with Fleck 7000SXT Control
Contents
Carbon Tank System
Filling, Installation, & Setup Instructions
System Filling Instructions
Due to shipping guidelines & restrictions most units ship unloaded (with the media in separate box[es]). This also cuts down on shipping costs and makes positioning and installing your system easier. If the system is unloaded, loading is fairly easy, simply use the step-by-step instructions below. If the system is already loaded (some systems shipped by truck are loaded) you may skip the filling guide and start with the installation instructions.
The number of packages you receive can vary depending on the unit you order and how it is packaged for shipping. In general, the following is what to expect:
- One (1) Resin (Media) Tank (a tall slender tank 48" - 54" in height with an opening on the top)
- One (1) Control Head (either on the tank already or in a separate box)
- Gravel (small rocks or pebbles)
- Filter Media (bag[s] of material that is placed in the tank to do the filtering)
- Note: Type and quantity of media depends upon the system ordered
- Note: Most pH filter tanks have a second, smaller hole used for adding media after the system is installed
- One (1) Chemical Tank (for Potassium Permanganate, resembles a small plastic trash can & lid)
- One (1) Resin (Media) Tank (a tall slender tank 48" - 54" in height with an opening on the top) (Two [2] for dual tank systems)
- One (1) Control Head (either on the tank already or in a separate box)
- One (1) Brine Tank (Salt tank, resembles a plastic trash can & lid)
- Softening Resin (bag[s] of amber color beads)
- Gravel (small rocks or pebbles)
- Note: Quantity of resin depends upon the system ordered, and partial bags may be packaged differently
- Note: Some large systems will also have gravel (small rocks or pebbles) that will be put in the tank before the resin
- One (1) Resin (Media) Tank (a tall slender tank 48" - 54" in height with an opening on the top)
- One (1) Control Head (either on the tank already or in a separate box)
- One (1) Brine Tank (Salt tank, resembles a plastic trash can & lid)
- Gravel (small rocks or pebbles)
- Softening Resin (bag[s] of amber color beads)
- Catalytic Carbon (bag[s] of black granular media)
- KDF Media (bag[s] of gold or black flaky media)
- Note: Quantity of media depends upon the system ordered, and partial bags may be packaged differently
FILLING YOUR TANK
Fig. 1
Tank & Riser
Look inside your resin tank (if the control head is already on the tank, simply un-screw the head counter-clockwise) and there will be a 1" plastic tube inside (Fig. 1). This is your "Riser Tube" that delivers treated water into your home through the valve. It may have a plastic plug on the top end of it (most do not) so nothing can fall down inside the tank while you are loading the media. Pull out the riser tube to inspect it to make sure it is intact and without damage. These are very durable and would rarely ever be damaged, but it is a good idea to check. Place the riser tube back into the tank and center it at the bottom before filling. The riser tube sits in a depression at the bottom of the tank and extends to the top; ensure that it is no more than ¼" above the top of the tank. If higher than ¼" use a sharp knife or similar tool to cut it flush with the top of the tank. DO NOT CUT THE RISER TUBE TOO SHORT! If your riser tube is too short it will not seal inside the control head properly and your system will not work properly. If the top of the tube does not have a plug in it, simply put a piece of tape, a peice of plastic held by a rubber band, or a 35mm film case over the end to keep the media from falling down into the tube.
Next, stand back and look at your resin tank, and make sure it is standing straight up and not tilted to one side. Sometimes during shipment, the black "boot" on the bottom of the tank will get knocked out of alignment and you will need to straighten it out before filling the tank with media. If your tank is a bit tilted, simply pick the tank up 2 - 3 inches off the floor and drop it gently but firmly down, favoring the side of the boot that needs to be adjusted to make the tank stands straight up again. Inspect the top edge of the resin tank. Make sure there are no deep scratches or cuts. This is where the O-ring seals against the top of the tank. If there are deep scratches, use can use sand paper to smooth out before continuing.
TIP: By adding 10" - 12" of water at the bottom of your tank before filling you can help buffer the media as you fill your tank.
