real estate – Page 2 – Hill Inspections

Sump Pump Selection: What Size, Type & Backup System Do You Need?

A properly installed sump pump can mean the difference between a dry basement and a disaster. In western Pennsylvania—where heavy rains and snowmelt frequently push groundwater toward foundation walls—a reliable sump system is one of the most important tools in protecting your property.

Yet many homeowners overlook whether their pump is the right size, type, or configuration for their home’s specific drainage conditions. Below, Hill Property Inspections breaks down the key factors every homeowner should understand before the next big storm.

1. What a Sump Pump Actually Does

A sump pump is designed to automatically remove water that collects in a sump basin (pit) at the lowest point of a basement or crawlspace.

When the water level rises high enough, the pump activates and discharges water safely outside—preventing basement flooding, foundation deterioration, and mold growth.

However, not all sump pumps perform equally, and the wrong configuration can shorten pump life or fail when you need it most.

2. Pedestal vs. Submersible: Which Is Right for You?

There are two main types of sump pumps, each with pros and cons.

Pedestal Pumps

• Motor sits above the pit (on a “pedestal”) and is not submerged.

• Easier to service and generally less expensive.

• Louder and less powerful—better suited for smaller basins or infrequent use.

Submersible Pumps

• Entire unit sits below water level inside the basin.

• Quieter, more powerful, and handles higher volumes of water.

• Sealed motor resists moisture but costs more and may require full replacement when it fails.

Pro Tip: In areas like Johnstown, Somerset, Ligonier, Ebensburg, Altoona and Bedford, where basements frequently experience high groundwater, a submersible pump is typically the best long-term investment.

3. Sizing Matters: Matching Pump Capacity to Your Home

A pump that’s too small can burn out trying to keep up; one that’s too large may short-cycle and wear prematurely.

When sizing a pump, consider:

• Basin depth and diameter (commonly 18–24 inches wide, 24–30 inches deep).

• Vertical lift—the height the water must travel before discharging outside (often 8–12 feet).

• Discharge distance and pipe diameter.

• Inflow rate. If your pit fills quickly during heavy rain, you may need a higher-capacity pump (1/3 HP or 1/2 HP minimum).

A qualified inspector or plumber can help you estimate your gallons-per-minute (GPM) requirement and select the right horsepower.

4. Don’t Forget the Check Valve

Every sump system should include a check valve on the discharge pipe to prevent water from flowing back into the pit after the pump shuts off.

Without it, your pump will cycle on and off repeatedly, reducing lifespan and wasting energy.

Pro Tip: Listen for “clunking” when your pump turns off—that’s often the check valve closing. If you hear constant cycling, it may be failing.

5. The Backup System: Your Safety Net During Outages

Most basements flood not because the main pump fails—but because the power goes out during storms.

Consider one of these options:

Battery Backup System

• A secondary DC-powered pump runs automatically when the primary AC pump loses power.

• Ideal for typical residential basements.

• Batteries should be replaced every 3–5 years and tested monthly.

Water-Powered Backup System

• Uses municipal water pressure to create suction and pump out sump water—no battery or electricity required.

• Works only with city water (not wells) and consumes significant water during use.

Dual-Pump Systems

• Two AC pumps installed side-by-side, one serving as an automatic backup.

• Provides redundancy even if power is available.

Pro Tip: A sump pump alarm or smart monitoring device can alert you by phone if the water level rises unexpectedly.

6. Maintenance Tips to Keep It Working Year-Round

• Test your pump every few months by pouring water into the basin. It should activate automatically.

• Clean debris from the pit and check valve.

• Inspect the discharge line for obstructions, kinks, or freezing risk.

• Verify the outlet is on a dedicated GFCI-protected circuit.

• Replace pumps about every 7–10 years—or sooner if heavily used.

Final Thoughts

Your sump pump quietly protects your home’s foundation every time it rains. Treating it like a key mechanical system—not an afterthought—can prevent thousands of dollars in water damage.

