How to Use a Wet-Dry Vacuum to Clean a Carpet?

A wet-dry vac is a vacuum that picks up dry dirt and liquids from many types of surfaces, so it can clean up spills or cleaning solutions in your carpet. Carpets hold on to stains, solid soil, bacteria and mildew. Before you decide to clean your carpet with any liquid solution, you should be prepared to spend a lot of time drying it. Wet-dry vacuums can perform this step in cleaning your carpet, but the work will not be easy.

How To Get Your Carpet Ready
Remove furniture from your room so it won't get damp. Damp furniture will lead to mold. Vacuum your dry carpet first. You can use the wet-dry vac or your usual household vacuum. Vacuum all of the solid soil from your carpet.

If you have stains in your carpeting, apply a carpet stain remover and wait the appropriate amount of time, as indicated on the packaging.

Prepare a solution of carpet cleaner and water. The directions for mixing the cleaner with water will be listed on the bottle of cleaner. Wet-dry vacs only pick up wet solutions; they do not disperse them evenly over your carpet. You will need to do this by hand. I recommend using an ordinary watering can. Once you have the solution down, make sure it has spread evenly. To do this, use a stiff-bristled push broom or a deck brush. Brush the entire carpeted area.

Using Your Wet-Dry Vac
The filter you will need for wet pick-up with your wet-dry vac depends on the brand and model you are using, so check the owner's manual for the exact filter model.

When sucking up the cleaning solution from your carpet, do one section at a time. Using a floor attachment, press firmly to be sure you are removing moisture from the deepest area within the carpet. Drag slowly backward, and overlap your last pass with the next one.

Wait until each section is dried completely before moving on. Some areas may take more time than others.

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5 Steps you may be missing,on how to use the right vacuum?

5 Steps you may be missing,on how to use the right vacuum?

It always seems to come to readers as a huge surprise that I ‘only’ vacuum once a week.  I sweep daily and vacuum in between when needed, but part of the reason I only need to vacuum weekly is because the technique I use is thorough enough to get us through the week.  Today I’m sharing the 5 simple steps I follow with you – maybe it will help you maximize the task of vacuuming too.



Step 1:Use the crevice attachment (if you have one) on your vacuum cleaner first.  Vacuum the edges in each room before you vacuum the carpet.

Step 2:Vacuum horizontally in each room.

Step 3:Vacuum vertically in each room.  Yes, you are going over the carpet twice, but this technique ensures that the carpet is lifted and the dirt that may be embedded is removed.  This is especially helpful if you have pets to remove pet hair and dander.

Step 4:Vacuum from the furthest corner away from the door and vacuum your way out of the room.  This will give you those beloved vacuum lines that say,  ‘I just vacuumed’.  (Am I the only one that loves those lines?)

Step 5:Use a neutralizer if your carpet needs a little freshening.  Here’s a recipe for my favorite homemade version or you can put a drop or two of essential oil on a cotton ball or tissue and put it in your vacuum canister or bag to freshen the air while your vacuum is running.

What’s your favorite trick for vacuuming?

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How to Fix a Vacuum if It Doesn't Suck?

A vacuum cleaner that has lost suction could require repair in any one of a number of areas. Troubleshooting a poorly performing cleaner should include checking the cleaning head to inspect the belt and brush roll. Blockages inside the vacuum are major contributors to a loss of suction. Inspect each area responsible for transferring airflow to find and remove the problem and return the cleaner to its normal level of suction.

Things You'll Need:
--Wire coat hanger

Instructions

1.Unplug the vacuum cleaner from the wall outlet for safety.

2.Press the vacuum cleaner's handle release lever and lay the handle horizontal to the floor. Turn the cleaner over to reveal the underside of the cleaning head.

3.Locate the clips or screws used to hold the cleaning head plate onto the bottom of the vacuum. Depress the clips or remove the screws to remove the cleaning head plate. Consult your vacuum's owner's manual for specific steps to remove the head plate.

4.Pull the vacuum's brush roll from the slots at either end of the inside of the cleaning head. The roll will still be attached to the belt, if the belt has not broken. Slide the belt from the brush roll and slide it from the vacuum cleaner's motor drive commonly located to the side of the cleaning head.