You can use a funnel with a large opening for the media or just fill by using a cup. If you do not have a large funnel to fit, the best thing to use is your household blender pitcher. Take the bottom blade section off of your blender and the pitcher will screw directly into your resin tank making a perfect funnel. You will load the media in the top of the resin tank (ensure the riser tube is inside the resin tank and is covered!). Gravel and filter media load fairly easily, softener resin sometimes clings to itself and it is easier to pour in a little at a time to work it down around the riser into the tank. Most filter systems come with gravel, while most residential water softeners do not. If your system came with gravel load it into the resin tank first. Next, scoop the media into the funnel, slowly letting it fall down inside the resin tank around the riser tube, keeping the riser tube as centered as possible. If you have multiple media types in your system, the order is not important, as long as the gravel goes in first. In general, it is usually easier to add any small amounts of media (NOT gravel) (under 10 lbs.) last. If you have a twin alternating water softener using the Fleck 9000 or 9100 head, divide the media equally between the two resin tanks. When you have scooped all of the media into the resin tank it will not be completely full. Some systems (such as the Pyrolox) may fill the tank less than half full due to the density of the media. Water softeners are sized to be filled to about 2/3. Just make sure the unit is not filled past ¾ full to leave room for backwashing. Remove the media funnel and take the cover off the end of the riser tube.
Note: Now is the best time to fill the tank with water. Filling the tank now before putting the control head on helps decrease the air in the system that will need to be worked out later. Putting water in now will also help reduce the time needed to rinse the media and clear up the water later. Use a hose or bucket and fill with water up to within a couple inches of the opening on the tank. Water can and will fill the riser tube at this point.
Remove any loose media and dry any water off the top opening of the tank. Apply a silicone lubricant or very light coat of vegetable oil (DO NOT use petroleum based lubricants such as Vaseline) to the top lip of the resin tank (where the control head will sit) with your finger. This will help lubricate the large O-ring on the bottom of the valve. Look at the bottom of your control valve and you will see an opening with an O-ring inside. Make sure to lubricate this O-ring as well, if not already lubricated. DO NOT apply anything (pipe dope, plumbers paste, teflon tape, etc.) to the threads on the control valve or the resin tank!
Fig. 2
Upper Basket
Fig. 2
Dispersal Basket
Air injection systems should come with an upper dispersal basket (Fig. 2), the larger end will be towards the bottom of the tank, with the cone pointing up, about 1" from the top of the riser tube.Your system may or may not come with an upper basket (Fig. 2). If your unit came with an upper basket the larger end will fit inside the bottom of your control valve, with the smaller end sliding over the riser tube pointing down into the tank. Tilt the valve over on top of the resin tank making sure the top of the riser tube slips inside the opening in the bottom of the valve. Screw the valve down onto the resin tank. Have someone hold the tank as you snugly tighten the valve onto the tank. Be sure to hold the valve close to the solid body of the valve as you tighten it onto the tank. Tighten the control valve a little past snug, and then stop! Do not try to over tighten the valve onto the tank. The large O-ring will seal itself, and you will not be able to turn it any further. Your unit is ready to install!
Carbon System Installation Instructions
These instructions are a step-by-step guide to installing your new Abundant Flow Water system. These are general guideline instructions for typical installations and are not designed to cover every possible application. Always check your local plumbing codes and follow any codes that apply. If you are uncertain about something during the installation of your system contact someone who is more knowledgeable for help, such as a knowledgeable friend or a plumber. We at Abundant Flow Water Follow can answer your questions about your system and water treatment, we are not, however, plumbers, so please contact your local plumber for any plumbing related questions.
Many homeowners install their own water systems with basic plumbing skills; if you are not comfortable with projects like this, please get help from a friend or a professional plumber. Abundant Flow Water systems will not be responsible for mistakes, damage or injury caused by improper installation. By making your purchase, you agree to these terms.
Read over all instructions prior to installation, and have all parts and components gathered and readily accessible. Have someone available to help you in case you need it. If you have to shut the water off to your house, be sure and turn your electric water heater off to prevent burning out the element. Once your system is installed and water is back on, open a faucet for a few minutes to help purge air out of the system before turning your water heater back on.