If you’re unsure whether your sump system is properly sized, installed, or protected with a backup, Hill Property Inspections can evaluate it as part of your next inspection or as a standalone service.

We use infrared imaging and moisture meters to detect hidden seepage and verify discharge effectiveness before problems occur.

Schedule your sump system evaluation today:

📞 1-833-HILL-PRO

🌐 www.hillinspections.com

Hill Property Inspections, LLC is a full-service residential and commercial inspection firm based in the Johnstown, PA area.

Pre-Winter Checklist: What Home Systems to Inspect Before the Freeze

As fall turns to winter here in southwestern Pennsylvania, even a few overlooked maintenance items can lead to costly surprises. From frozen pipes to failing furnaces, now is the time to inspect and prepare your home’s major systems before the first real cold snap hits.

Here’s Hill Property Inspections’ professional pre-winter checklist—drawn from years of inspecting homes across Cambria, Somerset, Westmoreland, Blair, Indiana, Bedford and surrounding Counties.

1. Roof & Attic: Stop Leaks Before They Start

Your roof is your first line of defense against snow and ice.

• Inspect shingles for curling, cracking, or missing pieces—especially near valleys and chimneys.

• Check flashing around vents, skylights, and penetrations. Even small gaps can lead to leaks when ice accumulates.

• Look inside the attic for dark stains, damp insulation, or visible daylight—these are red flags for air leaks or roof damage.

• Verify ventilation. Proper airflow through soffit and ridge vents helps prevent condensation and ice damming.

Pro Tip: If you can see frost or moisture on attic nails, your ventilation or insulation is out of balance.

2. Gutters & Downspouts: Direct Water Away

Clogged gutters can create ice dams that force melting snow under your roof covering.

• Clear all leaves and debris. Flush the system with water to ensure flow.

• Confirm downspout extensions discharge at least 4–6 feet from the foundation.

• Inspect grading. Soil should slope away from the house—at least 6 inches over the first 10 feet.

These small adjustments prevent foundation seepage and protect basement walls through the wet freeze-thaw season.

3. HVAC System: Clean, Service, and Test

Cold weather exposes weak heating systems fast.

• Replace furnace filters and ensure registers are open and unobstructed.

• Have your furnace or boiler serviced by a qualified technician. Annual cleaning keeps efficiency high and reduces carbon monoxide risk.

• Test the thermostat and inspect vent connections for rust or gaps.

• Consider an infrared scan (available with Hill Property Inspections) to check for air leakage and uneven heat distribution.

If your system is older, now’s also the time to budget for an upgrade or backup source.

4. Plumbing & Water Systems: Prevent Freezing

Frozen pipes are among the most common—and costly—winter emergencies.

• Disconnect garden hoses and drain exterior faucets.

• Insulate exposed pipes in unheated crawlspaces, basements, or garages.

• Locate your main water shut-off valve and make sure every adult in the household knows how to use it.

• If you have a sump pump, test it. Pour water into the basin and confirm automatic operation.

For homes on private wells, ensure the well pit or pressure tank area is insulated and protected from drafts.

5. Safety Devices: Test and Replace Batteries

• Smoke and CO detectors: test each unit and replace batteries.

• Fire extinguishers: ensure at least one is rated for A-B-C use and stored where it’s visible and easy to access.

• Dryer vent: clean out lint buildup to reduce fire risk.

6. Exterior & Entry Points: Keep the Cold Out

• Seal gaps around doors and windows with weatherstripping or caulk.

• Inspect exterior lighting for proper operation—shorter days require dependable fixtures.

• Check sidewalks and handrails for damage before freeze events make repairs difficult.

Final Thoughts

A pre-winter inspection is more than a checklist—it’s preventive insurance. By tackling these simple tasks now, you protect your roof, foundation, and comfort all season long.

If you’d rather have a certified professional evaluate these systems for you, Hill Property Inspections offers comprehensive pre-winter assessments, infrared scans, and maintenance inspectionsthroughout southwestern Pennsylvania.