5.Inspect the brush roll. Replace the brush roll if the bristles have been worn down to the plastic of the roll as they are unable to make contact with the carpet if they are worn. Set the brush roll aside.

6.Inspect the belt. Check for tread on the inside of the belt. The tread enables the belt to grip the brush roll and motor shaft for efficient spinning of the brush roll while the vacuum is running. If the belt tread is worn the motion of the motor shaft will not be transferred as effectively as intended to the brush roll and the cleaner will not clean as well. Replace the belt if worn or cracked.

7.Inspect the intake opening inside the cleaning head. The intake is commonly located near either side of the vacuum's cleaning head and can be rectangular or circular depending on the make and model of the cleaner. Look inside the intake to check for any obstructions preventing adequate airflow. Remove built-up dust and hair that may be slowing airflow. Use your fingers for any debris close to the opening of the intake. Use a wire coat hanger to probe the intake to remove any obstruction lodged farther inside the intake, too far for your fingers to reach.

8.Replace the belt or place the new belt around the brush roll. Loop the belt around the motor shaft and slide the sides of the brush roll back into the slots at either end of the cleaning head. Turn the vacuum cleaner over and lift the handle into the upright and locked position.

9.Check the bag. A full or clogged bag will impede airflow and cause the vacuum cleaner to lose suction. Remove the bag following the instructions in your cleaner's manual. Check the opening leading to the bag for obstructions. Remove dirt and debris blocking the hose leading to the bag with your fingers or wire coat hanger for dust and debris out of your reach.

10.Replace the bag with a new, empty bag.

11.Check any filters that may be used on your vacuum. Common locations for additional filters include on the back of the main handle or on the side of the unit. Remove the filters and inspect them for heavy dirt. Clean the filters as prescribed in your cleaner's manual. Common steps for cleaning the filters include shaking them or lightly tapping them over the garbage to collect the falling debris and dust. Wash the filters only if your specific model's owner's manual allows for getting the filters wet in cleaning them. If not specified as an approved method for cleaning the filters, do not wet the filters as it may cause damage requiring replacement of the filters.

12.Replace the filters into their slots on the cleaning handle.

13.Plug the cleaner's power cord into the wall outlet and test the cleaner by vacuuming the area on the floor where dust may have gathered from your previous maintenance.

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Tips on how to pick the ideal vacuum cleaner

How to pick the ideal vacuum cleaner?

Vacuum cleaners have earned this name because of its attribute to create a fractional vacuum and due to this fractional vacuum, the appliance sucks up the mess which you wish to clean. At the present time, vacuum cleaners have become an integral part of every household and business place. Primarily used for the purpose of cleaning carpets, the incredible appliances have now become an essential need of every house and office. Vacuum cleaners are even necessary to be present in a house where anyone has the problem of asthma or other allergy.

Vacuum cleaners today are available in different types and designs. With so many options on hand, choosing the right vacuum cleaner has become extremely tricky because you have to select the vacuum cleaner which would be perfect according to your requirements and needs.

Here we would discuss some tips about choosing the right vacuum cleaner.

Canister or Upright vacuum cleaners

Vacuum cleaners are now available in two basic types; Canister vacuum cleaners and upright vacuum cleaners. Canister vacuum cleaners have the dust bag and the motor separated with the head. The dust bag and the motor would only be connected with the head through a hose. If you have a bare floor which you have to clean frequently, then this type of vacuum cleaners could be more suitable for you.

Upright vacuum cleaners, on the other hand, have the motor and the head attached, and these types of vacuum cleaners are perfect for cleaning carpets.

Besides the above two, there are some other styles of vacuum cleaners as well. There are wet&dry vacuum cleaners which have the aptitude of sucking dry as well as wet dirt. Then there is central vacuum cleaner, which sucks the dirt from all over the place and conveys it to a central place, this type of vacuum cleaner is most suitable for industrial purposes. Robotic vacuum cleaners are vacuum cleaners which move automatically. Similarly, handheld vacuum cleaners are mostly used in cars; these vacuum cleaners are low-powered.

So principally, when choosing the right vacuum cleaner for yourself, you have to consider your requirements and needs, and in accordance to your needs, you can choose the vacuum cleaner type which would be ideal for you.