There are many materials that can be used for installing your new system. Copper, PVC, CPVC, and PEX are the most popular. Galvanized iron can be used but is labor intensive and requires tools that most people don't have. Flexible connectors are also used by some that don't have any interest in soldering. Be sure to check local plumbing codes for any restrictions on material that you can use! A simple hot water tank installation kit available at most Home Depot or Lowe's stores will do just fine if you have 3/4" (7/8" OD) copper or CPVC. These kits include compression fittings that will attach to the filter's inlet & outlet, and to the main line. Whichever material you choose, it's a good idea to set the system in the desired location and try to estimate the number of fittings and pipe you will need. Some prefer not to filter the water spigots that go outside used for irrigation or sprinkler systems. You will have to plan the job so that you cut in the water line AFTER these spigots. If on a well, you will need to install the system AFTER the pressure tank. This ensures an even pressure to the system and prevents media from being thrown into your plumbing. The order of filter tank systems will vary depending on the systems installed, but the general order is as follows: pH filter - sediment filter - iron filter - carbon filter - water softener. If you have a system not listed here or have any other questions call or email us for more help. Be sure to include the name of the person who ordered the system so we can look up and verify which system(s) were purchased.
Let's Get Started!
Make sure your chosen location will be fairly level, dry, and protected from possible freezing conditions. The plastic base of the resin tank is slightly adjustable to non-even floors. If shimming is needed, you can make shims from small, flattened pieces of copper pipe, or some other non corrosive material. Do not use wood or make-shift platforms as they are not very sturdy and can cause damage the tank, injury to people, or damage to property. You will need a standard 3-prong 120V outlet to plug your control valve into. We recommend using a GFI (ground fault interrupter) within 5' of your system. (Be sure to follow any local building codes) DO NOT use an extension cord! Use of an extension cord can create a fire hazard and may void your warranty. You will need a drain or drain pipe to run your drain line to, preferably within 15' of your system. (Your drain line can be ran to an overhead drain pipe) You will need 1/2" I. D. (inside diameter) flexible tubing for your drain line, which can be readily found at your local hardware store. If you will be running your drain line farther than 15', use larger tubing instead. Make sure to give yourself room to run your drain line, and do not make any sharp turns in the tubing as this will cause kinking and will prevent your system from backwashing effectively.
Installing the bypass valve:
Fig. 3
Bypass Valve
Fig. 4
Clip Removal
Your unit comes with a bypass valve (Fig. 3) which may or may not be installed. If not, locate the bypass valve and note the direction of flow as indicated by the arrows, also note the direction of flow on the head itself, also indicated by arrows. The inlet side arrow will point toward the front of the head, the outlet side arrow will point away from the head. It is important to install the bypass valve correctly! Installing the bypass valve backwards may result in filter media being thrown into your home's plumbing system, causing damage to your plumbing and the control head, as well as improper system operation. The bypass valve on the 7000 utilizes a clip connection system - O-rings seal the connections, and clips hold them in place. To remove connections secured by clips (the bypass valve connection to the head for example), simply remove the clip using a flat head screwdriver (Fig. 4). To reconnect the bypass valve or the stubs, lubricate the O-rings with silicon lubricant or vegetable oil (Do Not use Vaseline or other petrolium lubricants!) and push it in place, then secure with a clip.
Fig. 5
Brass Stubs
The Fleck 7000 uses PVC or brass stubs (shown - Fig. 5). You will need to get adapters at your local plumbing supply store to fit your personal plumbing type. If you are soldering your connections, remove the stubs from the bypass valve, remove the O-rings from the stubs, and solder a 3" piece of copper to the each stub, away from the bypass valve. Allow the stubs to cool completely before replacing the O-rings.This step protects your bypass valve from damage! Excess heat generated by soldering can damage the internal workings of the bypass valve and can lead to improper system function. If you have threaded stubs apply a high quality plumber’s pipe joint compound (Teflon tape is NOT recommended) to the threads on the adapters and on your stubs. Screw the adapters onto the stubs good and tight. (If soldering, first connect a 3" piece of copper to your adapter and allow to cool before connecting the adapter to the threaded stub.) Once your stubs are ready, lubricate the O-rings, push them into the bypass valve, then secure with the clips.