Schedule your winter-readiness inspection today:

📞 1-833-HILL-PRO

🌐 www.hillinspections.com

Hill Property Inspections, LLC is a full-service residential and commercial inspection firm based in the Johnstown, PA area.

Maintenance Recommendations

Homeownership involves quite a bit more maintenance and upkeep than many realize, and knowing what to do and how to prioritize a myriad of tasks over time can seem overwhelming. Below is a list of maintenance suggestions relevant to each titled section, and we hope you find this guide useful!

EXTERIOR: The exterior components act as the “skin” of the structure and a first line of defense against the elements, and all exterior areas and components should be continually monitored and well maintained to ensure the structure is well protected and safe. This includes (in part) maintaining all vegetation at least 1-2 ft from the house exterior, repairing any damage to siding, trim, fascia, soffit and flashing, cleaning moss, algae or other vegetation growth, monitoring the base of cladding and deck/porch posts, ensuring that soil grading is positive (sloped away from the foundation), maintaining exterior caulk, sealant, paint and stain, keeping wood piles at least 30 ft from any structure, sealing any exterior cracks and crevices, repairing any damaged masonry, protecting any exposed, bare or deteriorated wood, and addressing unwanted pest activity.

ROOF & PENETRATIONS: The roof is a crucial first line of defense for the structure and should be maintained in the best condition possible, which includes (in part) continual monitoring of the roof covering for signs of damage, periodic cleaning of gutters, debris and vegetation growth, extension of downspouts across lower roof surfaces and at least 5 ft from basements or crawlspaces or 2 ft from slabs, sealing of any exposed fasteners or deteriorated sealant/flashing, and securing of any loose roof, vent or rain spouting fasteners. If not already present, gutter guards would ideally be installed to prevent accumulation of vegetation and other debris that could hinder proper drainage, and installation of heat cable along eaves is often beneficial for preventing ice damming.

GARAGE: Cracking in garage slabs (concrete floors) is common due to shrinkage or possible heaving, and any cracks should be well sealed and periodically monitored, whether present now or in the future. Attached garages should contain suitable fire separation material, such as 5/8-inch type “X” drywall, between the garage interior and adjoining living spaces, and garage man doors leading to the house interior should be solid and self-closing (fully fire rated) to prevent the spread of fire and potentially harmful exhaust gases (including carbon monoxide) that more frequently occur in garages. Working photo-electric “red eye” safety sensors should be present within 6 inches of the ground at the base of overhead and mechanical garage door tracks, and garage door openers should be connected to dedicated receptacles rather than extension cords. Although not required, any exterior man doors serving garages should be equipped with deadbolt locks to improve security.

FIREPLACES & STOVES: All fireplaces or stoves should be operated with care and safety and continually maintained as needed, and all chimneys should be periodically monitored for signs of damage or buildup. Hearth extensions in front of wood-burning fireplaces should be at least 16-20 inches deep, depending on the size of the fireplace opening, to prevent a potential fire hazard, and the firebox (interior) of a fireplace should be kept clean from excessive ash, soot/creosote and corrosion buildup. For wood-burning or vented units with a damper, the damper and its control should be in good working order to ensure safe exhaust of combustion gases and smoke and to properly regulate draft. Masonry chimneys should be equipped with a flue liner to safely carry exhaust outdoors and a rain cap to prevent unwanted water, debris or vermin intrusion that could lead to possible damage or obstruction. Metal chimneys should be generally free of rust and an appropriate, listed type for the appliance served.