Diverse attributes of vacuum cleaners

The filters used in vacuum cleaners are different. When choosing the right vacuum cleaner, you have to consider that if you have anyone in your family who is more susceptible to allergies or respiratory problems, then you should go for a vacuum cleaner which has a good filtration system.

Vacuum cleaners are also available in bag-less and in dust bag versions. Vacuum cleaners which have dust bags perform better than bag-less vacuum cleaners, however, these prove to be more expensive in the long run since these require frequent changing of dust bags. So when you choose a vacuum cleaner which has a detachable dust bag, you need to understand that it would require you to change the dust bag later on.

With these tips in mind, you can certainly choose the right vacuum cleaner which would be perfect to fulfill your requirements and at the same time, would be according to your budget.

New model 2015---window vac

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How to Fix a Broken Vacuum With No Suction

When your vacuum cleaner has stopped sucking up dirt, dust and debris, the most common cause is a clog or blockage somewhere. The basics of most modern vacuum cleaners work like this; a vacuum pulls air through the bag, then through the tube attachment and then through the base that has the spinning beater bar. Somewhere along this route there is a clog, some type of blockage or even something as simple as a broken vacuum bag.

Things You'll Need:
---Philips screw driver
---Flat head screw driver
---Garden hose
---Needle nose pliers

Instructions

1.Check for signs of suction. Remove the tube attachment from its cradle, if applicable, and after turning on the vacuum, put your hand to the end of the tube to determine if there is any suction. If there is a little bit of suction then you may have a clogged air tube.

2.Check the vacuum bag. It may be very full. If it is then remove the bag and replace it with a new bag. Check the suction power again to determine if the suction has improved.

3.Check the tube attachment. Completely remove it from the vacuum. You usually have to twist and pull the tube attachment out of place at the point where it connects to the back of the vacuum. Check the suction power again. This time you place your hand on the vacuum right where the tube used to come out of the back of the vacuum. If the suction is good at this point, then the tube is most likely clogged or blocked.

4.Clean the tube by first trying to shake the debris out of the tube. If this does not work then run water from a hose through the tube. Use a pressure nozzle if you have one. Run the hose through one end of the tube. Then run it through the other end. Repeat until the debris is dislodged. Dry the tube and then reattach to the vacuum.

5.Check the air hose in the base of the vacuum. This hose is usually pretty short and you can see if there is any blockage. If you see blockage then try to remove it. You may need to reach into the hose with a tool like a needle nose pliers.

6.Check the intake port on the bottom where the beater bar is. You will be able to see a clog here just by turning the vacuum over. Clean out the intake with a needle nose pliers.


Tips & Warnings

Always unplug electrical devices before you work on them. Never work on electrical devices around water or when you are wet.

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Full Understanding Vacuum Cleaner Specifications

Understanding a large variety of confusing specifications is one of the most challenging aspects of selecting a new vacuum cleanering. First and foremost, consumers want vacuum cleaners that offer the best cleaning ability. And most consumers typically equate cleaning ability with "power" or "suction".

Cleaning ability is not just about power and suction, even though these attributes are important elements of vacuum cleaner performance. With a little information and education, you will be able to sift through the numbers and better understand what the specifications mean and which ones are important to you.

Unfortunately, there is no single rating that indicates cleaning ability. However, there are a number of primary specifications, that when clearly understood, allow consumers to make educated decisions concerning which vacuum cleaner will have the best cleaning ability.

These primary specifications include watts, amps, volts, water lift (or sealed suction), horsepower, air watts, and airflow.

There are also a number of other, secondary specifications that influence cleaning ability that we'll also examine. These include filtration, cleaning tools (agitation), capacity, quality, noise, features and cost.

In order to make sense of all this we first need to understand the basics of how a vacuum cleaner works.

All vacuum cleaners operate based on air flowing from the opening at the cleaning head or tool, through the vacuum cleaner and the bag and/or filter system and then out the exhaust port. This airflow is created by the vacuum motor, which also may be referred to as the suction motor.

The vacuum motor consists of electrical components attached to a fan or multiple fans. When the fans spin, a partial vacuum is created and the pressure inside the vacuum cleaner drops below the ambient (or existing) air pressure in the room. Because air pressure is higher outside the vacuum cleaner than inside, air rushes through the vacuum cleaner.