Fig. 6
Connected Bypass
Once your adapters are connected to the bypass valve, connect your bypass valve to your control head (Fig. 6). Ensure the arrows on the bypass valve line up with the arrows molded on the control valve. Use a small amount of silicone lubricant or vegetable oil on the O-rings of the control valve, and then slip the bypass valve on. Use the clips on the control valve to secure the bypass valve to the control head. Connect the meter cable (the small black cable coming from the back of the control head) into the matching hole on the control valve, located between the two clips holding the bypass valve in place. Your system is now ready to plumb in!
Plumbing in your filter unit
If you have private well, turn the power off to the pump then shut off the main water shut off valve. If you have municipal water, simply shut off the main valve. Go to a faucet, (preferably as close to the installation location as possible) turn on the cold water until all pressure is relieved and the flow of water stops. If your hot water tank is electric, turn off the power to it to avoid damage to the element in the tank.
Fig. 7
Shiny Copper Pipe
Locate the resin tank with control valve installed in the desired location; left of a vertical main line is ideal. This way the inlet can be easily ran to the main line, then the outlet a few inches higher (or lower, depending on your plumbing). If you're installing a unit with a bypass valve, notice that these assemblies will travel slightly up and down. This is normal because of the O-ring seals at each end. The bypass valve may be supported in a level position with a temporary brace until the pipes are joined together and any pipe straps are installed. This will result in a neater, straighter connection. When installing take care not to exert too much force on the bypass valve. Taking the bypass off when installing fittings will prevent damage to the control head. If you plan to solder the connections, remember the pipes must be clean, shiny (Fig. 7), and DRY. DO NOT try to stuff bread into a pipe to stop water from dripping into your fittings. If a shut off valve leaks some water slightly or the pipes keep dripping, try to install a new valve, or drain down the house's plumbing further by opening more taps and or removing some water from the bottom of the hot water tank with power and/or gas off. Use a high quality soldering flux and solder used for making any copper connections, DO NOT use electric wire. Always wear safety glasses. A fire extinguisher nearby is also a good idea for novice plumbers to have handy, just in case. Soldering will cause some smoke detectors to go off if located in close proximity.
Fig. 8
Bypass Position
Fig. 9
Service Position
When soldering ensure that the bypass valve is in the "Service" position and open a nearby faucet This prevents heat damage by allowing steam to escape. Failure to do so can cause poor solder joints and can lead to leaks. To use the bypass valve, insert a screwdriver through the holes in the knob on the side of the bypass valve. To put the system in "Bypass", turn the knob clockwise until the holes are vertical (up & down - Fig. 8), repeat with the other knob on the opposite side of the bypass valve. To put the system in "Service", turn the knob counterclockwise until the holes are horizontal (side by side - Fig. 9), repeat with the other knob on the opposite side of the bypass valve.
With a pencil, mark a section of pipe to be removed from the main line. This is where you will direct the water to the system and then from the system back to your plumbing, called your "cut in point". Allow yourself plenty of room to connect any necessary fittings. It is usually a good idea to "rough in" your connections. This simply means loosely connecting the pipes and fittings (DO NOT permanently attach them yet) to get an idea of where everything will run and ensure you have everything you will need. Once you have established the cut in point, make the cuts and remove the section of pipe. Clean the cut ends, flux (if copper) and wait for any water to drain completely out. You may also want to siphon some water out of the main line, just enough so the water level standing in the pipe is lower than where you will attaching the fitting. Measure pieces of pipe, clean, flux and complete the inlet connection to the main line. This will be the connection that carries the untreated water to your system.
Do the same for the outlet, the connection that carries treated water back to your home. When soldering the final connection, ensure that the bypass valve is in the "Service" position (Fig. 7) and open a nearby faucet This prevents heat damage by allowing steam to escape. Failure to do so can cause poor solder joints and can lead to leaks. Once you are finished, give the connections time to set, (time varies according to material used and method of sealing), then place the bypass valve in the "Bypass" position. Make sure a faucet is open somewhere and that any aerator is removed to avoid clogging from loosened debris in the pipes. Turn the main valve on slightly, watching carefully for leaks. Leave the bypass valve in the bypassed position and slowly turn the main shutoff valve on all the way. If you have no leaks, proceed to the next steps. If leaks are discovered, turn main water supply off and correct before moving on.
