Our services include:

• Historical Restoration and replacement of windows-vinyl, wood, and aluminum
• Doors- Entry, Patio, Commercial
• Siding- vinyl, metal, hardie
• Insulation-weatherization
• Decks-replacement and Installation
• Fascia, Soffit, Gutters
• Roofs
  
  

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Windows

Your home is one of the most important investments in your life, DNR Construction, Inc.  can replace your old windows with new custom sized windows to enhance the comfort, value and aesthetics of your living space -quickly and cost effectively.  Replacement windows save energy and improve the appearance of your home. 
DNR Construction, Inc.  does not manufacture its own windows rather we partner with well known companies.  We complete in depth research about various products and limit our products to companies that are in stride with our own quality and service expectations.  Our customers feel rest assured by choosing DNR Construction on a local level to install products that are branded on a national level.  We are certified contractors of companies like Pella and Anderson.

DNR Construction has a variety of experience regarding window replacement projects that separates us from the competition.  We have worked with large projects for homeowner associations where the number of window replacements were in the thousands.  We have worked in high rise buildings.  We have worked with the Chicago Landmark Association for the historical restoration of both multi unit buildings and single family residences.  Whether we install a wood, vinyl, fiberglass or aluminum window the results are the same.  The customer is amazed by our overall quality, timelines, and service.  Many continue to be our references and our source for lead generation.

With more multi unit townhome and condominium associations being built every day, it is important for these associations to have a plan for window replacement.  DNR Construction is preferred contactor in many homeowner associations in which the bylaws treat the window as a common limited element.  Homeowners can call us for window replacement knowing the following:  the association board has approved the window in terms of the style, color, and manufacturer ; the costs are known upfront since DNR will price it per unit and hold the price for a designated period; one contractor to contract, install, inspect the quality for,  check insurance, licenses and permits for.  These can become huge headaches for the association board, property manager, and homeowner.  Our process will alleviate these headaches.
DNR will work with the decision makers to makes sure the end product is the desired one.  We only install custom sized windows and have had training with the different manufacturers to learn their installation guidelines so when we have completed the project you know your product warranty is in place.

Siding

DNR Construction, Inc.  can install various types of siding including vinyl, aluminum and fiber cement.  Siding provides an outstanding barrier against the weather, but also proves to be durable and attractive.  You can update the look of your home while increasing the insulation value of it.  Homes in the Midwest that have vinyl siding installed average a 114.9% recoup of the cost according to the 2005 "Cost vs. Value" report on Realtor.com.  The installation of moisture barrier and fanfold insulation to the exterior will add to the r-value of a home.  However, we suggest looking at the amount of insulation within the walls prior to installing the siding.  By simply blowing your side walls with insulation, we can substantially reduce the draftiness of your home while reducing your energy bills.
DNR Construction works with and is familiar with companies such as Royal Building Products, JamesHardie, and Aztec which offers a variety of colors, thicknesses, and styles.  We work with single family homes as well as multi unit complexes.

Insulation:
As the cost of energy rises, homes can economically be insulated to higher levels.
Generally speaking you should consider adding insulation when:

• There is little or no existing insulation.
• There are large gaps in floor and ceiling boards around pipes, conduit and ducts leading to non-heated areas
• Attic, floor, or wall cavities are exposed during remodeling.
• Utility programs are available to help with financing.
• Low cost weatherization measures have already been taken.
• Heating bills are high.
• Windows and doors are drafty

Adding insulation does more than Just save money on winter heating bills it makes the home quieter, less drafty, and more comfortable. It also reduces the need for air conditioning.

Insulation R Value

The R-value of insulation indicates its ability to resist heat flow. Look for the number on insulation packaging; the higher R-values mean more effective insulation.
Insulation materials vary in the thickness required to achieve a given R-value. Air-based insulation averages about R-3.5 to 3.7 per inch for cellulose insulation.
Conservation Priorities

Any conservation effort should begin with measures that are easy, inexpensive, and result in substantial energy savings. This includes the following steps where appropriate:

• Lower the temperature in rarely used living areas.
• Turn thermostats back at night and during the day if possible.
• Add low-cost, owner-installed storm windows over single pane windows or replace with thermo pane windows
• Have a furnace tune-up.
• Seal and insulate furnace ducts in unheated spaces.
• Reduce air leakage in the home.