So, it is easy to see that the vacuum motor is the heart of a vacuum cleaner. After all, the more powerful the motor, the greater the pressure differential and therefore the more suction and airflow, right? And it is for this reason that most of the specifications you see concerning cleaning ability relate either directly or indirectly to the motor.

But here's where it gets tricky. Specifications for components such as the motor do not necessarily relate to the performance of the entire vacuum cleaner, and therefore are only a part of the story.

Let's take a look at the primary specifications one by one:

Watts

The input power of the vacuum motor is measured in watts. Although this specification doesn't take into account the efficiency of the motor, the number of fans or the overall vacuum cleaner design, motor wattage is a valid way to evaluate and compare the power of the motor.

While the ideal comparison is motor input power in watts of Product A compared to motor input power in watts of Product B, some manufacturers do not provide motor input power specifications in the form of watts but instead rate the entire vacuum cleaner in amps. This can make it hard to compare across brands.

However, you can convert amps to watts by the formula, amps x 120 (volts) = watts. Or conversely, you can convert watts to amps by the formula, watts/volts (always 120) = amps. For example, a 1400-watt motor converts to 11.67 amps (1400/120=11.67).

Comparing machines rated in amps with those rated in watts is not an exact comparison because manufacturers that are using watt ratings typically rate the motor only while amperage ratings use the total electrical consumption of the vacuum cleaner including the motor in the power nozzle (the motorized revolving brush cleaning head), light bulb, etc.

This means that a Power Team (a canister vacuum cleaner with a power nozzle) with a specification of 12 amps might be quite comparable to another Power Team with a 1200-watt motor that converts to only 10 amps.

This is because the power nozzle motor consumes 1.5 amps, the bulb uses additional amperage and so on. So, if we subtract the amperage used by the power nozzle motor from our 12 amp machine, we come up with 10.5 amps for the motor and light bulb. In this example, the two motors both have ratings of very close to 10 amps, and therefore, equivalent motor input power.

Therefore, it is best to either compare motor input power in watts of both machines or if you have to compare a machine rated in watts with one rated in amps, try to get the amperage rating of the motor only instead of the entire vacuum cleaner. You can then convert this to watts and have a meaningful comparison.

Amps

A very common vacuum cleaner specification is amps. The amperage rating designates the maximum amount of electrical current used by all of the vacuum cleaner's electrical components when operating. The biggest consumer of electrical current will be the vacuum motor, but the amperage rating includes all of the electrical components, including the vacuum motor, the power nozzle motor, the light bulb, etc.

The maximum amp "draw," (the number of amps the vacuum cleaner uses when running) allowed for any appliance that plugs into a standard household outlet is 12. Therefore, if you see amperage ratings above 12, read the fine print, as they are not true amperage specifications but some other manufacturer developed "performance rating" designed to create the impression of a more powerful vacuum cleaner.

Although amperage refers to electricity consumption and not power or cleaning ability per se, it can be used to compare the input power of one vacuum cleaner to another. This is because while input power is measured in watts, amps are converted into watts by multiplying by volts. Since volts are constant at 120, amps represent a valid comparison of motor input power.

Again, as mentioned above, when making this comparison, try to get the amp rating of the motor only instead of the entire machine.

Therefore, amp ratings give us a means of comparing the input power of a vacuum motor and the vacuum cleaner as a whole and are a meaningful specification for comparison purposes. But again, they are only part of the story. After all, just because a motor or vacuum cleaner consumes more electricity, this does not make it a better cleaner.

The amps specification also does not take into account how efficient the motor is, as well as other design factors, such as whether the motor has one or two fans (two is not necessarily better than one) and the overall efficiency of the vacuum cleaner design.

Voltage

In the United States, standard household current operates at 120 volts at the meter. Voltage within a home is sometimes referred to as "110" and this is because there may be voltage drops through the house wiring. But not to worry, appliances are designed to operate within a range of voltages from 110 to 120.

For the purposes of understanding vacuum cleaner specifications the only thing about voltage we really need to know is the formula, amps x volts = watts and conversely, watts/volts = amps. When doing these calculations use 120 volts for U.S. appliances.

Water Lift (Sealed Suction)

The sealed suction of a vacuum cleaner is measured in inches of water lift. This rating is taken when the motor is totally sealed, and the term refers to how many inches the motor will vertically lift a 1" column of water.