Connecting your drain line:
Fig. 10
Drain Fitting
Your drain line connection should be attached the back of your control head already (Fig 10). The 7000 head utilizes a clip system for the drain fitting, similar to that used on the bypass valve. To remove the drain fitting on the 7000 head, pull the gray clip out from the head and lift the fitting out. To replace, simply push the fitting back into the control head and replace the gray clip. The easiest way to connect your drain line is to use a ¾ threaded female to barbed adapter (sized to fit your drain line) and then use a hose clamp to connect your drain line to the barbed fitting. Use plumbers pipe joint compound on the threads to ensure a tight seal. Drain line is not usually included with the unit since it is part of your plumbing and every application is different. In most cases ½" inner diameter flexible tubing is used, which you can get from any hardware store. If running your drain line more than 15', you will need to use larger tubing instead. Run your drain line to a nearby drain or drain pipe. It can be ran up overhead or down along the floor. Please follow your local health department codes for where to run filter discharge water. Never make a direct connection into a waste water drain. A physical air gap of at least 3" should be used to avoid bacteria and wastewater traveling back through the drain line into the filter Using a simple P-trap or a standpipe of at least 1-1/2" on your homes drain line to connect to is always best.
Connecting the Chemical Tank
Fig. 11
Chemical Tank
Fig. 13
Plastic Nut Assembly
Fig. 12
Felt pad & Float
Fig. 14
Brine Fitting
Locate the chemical tank, it is a small plastic tank about the size of a 3 gallon bucket (Fig. 11. Remove the lid and look down inside, you will notice the float assembly and a felt pad. (Fig. 12). Remove the float assembly (you may need to remove a nut or two before removing the float) and take the rubber band off the bottom of the assembly. The float will need to be positioned about ¾" above the felt pad to help maintain the correct water level and ensure a proper mixture of potassium is used in the backwash cycle. The float is attached to a rod held in place with a couple rubber washers. Replace the float inside the chemical tank and adjust accordingly, cutting the excess rod. NOTE: Be sure to leave an inch or two of the rod above the rubber washer to allow for adjustment in future if needed.
Next, connect the chemical tank to the control valve. The plastic nut assembly consists of a plastic nut, 2 sleeves, and insert (Fig. 13). One set (sometimes located inside the bag with the service manual or already attached to the control valve) is used to connect one end of a piece of 3/8" tubing to the brine fitting on the side of the control valve (Fig. 14). To connect, first place the plastic nut over the end of the tube (threads facing the end of the tubing), followed by the black compression ring (smaller, tapered end toward nut), then the white compression ring (larger end toward nut), and finally place the brass insert into the end of the tube. The other end of the line will connect to the chemical tank using a second plastic nut assembly (usually located inside the chemical tank or already attached to the float assembly). Place the end of the tubing firmly into the float assembly fitting, then secure by tightening the black nut until snug. DO NOT OVERTIGHTEN!
Connecting the Brine Tank
Fig. 11
Brine Tank
Fig. 13
Brine Fitting
Fig. 12
Float
Fig. 14
Plastic Nut Assembly
Locate the brine tank, it is a plastic tank about the size of a 30-40 gallon trash can (Fig. 11 - Example only, actual design may vary). Remove the lid and look down inside, you will notice the float assembly (Fig. 12) and may see a plastic salt grid. Note: Most units do not utilize a salt grid, if your system did not come with one it should not need one. Remove the float assembly (you may need to remove a nut or two before removing the float) and take the rubber band off the bottom of the assembly. The float will need to be positioned about halfway up the side of the brine tank to help prevent over filling the brine tank. The float is attached to a rod held in place with a couple rubber washers. Replace the float inside the brine tank and adjust accordingly, cutting the excess rod. NOTE: Be sure to leave an inch or two of the rod above the rubber washer to allow for adjustment in future if needed.