STEPS & RAILINGS: Handrails should exist where there are more than 3 steps (counting landings) and should be secure, graspable, continuous, located 34-38 inches above the front nosing of stair treads, and equipped with vertical balusters (spindles) along open sides that are spaced closely enough together that a 4-3/8” sphere cannot pass between them. Likewise, guardrails should exist at landings 30 inches or higher and should be secure, at least 36 inches (3 ft) high, and equipped with vertical balusters spaced no farther than 4 inches apart. Guardrail barriers should also be vertical, not horizontal, as horizontal balustrades are climbable for small children. The minimum recommended height at stairways is 6’-8” (although lower heights are common in older homes), and stair treads and risers should vary in depth or height no more than 3/8-inch to prevent a potential trip hazard. Stair risers over 4 inches in height should also be closed where there are more than 3 steps, and open risers are very common at deck, porch and basement stairways. Doors should also not open above stairs unless a minimum 3’ x 3’ landing is present, and an enclosed landing or a landing with steps and railings should exist beneath elevated exterior doors.

WINDOWS & DOORS: Bedrooms should be equipped with suitable egress (emergency escape or rescue) windows that are openable, at least 5.7 square feet in size, and no higher than 44 inches above the floor, and working locks are ideally present on bedroom and bathroom doors for privacy – excluding master bathrooms connected to master bedrooms. Windows should not be left open during periods of rain or snow to prevent damage to interior window stools or other materials, and doors should not open above steps unless a minimum 3’ x 3’ landing is present to prevent possible injury. Deadbolt locks ideally exist at exterior doors for added security, and deadbolts should be keyed only at the exterior. Openable doors and windows should operate smoothly, and window and door locks should be properly aligned and functional.

INTERIOR: Monitoring for new or worsening cracks in walls and ceilings, doors or windows that begin to stick, stains that may form on finishing materials, and other signs of damage that may arise at the interior should be common practice. Any such cracks or stains should be well sealed to make further damage that may arise more apparent. Shades/covers should be present at interior light fixtures to protect bulbs, closet lighting should be LED or fluorescent, and at least one receptacle outlet should exist in any hallways that are 10 ft or longer. Periodic monitoring for unwanted pest activity is also recommended, as well as maintaining the interior in a clean and sanitary condition. Cosmetic defects, such as carpet stains, scrapes, dings, markings and the like, do not generally affect safety or durability and are typical of nearly all houses to some extent, but cosmetic issues are ideally addressed for aesthetic purposes.

KITCHEN & BATHROOMS: All kitchen and bathroom caulk and grout will naturally deteriorate over time and should be continually monitored and cleaned, repaired or replaced as often as noticeably necessary – whether in poor condition now or in the future – to prevent moisture intrusion into concealed wall and floor areas that could lead to mostly hidden damage over time. Toilet closet bolts should also be kept tight and capped to prevent loosening and corrosion, adequate clearances should exist around toilets, and mechanical drain stoppers at tubs and sinks should be adjusted as needed to ensure proper function. Shower arms are also ideally surrounded by a waterproof material extending at least 3 inches above the flange to prevent possible moisture damage to walls, and carpet in kitchen and bathrooms should be kept clean or (preferably) replaced with a more water-resistant flooring material like tile, vinyl or linoleum. Cabinetry and counter or vanity tops should be well secured, upper cabinets should be secured with appropriate cabinet or pan head screws, and minor damage to kitchen or bathroom components should be addressed promptly to prevent further damage – especially from water.

ATTIC, INSULATION & VENTILATION: The underside of the roof structure (rafters or trusses, planks or sheathing, etc) in unfinished attic spaces should be periodically monitored for signs of possible leaking, excessive condensation buildup, microbial growth or other damage, and insulation should also be monitored. Attics in this climate zone (the Northeast) ideally contain insulation levels equivalent to R-30 to R-38 or higher, and unfinished attic access doors, hatches or panels should be sufficiently sized, well sealed and insulated. All roof framing members should be intact and well fastened, and horizontal collar ties should exist along the upper third of rafters for gable (triangular shaped) roofs in order to stabilize the roof structure – especially against wind uplift forces. Monitoring for pest activity (especially rodents) is also advised, as attics are a common nesting area for unwanted invaders. Kitchens should contain mechanical ventilation, such as an above-range microwave or range hood, to filter cooking residue and expel warm, moisture-laden air, and bathrooms should contain an exhaust fan that terminates outdoors and/or openable window to expel moisture and noxious odors to the exterior. Dryer vents should be composed of metal (preferably smooth rigid metal) and should be routed to an unscreened baffled or louvered exterior exhaust hood (although indoor lint trap canisters may be sufficient for electric dryers). Lastly, attic bypasses should be well sealed – observing required clearances around lights or heat rated vents – to prevent unwanted air leakage and ensure optimal energy efficiency.