Next come measures which cost more money but have the potential to achieve substantial reductions in energy use. This includes adding insulation and improving older, inefficient heating systems.

As a general rule, insulate attic, floor, or wall cavities that separate heated from unheated spaces if they are accessible. "Accessible" refers to insulation that can be installed without extensive removal of existing building materials, digging, drilling holes, or other major expense. In addition, the following suggestions make good economic sense for most homes:

• In the attic, if there is less than R-l9 (about — inches of insulation), add insulation up to R-38 which is about 10-11” of blown cellulose after it settles. Rulers should be set up through the attic so the homeowner can easily see that the correct amount of insulation was added to attain the desired R-value insulation
• In heated basements, insulate exposed rim joists (the space between floor joists immediately above basement walls) to R-19.
• Insulate unfinished concrete walls in heated basements to R-l9.
• Blow insulation into uninsulated frame walls only after considering other suggestions listed in this section.

Safety

Fire safety is an important question when insulation is added to a building. Some insulation materials will not burn themselves, but may contain resins or have paper facing that will. Insulation's made from wood or paper products must be treated with fire retardant to pass government specifications. Do not install cellulose insulation unless the government specification number GSA-HH-1-515D is stamped on the bag. Most foam insulation boards give off toxic gas if ignited, and are covered with 1/2 or 5/8-inch sheet rock (or equivalent) to satisfy local code.

Insulation should not come into contact with chimneys or with heat-producing light fixtures and electrical components. Open topped, nonflammable baffles maintain the required side air space (usually three inches). Take care that blown insulation does not drift inside the baffles. Special care must be taken with the older knob and tube type of electric wiring, particularly if there are problems with dimming lights and blown fuses. When in doubt, check with the local building department for advice.

Materials and R-Values

Insulation is rated by its ability to resist heat flow, indicated by the R-value. This number can be found on insulation packaging; the higher R-values mean more effective insulation. When materials are combined, individual R-values are added to get a total. For example, an R-11 insulation batt together with an R-19 batt totals R-30.

The thickness of insulation required to achieve a given R-value varies with the material used. Insulating materials have tiny pockets that trap air inside, and the trapped air does the insulating. Air-based insulation averages around R-3 per inch. A typical R-l9 insulation batt will be about — inches thick, an R- 11 batt about 3-1/2 inches thick.

Some foam insulations trap gases such as Freon (a trade name) in their cells, and claim values as high as R-8 per inch. These are particularly useful where space is limited. Studies indicate that over time the gas can escape and be replaced by air, resulting in an aged value of R-5 or R-6 per inch. This aged R-value is a more reliable indicator of long-term performance. Table 1 lists common types of insulation and some of their characteristics.

Insulating Attics and Ceilings

Open Attic Space

Insulation batts or blankets are easy to install, but may not fit well if joists are unevenly spaced. Running a second layer of insulation crosswise to the first helps seal cracks and reduces heat loss from joists. If a vapor barrier already exists next to the ceiling, slash foil or kraft facing on the second layer with a knife, or use unfaced batts. This will prevent moisture problems from a double vapor barrier. If no vapor barrier is present next to the ceiling, one may be added beneath the second layer of insulation (plastic, kraft paper, or foil) as long as the insulation on top has at least twice the R-value of that below.

Loosefill insulation's fill irregular horizontal spaces and usually result in more complete coverage than batts. They can be blown from a machine or poured from bags by hand. Machines for blowing insulation are available at rental stores or from the company that sells insulation. Complete all baffling and preparatory work before blowing insulation. Start with the furthest and most difficult area to reach from the access hatch, and finish with the access hatch itself. Three joist spaces are usually blown at a time, with the direction of flow parallel to the run of the joist. As attic space narrows toward the eaves, insulation must be tapered to allow at least one inch of space for air movement from eave vents. Rigid insulation can be used here to maintain full R-value with the decreased thickness.
The blowing machine must be properly set to avoid mixing too much air and overfluffing the insulation, as this can result in excessive settling later on. When work is completed, all baffling should be inspected and cleared of insulation overblown as necessary.