Next, connect the brine tank to the control valve. Using the plastic nut, 2 sleeves, and insert, (usually connected to the brine fitting or in the bag with the service manual) connect one end of a piece of 3/8" tubing to the brine fitting on the side of the control valve (Fig. 13). To do so, place the plastic nut over the end of the tube (threads facing the end of the tubing), followed by the black compression ring (smaller, tapered end toward nut), then the white compression ring (larger end toward nut), and finally place the brass insert into the end of the tube (Fig. 14). Place the end of the tubing firmly into the brine fitting, then secure by tightening the black nut until snug. Use a wrench to tighten an additional ¼-½ turn. DO NOT OVERTIGHTEN! Connect the other end of the line to the float valve using a second plastic nut assembly (usually located inside the brine tank or already attached to the float assembly) in the same way. If your system came with a mesh screen insert, it will go inside the insert on the end of the line that connects to the brine tank. (Parts for the brine tank are usually inside the brine tank. Be careful not to over tighten and cause leaks.
The white barbed fitting on the outside of the brine tank is an overflow fitting. It is usally a good idea to run this to a nearby drain or overflow bucket (no higher that the fitting itself). This acts as an additional saftey measure to prevent overfilling the brine tank should the float valve fail.
Note: If you already filled your tank with water before placing the control head on the unit, you may skip the next paragraph. Ensure that all faucets in the house are closed, leaving just one open, preferably an outside line (if connected to the filter) a laundry sink or bathtub. NOTE: If you have a water softener or any other filter system installed inline after the system, put it in bypass to keep any debris from installation from entering the second unit. This will prevent damage to your other unit and reduce the amount of time required to clear out the media dust from your plumbing and system tanks. This is only needed for the initial running of water until clear. Turn the bypass valve slightly to allow water to run into the unit. You want water to initially fill the tank slowly. This prevents media from being pushed up into the control head by the initial surge of water going in. Once the tank is full of water you should start to see water flowing from the open faucet. It may look discolored at first. This is normal. If media got in the riser tube, some media may come out as well. This is alright as long as it is just a small amount. Once the water is free from air pockets, go ahead and turn the bypass valve into the "service position". You should have a full flow from the open faucet at this point. Leave the faucet on until the water runs clear, then close it and go around opening the other faucets in your house one by one until the air is out of all of them.
For tank filter units it is best to let the unit stand with the water in it for 12-24 hours before using it. You can keep the bypass valve in the "Bypass" position and leave the control valve unplugged to allow water to run to your home. Letting the resin tank stand with the water inside allows air to work itself out of the filter media and helps to clean the media fines that collect during shipping.
System Start-up
After the tank has been standing with water for 12-24 hours you are ready to flush it. Ensure any subsequent systems are bypassed; this will speed up the flushing process and prevent the media fines from getting into your other system(s). Open a faucet that is near the system, a laundry sink or outside faucet (if it will be treated by the system) is ideal. Slowly open up the bypass valve to the full open service position. Let water run out of a close by faucet for 30 minutes to an hour. The water will be discolored at first, this is normal. Once it clears up (which can take up to 2 hours) you can start using the system. Be sure to return any other systems to the service position.
Note: You may get periods of discolored water even after flushing the system, in particular after a backwash cycle. This is normal, flushing the system just helps keep the discoloration to a minimum. As the system is used and backwashed, this should diminish, until it no longer occurs, usually within a week or two.
Controller Programming
Note: For the most up-to-date display codes please refer to your Service Manual.
SXT Controls
Plug the control head into an outlet. The SXT controller uses an LCD display and touchpad controls to simplify programming the system. The diagram indicates the various controls and displays you will use. When referring to a setting, the following format will be used:
[Paramter Dislplay - Data Display]
Brief explanation of what the setting controls and recommendations for correctly setting it.
Setting Time of Day
[TD - 1:58]
Time of Day, tells the system what the current time is. To change the time, press and hold the up OR down arrow until the service icon is replaced with the programming icon. Use the up and down arrows to set the time of day (PM is indicated in the upper right corner of the screen). Once the time is set, press the extra cycle button or don't press anything for 5-10 seconds to return to normal operation.