STRUCTURE: Any structural issues that may arise in the future should be addressed immediately by a qualified professional, and any planned alterations to the home’s structure should first be reviewed and approved by a qualified structural engineer or architect. While some degree of settlement and moisture intrusion is common (especially in below-grade space), measures should be taken to ensure that the structure is continually sound and that moisture levels are not excessive. Elevated moisture/humidity levels can lead to efflorescence, microbial growth (like mold) and eventual wood deterioration, and dehumidifiers should generally be used in this climate zone (especially in basements) to help control humidity levels. Ensuring that rim (band) joist cavities are well sealed and insulated will also help improve energy efficiency, and the paper facing (vapor barrier) of insulation batts should always face the conditioned portion of the home… “paper faces people.” Cracks in basement slabs (floors) are generally not a cause for alarm, but any open cracks should be sealed and periodically monitored, and thin cracks from settlement or shrinkage in structural masonry walls should be well sealed to prevent unwanted moisture intrusion.

PLUMBING: Visible supply and waste pipes, as well as valves, should be periodically monitored for signs of leaking or excessive corrosion/encrustation buildup. Some degree of corrosion is typical of metal piping and valves, and plastic piping that will not corrode offers several advantages over metal piping (like copper and cast iron), while modern ball valves are generally more reliable and user-friendly than older style gate valves. Faucet aerators should be present and periodically cleaned, and faucets, valve handles, sinks and other fixtures should be well secured. Water heating equipment should be equipped with an expansion tank on the cold-side inlet (especially with public water supplies) to prevent possible damage to plumbing as water heats and expands, and expansion tanks should be properly secured. Gas water heaters should be elevated at least 3 inches, and their vent connector (flue) should slope steadily upward at a minimum rate of 1/4-inch per linear foot and be well sealed at its entrance into any chimney. Although often missing, dielectric unions should exist at water heater connections to prevent corrosion from an ion exchange between dissimilar metals, and at least 18 inches of rigid supply piping (typically copper) should exist directly above water heaters prior to attaching to plastic, like PEX tubing or CPVC. Older style S and drum traps are very common beneath sinks, but they can siphon out the water seal necessary to prevent sewer gases from re-entering the interior and are ideally replaced with modern P traps – especially if the water seal is frequently siphoned out. Likewise, flexible accordion style drain lines are often used for their ease of installation, but rigid plastic drain piping (typically PVC) is preferred.

ELECTRICAL: All electrical work should be completed by a qualified electrician, as electricity poses a safety risk (including even death in some cases) to untrained individuals. Ensure that smoke and carbon monoxide (CO) detectors are always located on each floor, in each bedroom, near all sources of combustion, and periodically tested for safety. It is also recommended that any GFCI receptacles be tested monthly with their onboard test and reset buttons, and GFCI protection ideally exists in bathrooms, kitchens, garages, outdoors, in basements and crawlspaces, and within 6 feet of any sink or water source. All junction boxes, receptacle outlets and switches should be covered, and faceplates should be intact and free of cracks or other damage. Older two-prong outlets (while typically “grandfathered in” with old homes) are ideally upgraded to modern three-prong grounded outlets for safety, and all outlets should be properly wired with correct voltage and firmly secured in walls, floors or ceilings. Generally speaking, branch circuit wires in electrical panels should each be secured under their own lug (screw) and not “double tapped,” and all wires should be appropriately sized or larger than required for their corresponding breakers or fuses. While not inherently defective, any older fuses are ideally upgraded to modern circuit breakers that are more user-friendly, and corroded electrical equipment that may be prone to increased resistance should be repaired or replaced, depending on the severity of buildup. Outdoor wiring should be adequately protected (typically in conduit and/or by being buried) and rated for outdoor use, and all wiring should be well secured – including within 12 inches of electrical panels. Panel legends should also be fully labeled, breakers should be designed for the panel and the same brand, and all panel cover screws should be present. Electrical panels should be readily accessible and unobstructed, and clearances of at least 36 inches in front of panels and 30 inches across their front should exist. Any incandescent bulbs that may exist would ideally be replaced with modern, more efficient LED bulbs; and any bulbs listed as not working that do not work after being replaced should be evaluated further by a qualified electrician.