Water lift is what gives a vacuum cleaner the power to pick up or "lift" debris from the floor surface, while airflow then removes it to the dust bag. Vacuum cleaners with more inches of water lift will have an easier time picking up sand and other heavier soils from carpet and flooring.

Water lift is also a measure of a vacuum cleaner's ability to deal with resistance within the vacuum cleaner. This is especially important in HEPA or high filtration vacuum cleaners that have more resistance due to the additional filters that the air has to pass through.

A good water lift rating also indicates that a vacuum cleaner will keep performing at high levels as the dust bag or container fills and the filters "load" or gradually fill with fine particulate and become more and more resistant to air passing through.

The water lift of a vacuum cleaner is another useful indicator of performance in that it is a means of comparing the suction of one motor to another and, generally speaking, the more water lift the better.

Horsepower

This is a rating that was used primarily for marketing purposes and had little or no relation to vacuum cleaner performance in the real world. Thankfully, it has been largely done away with as a vacuum cleaner specification.

Often referred to as "Peak Horsepower" these ratings were obtained by removing the fans from the vacuum motor and subjecting it to the maximum load possible before the motor burned out. Then, a complex formula was applied to come up with a Peak Horsepower rating. Again, this specification is meaningless in terms of evaluating the cleaning ability of a vacuum cleaner.

Air Watts

As we have discussed, typical vacuum power specifications such as watts and amps measure the vacuum cleaner's input power. Central vacuum makers, as well as some other vacuum cleaner manufacturers, have been using the air watts specification to attempt to rate the vacuum cleaner's output rather than input power. Air watts are calculated using the formula, (Air Flow (in CFM) x Vacuum (in inches of water lift))/8.5 = Air Watts.

Once again, there is some question as to whether this is a useful specification or just a new rating to further confuse consumers and make comparisons difficult. After all, when you do the calculations, an air watt comes to 0.9983 watt or just about the same as an ordinary watt.

It is important not to confuse air watts with airflow, the most important specification of all.

Airflow

Airflow is by far the most important specification in terms of determining the cleaning ability of a vacuum cleaner. Measured in cubic feet per minute (CFM), it is the force of this airflow across a surface that picks up the dirt and moves it to the dust bag or container. Therefore, the more airflow, the better the cleaning ability of the vacuum cleaner.

Airflow is an excellent specification because it takes into account both the power of the vacuum motor, which creates suction, as well as the resistance of the bag and filter system that this air must pass through.

Airflow is generally measured through the vacuum cleaner without hose or attachments connected. Because of this, there are several factors that can affect actual airflow, including turbulence in the hose and wands, restrictions on airflow where the cleaning tool meets the floor or other surface, increased resistance due to the bag filling with dirt, as well as filter loading.

Comparing Primary Specifications

In terms of these primary specifications, there are three elements that are useful in comparing vacuum cleaners.

The first comparison is watts to watts motor input power. Ideally, the machines being compared will all have motor input power specified in watts for a simple, direct comparison. If one machine is rated in amps and the other in watts, a conversion of the amps specification to watts makes comparison possible but is "apples to apples" only if the motor amps alone are used for this comparison.

As mentioned in the amps section above, if the only specification available is the amps for the whole machine, a comparison can still be made but it will not be a direct one.

If both machines are rated only in amps, a comparison can be made of the electrical consumption of each unit with an assumption that if these are close or equal, the motors are similar in input power. This is because the motor will be the biggest consumer of the rated amperage.

The second comparison will be water lift (sealed suction). This is a good specification to compare how well the vacuum cleaner will perform as the bag fills and the filters load, and is especially relevant when choosing high filtration or HEPA filtration vacuum cleaners. It also provides some idea of how vacuum cleaners compare in terms of picking up heavier soils such as sand, grit and so on.

The third point of comparison is airflow. This is the most important specification of all when choosing a vacuum cleaner because airflow is what moves the dirt from surfaces to the dust bag or container. In short, airflow is the best specification that demonstrates cleaning ability.

So, now with airflow rated in CFM and water lift rated in inches, what types of numbers should you be looking for? On canister vacuum cleaners (with or without power heads) airflow of 100 CFM or more and water lift of 90 inches or more is recommended.

