circuit to be faulty. A good clue that the problem may lie with the neutral line is that some lights become more dim while others brighten. If only some lights on a circuit blink, this indicates the trouble lies somewhere along the circuit to the panel--a much more difficult problem to diagnose and solve.

Flickering Throughout The House

• It's hard to tell if the lights flicker all over simultaneously because you can be at only one place at one time. A friend or member of the household can assist you in discovering if the flickering problem affects the entire home. If the flickering isn't limited to a single bulb, outlet or circuit, there is a good chance that a main wire connection in the home's circuit breaker panel is the cause. It could even mean that the problem lies outside of the house in the supply line from the power company's transformer to your home.

  Flickering When Major Appliances Turn On

  • A slight, interim flicker is not uncommon when big-power drainers with motors such as washing machines and air conditioner compressors kick on. Use a gauge to check that the phase-to-ground voltage is around 120 volts. If the voltage dips momentarily when a large appliance is turned on, there probably is no serious problem. Check the voltage at the panel, the main line and have an electrician check the voltage at the meter enclosure.

  An Electrician's Tip

  • Before expecting the worst, there is an old electrician's trick to track a potential problem quickly. If the problem if more than just one light or area, check the wall outlet voltage on the outside wall nearest to the service panel, that is, the circuit breaker panel. The reason is a logical one, from an electrician's point of view. Homes are often wired with the first outlet box on the circuit as the distribution point for the rest of the circuit. Variations in temperature, moisture and the fact that the entire flow of electricity for that circuit runs through that outlet, makes it most susceptible to loosening or wear on the wires and their connections.

    
    

    
    

    
    

    Borrowed from Chuck Ayres

  
  

Choosing the right filter for your furnace

The choice of which filter to buy for your furnace depends on how much you want to spend, what you're trying to filter, and how diligent you are about changing the filter.

The minimum efficiency reporting value (MERV) scale goes from 1 to 16. Most residential filters range from 4 to 12. Furnace manufacturers prefer the traditional spun fiberglass filters (MERV 2) because they filter out enough of the large particles to protect the furnace while providing maximum airflow. Maintaining the furnace manufacturer's specified airflow is critical to achieving energy efficiency and maximum life from the blower motor and heat exchanger. An inexpensive MERV 4 filter captures 80 percent of the particles 50 microns and larger, but only 25 percent of the particles in the 3 to 10 micron range.

For most homeowners, a more expensive MERV 7 or 8 pleated filter provides a good balance between cost and filtration efficiency. These filters trap 80 to 95 percent of the particles 5 microns and larger—more than enough filtration for most households.

Furnace efficiency is one thing. But if you're a clean freak or have family members with allergies or low-immunity issues, spend more on a high-efficiency (MERV 11 and higher) filter. Then just make sure you stay on top of filter changes to protect your furnace.

High-efficiency filters capture 99 percent of airborne particles as small as 0.3 microns (bacteria and viruses, fumes and pollen). But you'll have to run your furnace fan full time to get the maximum benefit from a high-efficiency filter, and that will cost more. Figure the extra cost into your decision.

Finally, never switch from a fiberglass filter to a high-efficiency filter without first talking to your HVAC technician. The technician can boost fan speed to compensate for the reduced airflow. Even then, you still have to be diligent about replacing the filter regularly. A clogged filter can burn out the blower motor, damage the heat exchanger and cost you hundreds of dollars in wasted energy.