Every bag of loose fill insulation carries a label that tells you how many bags to use per area of square feet to achieve the desired R-value.
Whether owner or contractor installed, be sure to check the label and count the bags used to make sure coverage is adequate. Cellulose is heavier than fiberglass insulation. If it is blown on top, be sure to add extra cellulose to compensate for settling of the lighter layer beneath. Be careful to maintain the required clearances around heat-producing objects.

One-and-a-Half Story Attic Space

This type of attic presents a combination of flat and sloped ceilings, as well as short knee walls. The three flat sections (one on top, two at the sides of the knee walls) can be insulated like an open attic space. The knee walls should be insulated to R-l9, with an air/vapor barrier toward the heated space. It may be necessary to cut access hatches into these areas.

A number of options exist for insulating the short section of a sloped ceiling. Board, batt, or loosefill insulation can be installed between the rafters into the sloped area, leaving at least one inch of airspace between the insulation and roof sheathing. In this limited space, foam board gives the highest R-value. Vents should be installed in all three attic spaces (top and sides).

An alternative is to fur out the sloped sections on the inside, adding insulation and a new air/vapor barrier. Two layers of foam with strapping at right angles can be used to attain higher levels of insulation. This method could be used on the knee walls and the overhead ceiling section as well. It can also be used on open beam and cathedral ceilings. Sheet rock must form the new interior wall covering for fire protection.
With this method, if there is an existing vapor barrier, it should be punctured to prevent moisture problems associated with a double vapor barrier. A third alternative is to insulate the entire roof from the exterior as described below.

Sloped Ceilings

Sloped and cathedral type ceilings can be insulated from the interior as just described, or they can be insulated from the exterior when the home is reroofed. A variety of exterior methods are possible using either rigid or batt insulation. Insulating outside allows the interior to remain unchanged, but is an expensive option unless the roof needs replacing anyway. An existing air/vapor barrier can be retained, or a new one and beneath the exterior insulation as long as there is at least twice as much R-value above the barrier as below. Any ventilation in the attic below the old roof must be sealed off, and provisions made for ventilation above the new insulation layer. Continuous soffit and ridge vents work well in combination.

Insulating Under floors, Basements, and Crawlspaces

After attic insulation the next most cost-effective measure is to insulate the floor, basement, or crawlspace. Insulation is placed under floor if the space below is unheated. If the basement is heated or may be heated in the future, insulate the basement walls. Insulating crawlspace perimeter walls does not save as much energy as insulation under floor, but may be preferable in areas with severe winters as the crawlspace will stay warm and prevent water pipes from freezing.
Potential moisture problems should be attended to before insulating. This includes fixing concrete wall and foundation cracks, and eliminating standing water.

Under Floors

Insulate with batts of the appropriate width. The paper or foil face is placed next to the floor which means the paper flange cannot be used to secure the insulation. Support the insulation from below at frequent (approximately one foot) intervals with wood lathe, plastic twine, galvanized chicken wire, or other corrosion-resistant materials. Nails and staple fasteners must also be galvanized or zinc coated to prevent rusting. Friction fit wire hangers can come loose and are not recommended
Exposed earth in a crawlspace should be covered with a six mil black plastic sheet barrier, lapped 12 inches at the joints. Ventilate the crawlspace year-round to local building department recommendations.

Insulate exposed water pipes to at least R-3 and heating ducts to at least R-8. In areas with sustained freezing weather, pipe heaters may be installed in direct contact with the pipe beneath the insulation. Basements with dirt floors should be treated as a crawlspace with ground cover and provision for adequate ventilation.

Crawlspace Perimeters

Perimeter insulation is an alternative to under floor insulation where pipe freezing is a problem in winter or where the crawlspace is used for hot air distribution. It is not recommended for homes with high radon gas levels, as radon is trapped in the crawlspace when vents are closed in winter. Insulation can be installed on the interior or exterior. Exterior insulation is described in the section on "Basement Walls" below.
On the interior, R-l9 batt insulation is fastened to the sub flooring, extended downward over the rim joist to the crawlspace floor, and inward from the base of the foundation wall a distance of two feet on top of the ground cover. Seams between adjacent batts should be continuously taped or stapled. Operable crawlspace vents are used to close the space off in winter and hold in heat, and to open vents in summer to vent moisture.