Upright vacuum cleaners come in a wide variety of configurations, but there are two basic designs. The first is the "Direct Air" or "Dirty Air" design where the dirt passes through the motor prior to any filtration en route to the dust bag. Dirty air uprights are only rated in amps.

The second basic design is one that features a by-pass motor where unfiltered air does not go through the motor. In uprights with this design, only filtered or completely clean room air passes through the motor in order to cool it. By-pass uprights will usually provide airflow but not water lift specifications and a high performing upright will offer 60 CFM or better.

There is no need for water lift ratings on both types of uprights, because there is so little distance for the air and soil to travel. CFM ratings do not have to be as high as canisters for the same reason.

Many uprights will not offer airflow ratings at all and will only rate the motor in terms of amps. As we have learned, this only measures the electrical consumption of the motor, which is not a measure of cleaning ability. Still, when comparing different vacuum cleaners of this type, amp ratings are better than nothing.

When you choose a vacuum cleaner with excellent airflow and water lift specifications, you are well on your way to a machine with outstanding cleaning ability.

Secondary Specifications

We have examined the primary specifications that impact cleaning ability. But there are also secondary specifications that should be considered before making a final decision. These include filtration, cleaning tools (agitation), capacity, quality, noise, features and cost.

Filtration

Filtration is very important in terms of cleaning ability because HEPA or other advanced filtration increases the resistance within the vacuum cleaner. Therefore, it is easier for a vacuum cleaner with normal filtration to accomplish higher airflow ratings. In fact, the challenge of coping with higher resistance is one of the reasons that HEPA filtration vacuum cleaners can cost more.

For more information on HEPA filtration vacuum cleaners, click here.

The dust bag is also part of the filtration system and a significant factor influencing airflow. Many new materials, as opposed to traditional paper, are being used to manufacture dust bags in order to retain the fine dirt and harmful small particles while still allowing air to flow as freely as possible.

The surface area of the dust bag is also a factor because the more surface area the bag has, the more easily the air will flow through it. This translates to better cleaning ability as the bag fills. This is a good reason to choose full sized vacuum cleaners versus medium or compact ones.

Cleaning Tools 

The primary cleaning tool must be correctly selected because while airflow is what transports those soils to the dust bag, agitation is what dislodges soil from carpeting, flooring and other surfaces.

Therefore, explore the type of cleaning tools that make sense for your home. If you have lots of carpet or difficult soils such as pet hair, choose an upright or a power team with a motorized power nozzle. If you have furniture that is difficult to get under, be sure your vacuum cleaner has a low enough profile cleaning nozzle to reach these areas and so on.

If you have a vacuum cleaner with all the airflow in the world but an inadequate cleaning tool, results will be less than optimal.

Capacity

The capacity of your vacuum cleaner has a role in terms of maintaining high levels of cleaning ability. As we saw above, the larger the dust bag, the better the airflow, and therefore, cleaning ability. All other things being equal, a full-sized vacuum cleaner will offer better cleaning ability, especially as the dust bag or container fills.


Noise

Noise is also a significant consideration. Some vacuum cleaners can be so noisy that they're almost unbearable to use. A high-quality vacuum cleaner will often operate at levels that are quite comfortable and will allow you to hear the phone or doorbell ring quite easily.

The amount of noise a vacuum makes while operating is rated in decibels (dB). To give you some idea, a conversation at home is rated at 50dB, a garbage disposal at 80 dB and a motorcycle or lawnmower at 100 dB. Extremely quiet vacuum cleaners can operate at decibel levels in the mid-sixties while cleaners in the 70-77 dB range are still very quiet compared to the vacuum cleaner you grew up with.

Features

Next, you need to consider whether the vacuum cleanering you're considering has all or most of the features that you need for effective and pleasant cleaning.

Consider your cleaning situation and be sure that the vacuum cleaner you choose gives you everything to make the chore of vacuuming as easy as possible. Does it feature a cord rewind, variable speed controls, on-board tool storage, height adjustable wands, an adequate cleaning radius, the proper tools for your flooring such as a soft brush for your slate entry tiles and so on.


Cost

As with everything, better quality usually costs a bit more, but is often worth it in the long run.


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