HVAC: Generally speaking, heating and cooling systems should be checked, cleaned and serviced (“tuned”) every year by a qualified HVAC technician or plumber, depending on the type of system. Filters serving forced air systems should also be properly cleaned or changed on a frequent basis to promote proper airflow, optimal system performance and good indoor air quality, and dark streaks from thermal bridging (“ghosting”) may appear along walls or ceilings when dirty air particles combine with vapor and settle along cool surfaces. Despite its name, duct tape is not intended for use with ductwork, and any duct tape that may exist at duct joints would best be replaced with foil tape, mastic or another suitable sealant. If present, A/C suction lines should be thoroughly insulated with the insulation maintained in a good state of repair, and at least 12 inches of clear space should exist around outdoor condensing units with a minimum clearance of at least 3 ft directly above. Budgeting to replace A/C systems equipped with older R-22 refrigerant (Freon) is strongly recommended, as R-22 is now prohibited, and such systems sometimes require full replacement when problems arise. Heating systems requiring combustion air should exist in spaces with ample air volume or louvered openings, and any intake or exhaust vents should be screened at the exterior. Intakes for high-efficiency systems should also be run to the exterior, rather than open to basements or other interior spaces, as this can cause a buildup of negative air pressure indoors. While not required, older mechanical thermostats are best upgraded to programmable thermostats – preferably modern “SMART” models that can be controlled remotely and track data related to usage habits – to noticeably reduce energy consumption and save cost.

A FINAL WORD: While this guide covers a great deal of information and is intended to help homeowners gain knowledge and formulate a plan that is suitable to their own homes, every house is unique and will occasionally require the skill and expertise of qualified and experienced contractors. Knowing when to “DIY” (do-it-yourself) a project versus when to call in a pro is an important distinction, and no task should be tackled without confidence, careful planning and a focus on safety.

*To visit our main website, go to: http://www.hillinspections.com

Watch Out for THESE Bathroom Issues

Bathrooms are a major selling point with homes. I can’t even begin to count the number of times our clients have commented on how well they like (or dislike) the bathrooms in a house they are considering purchasing during the course of our inspections. When a bathroom is recently updated, it’s easy to like it; when it’s dated – well, not so much.

Beyond the looks, though, there are some fairly common issues you should look out for, as well as some features you’ll need to understand to properly maintain. Here are just a handful…