Basement Walls

After treating any moisture problems, concrete basement walls can be framed and insulated to R-19 with batts or rigid foam board on the interior. Include a vapor barrier next to the heated space. Be sure to insulate the rim joist as well (the area between floor joists, above the concrete wall) Basement walls can also be insulated on the exterior. The best material for use below grade (buried) is extruded polystyrene rigid insulation. It is waterproof and will not compress with the weight of backfill. It must be covered for protection from sunlight and weathering above grade. In new construction the board can be extended down to the footing or the frost line. In a retrofit situation it is easier to install part of the insulation vertically to the frost line (or two feet minimum), with the rest sloping horizontally away from the wall for two feet. Insulation board is glued to the foundation with adhesive run in continuous horizontal beads to block insect infestation. Soil beneath the horizontal layer must be well compacted. Do not excavate below the level of foundation footings.

Basement Floors

Insulating concrete floors in heated basements may be hard to justify economically, but it can increase the comfort level considerably. A carpet with a thick pad helps, but it is more effective to build an insulated subfloor or sleeper floor. Before insulating, check for moisture by taping square pieces of polyethylene plastic at several locations on the floor. If a damp spot occurs within 24 hours, the floor is too moist. If dry, begin by placing a polyethylene moisture barrier down, then frame and insulate a subfloor with rigid foam or batts. Shim as necessary for a level surface. Add a second poly layer for an air/vapor barrier, then add plywood sheeting and the finish floor covering.

Insulating Frame Walls

The expense of equipment and labor required to blow insulation into existing walls makes this a low priority for most homes. However, remodeling or residing the home presents an opportunity to add insulation less expensively.

If re-siding the exterior, rigid foam board can be applied beneath the new siding. Install 3/8-inch furring strips (plaster lathe) over the rigid insulation and nail siding to these strips. The furring strips allow air movement to prevent moisture-induced paint and siding failure. Do not tape joints between exterior insulation boards, but rather install a good air/vapor barrier on the interior wall surface.

Foam board can also be applied over interior walls when remodeling. If more than 1-1/2 inches of foam is installed, add furring strips over the foam to provide a stable nailing base for the wall covering. All foam insulation's give off a toxic gas when they burn and must be covered with a suitable fire stop, usually 1/2- or 5/8-inch sheet rock. The interior wall should be treated as described earlier to form the air/vapor barrier.

When remodeling involves opening a wall cavity, it is quite simple to put in the properly sized fiberglass blanket. Even when kraft or foil faced insulation is used, it is smart to install a polyethylene vapor barrier over the insulation to help seal air leaks.
Without remodeling, the only way to add wall insulation is to blow it in. Cellulose, fiberglass, rockwool, and urethane foam are in current use, but due to problems with formaldehyde vapor, urea-formaldehyde foams are now rarely employed. Do not blow insulation into partially insulated walls or walls less than 3-1/2 inches thick. Walls containing electric heaters or old electrical wiring need baffling or special care.

Decks

DNR Construction, Inc. can build your custom deck.  We can build to your specifications, taking into account your homes unique architecture.  We use premium pressure treated lumber and or composites such as Trex to ensure that your deck or porch is not only beautiful but long lasting. 

We have worked with architects and engineers for the structural replacement of decks within condo and townhome associations. It is important to note that we work with the village to make sure the deck or balcony meets all city codes. 

Doors

DNR Construction, Inc. can install your entry door or patio door.  We have several companies that we work with to give you a number of options to meet any budget.  These options include: Steel , Fiberglass, Sliding or French patio doors in vinyl, fiberglass, and wood with aluminum clad exterior.  There are many styles to choose from as well as many decorative glass options.

Gutters, Fascia, Soffit

DNR Construction can install  5", 6" and industrial  gutters.  It is important to note that the proper pitch of the gutter and the placement of downspouts will direct water to areas desired.