Jetted tubs. If you’ve ever owned a jetted tub, you know they need to be cleaned. Unlike hot tubs that are chlorinated to remain sanitary, jetted tubs in bathrooms have no chemicals to keep them clean. A thin film of grime (usually black) forms in the jets, and it pours into the tub water once the jets are turned on. As a result, many people simply stop using their jets to make life easier (and less disgusting). But you don’t have to stop using your jets if you know how to properly clean the tub. To do so, simply fill the tub with water above the jets, pour in about a half cup of detergent or bleach, run the jets for 15 minutes, then drain the tub. Next, simply repeat the same steps but without the detergent. It’s that simple, and it will allow you to enjoy your relaxing jetted tub as intended.
Carpet. Carpet and bathrooms just don’t mix. Carpet was fairly frequently installed in bathrooms several decades ago because of its comfort and warmth, but it’s rarely installed in bathrooms today… and for good reason. Carpet and the underlying pad are a breeding ground for contaminants like mold, fungus, bacteria and dirty residue. This is especially true around the base of toilets, but that goes without saying. Fortunately, replacing carpet is a rather simple task, and it’s one you should definitely consider to prevent an unwanted mess and promote sanitary conditions.
Clearance Issues. It’s not uncommon for us to find inadequate clearances in bathrooms – especially around toilets, and especially when toilets have been added to small bathrooms. This may seem like a minor issue, but it’s not exactly comfortable to use a toilet when you don’t have sufficient space. Clearances around toilets should be at least 15-18 inches at the sides, which are the areas where clearance is most often lacking. Unfortunately, altering this often proves impractical, but it’s still something worth looking out for when you’re house shopping.
Inadequate Ventilation. Bathrooms that have a shower or toilet need sufficient ventilation to expel hot, moisture-laden air and noxious odors. An openable window will usually suffice, but a more ideal option is a powered vent fan that more actively removes moisture and odors. Bathrooms with neither are usually centrally located and were usually added after the home was initially built. That’s because a window simply isn’t an option and it may be difficult to install a vent fan and duct, depending on the surrounding materials and living space. If it’s a simple half bath with a toilet and sink, ventilation isn’t usually as vital. If a shower exists, though, good ventilation is absolutely crucial to prevent microbial growth (like mold), loosened tiles and a host of other problems.
Missing Shut-off Valves. This one usually occurs in older homes, but we still occasionally run across it in newer homes as well. Supply lines beneath bathroom sinks (and other sinks in a home) should have shut-off valves so the water can be shut off quickly and easily in the event of an emergency or necessary repair work that may come up. If you aren’t sure if your sinks have shut-offs, simply look beneath the sink in the base cabinet. The valves are very easy to spot, and it isn’t a bad idea to go ahead and test the valves to make sure they are working properly. If no shut-offs are visible, consider having them installed.

This list comprises only a few of the common bathroom issues we come across, but they are some of the most common and are easy to check on your own whether you’re touring different homes to buy or are wanting to make sure your current bathrooms are in great condition. Take a few minutes to absorb this information and you’ll be better prepared when you look over your bathrooms.

*To visit our main website, go to http://www.hillinspections.com

Flipped Houses: The Good, The Bad & The Ugly

House flipping has become very popular in recent years. Networks like HGTV and TLC dedicate entire shows to the concept. If you’re a house flipper you’re likely already aware of what is and isn’t appealing to potential buyers; but if you’re looking to buy a flipped house you may not be nearly as well versed in the secrets of the flip trade. Knowing some of those secrets and what to look for can be a life-saver, and I’d like to take a moment to review some of the things we typically encounter when inspecting flipped houses. While this article will focus on some of the downsides to flipped homes, we will also review several of the benefits of buying a flipped house… assuming the flip is done well!

So first of all, what exactly is a “flipped” house? The term “flip” is obviously slang but refers to a home that is renovated – usually quickly – in an effort to transform the home into a much more appealing one. When we hear “flip” we think of something being turned upside-down quickly, and that’s the gist of the term when it comes to real estate. Flipped houses are usually bought at a low price, updated, and then sold for a fairly large profit. How large of a profit depends on the amount of cost in materials and labor to update the home and the time it takes to make those updates, but flippers obviously attempt to make as much money as possible with the least amount of work and expense on their own part. And obviously, it benefits the flipper to sell as quickly as possible.

The need on the flipper’s part to sell quickly and with the best profit margin they can leads to some inevitable realities, although not all of these are bad for the buyer. For one, flippers tend to use inexpensive materials that look nice but are often not very durable, rather than pricier materials that also look nice but are made to last longer. For example, a flipper may use faux tile panels in a bathroom instead of real tile or thin stock carpet instead of thicker, more durable carpet. A typical flip house will have a fresh coat of paint on the walls, but the paint will usually be of lesser quality than more expensive name brands, making it less durable and sometimes harder to clean. Yet, while these materials are less expensive they are often perfectly functional and are in some cases almost identical in appearance to their much more expensive, but authentic, alternatives. A flipped house we recently inspected had faux tile panels, and I had to look very closely to realize they weren’t real tiles with grout. The only clear indication was that the grout lines were too perfect to be natural. In truth, faux materials have come a very long way in recent years and offer a more affordable, but still nice, alternative to the “real” thing.

But how, exactly, do house flippers determine what to update and what to leave alone? To answer this question, you need look no further than typical real estate trends. As a general rule, kitchens and bathrooms sell houses. Aside from location, which has always been the single most important factor in real estate, agents usually advise sellers to update their kitchen and bathrooms before focusing on other areas… and for good reason. It’s a well established fact that buyers care more about kitchens and bathrooms than most other rooms in a home. These rooms often feature decorative finishes and are harder to alter than common rooms because of fixtures and plumbing, so they are naturally appealing to buyers when they are already up-to-date.

For these reasons, it’s very wise on the part of the flipper to focus on these areas. Unfortunately, though, this often comes at a cost to other areas of the home that tend to be neglected as they take a backseat to the main living space. In particular, the exterior and basement are often repaired very little, if at all. In fact, probably three-quarters or more of the flipped houses we inspect look very nice on the main floors (and often at the front of the home where curb appeal is important), but the basement and the rest of the exterior are usually a whole other story. A flipped house we recently inspected was immaculate on the first and second floors: new laminate floors, new cabinetry, new ceiling fans, new carpet, fresh paint, etc. To add to its charm, the house was even staged with rented furniture, including a platter on the modern dining room table with a bottle of wine and fake grapes. Setting foot inside the front door, anyone would undoubtedly fall in love with the look of the house and feel as though they could move in immediately and fall in love with their new home.

Unfortunately, the same home had major structural problems, water intrusion in the basement, damaged siding in several areas, and a few major safety hazards. Despite its very nice appearance in the main living areas, the house possessed several serious problems that could saddle the buyer with substantial repair costs or even threats of severe injury. Not surprisingly, the prospective buyers of this home didn’t pay much attention to the basement or exterior since the laundry had been relocated to the main floor and they knew they would be living inside the home and not paying much mind to what’s outside. Needless to say, they were very glad they decided to have the home professionally inspected. They did end up buying the house, but they were able to use our report to address several of the more immediate defects that needed corrected.

It shouldn’t be surprising that many flipped houses follow this same pattern, but some are far superior to others. We come across many flipped houses where the seller has updated all of the older plumbing with newer PEX, updated the wiring and electrical panel, installed a drainage system to combat moisture intrusion, and so forth. In most cases, these homes have also had some basic updates done to the interior, so they still possess some of the charm buyers look for. The living space may not be as enticing, but the house is actually in much better condition.

Flipped houses are often a great investment for those doing the flipping, but they can be either a wise decision or a nightmare in disguise for buyers. The key to determining which is true is to simply look beyond the main living areas when you tour the home. Don’t get so caught up in the fresh paint and updated kitchen that you fail to consider structural problems that may exist at the foundation. Don’t become so engrossed in the beautiful new floors and remodeled master bathroom that you forget about the missing shingles on the roof or the heavily corroded plumbing supply lines. It’s very cheap to add fresh paint to some walls, but it’s very expensive to make repairs to correct the home’s structural integrity.

If you’re considering buying a flipped house, know that you may be getting a great home for a great price, but be sure to look beyond the mere cosmetic appeal. Consider the home’s major systems and components to ensure that it is, first and foremost, safe and durable. And of course, there’s no substitute for an experienced, certified inspector when it comes to this crucial task! On the other hand, if you’re planning to flip a house for profit, consider making some truly worthwhile updates to the home’s major systems and components to provide the future buyer with a structurally sound and safe new home. When both parties act responsibly, a flipped house can be a true win-win!

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