User Programming Setup
To enter user programming mode, ensure clock DOES NOT say 12:01 pm. Press and hold the up AND down arrow buttons together for 5-10 seconds until the programming icon appears and a parameter code is displayed. Once each setting has been entered, use the extra cycle button to advance to the next setting. Please Note: The settings shown are only examples, settings will vary depending on situational differences.
[DO - 3]
Day Override, sets the backwash frequency (how often the system backwashes). The system needs to backwash at least every 3 days, for high water use or high contaminate levels more frequent (i.e. lower number) backwashing is recommended.
[RT - 12:00]
Backwash Time, this is the time of day the system will backwash. Backwash length can vary, but usually lasts 30-45 minutes. When choosing a time, schedule it when water will not be used (when everyone is asleep is usually ideal) and ensure it does not conflict with any other backwashing systems you may have.
Once all parameters have been set, press the extra cycle button one more time to save your settings (setting changes will be canceled if no buttons are pressed for 60 seconds). The display should then show the service icon, with the data display flashing between the current time of day and days remaining until the next backwash. Once the days remaining reaches 0 the system will queue a backwash for the set backwash time. A flashing service icon idicates that a backwash is queued. A manual backwash can be queued by pressing the extra cycle button, and an immediate backwash can be initiated by holding the extra cycle button for 5-10 seconds.
Master Programming
Set clock to 12:01 pm. Hold both the up and down arrow buttons together for 5-10 seconds until display changes, the service icon will be replaced with the programming icon and the parameter display should show "DF". Once each setting has been entered, use the extra cycle button to advance to the next setting. Please Note: This list shows all possible options, some of which will not be applicable and may not be shown. Options with a asterisk(*) SHOULD NOT appear, if they do, please contact us to ensure your system is properly set up. The settings shown are for the most common configurations, some variations will occur. Unless specifically told to do so in these instructions or by one of our experts, DO NOT change any of these settings. If there is a significant difference between this guide and the actual setting, please contact us for further assistance. Please Note: Improper settings can lead to shortened system life, improper filtration, and damage to the system and/or your home.
[DF - Gal]
Display format, shown settings is gallons. Liters [Ltr] and Cubic Meters [Cu] are alternative settings, however, all instructions are written on the basis of the [Gal] display format.
[VT - Fltr]
Valve type, filter systems use the filter [Fltr] setting. Other settings include Softener double backwash [St2b], downflow fill first [dfff], and Air Injected Oxidizer [AIO]
[CT - tc]
Control Type, sets the opereration of the controller. Filter systems require the time clock [tc] setting that regenerates based on the number of days passed. Other settings include meter (flow) delayed [Fd], this measures the amount of water used and regenerates the system at the preset time after the set capacity reaches 0, meter (flow) immediate [Fl] where the regeneration begins as soon as the capacity reaches 0, and day of week [day] where regeneration is based on the current day of the week. NOTE: Standard filter systems do not have the meter required to use the metered settings. While a meter can be purchased and added to the system, it is not recommended. Due to a large number of variables system capacity on filter systems is near impossible to calculate accurately, and frequent regular backwashing is required to ensure proper filtration and long media life, regardless of water use.
[C - *]
System Capacity, only used on water softening systems.
[H - *]
Hardness, only used on water softening systems.
[RS - *]
Reserve Selection, only used on water softening systems.
[SF - *]
Safety Factor, only used on water softening systems.
[RC - *]
Reserve Capacity, only used on water softening systems.
[DO - 3]
Day Override, sets the backwash frequency (how often the system backwashes). Set in user programming as detailed above.
[RT - 12:00]
Backwash time, dictates the time for backwash. Set in the user programming mode as detailed above.
[BW - 10]
Backwash, the length of time used for the backwash portion of the cycle.
[BD - *]
Brine Draw, only used on water softening systems.
[BW - 0]
2nd Backwash, only used on water softening systems. NOTE: There are 2 BW settings, the first one WILL need to be set.
[RR - 10]
Rapid rinse, the length of time used for the rapid rinse part of the cycle.
[BF - *]
Brine fill, only used on water softening systems.
[CD - *]
Sets the current day for systems set to [CT - dAY]
[FM - *]
Flow Meter Type, only used on metered systems.
[K - *]
Meter pulses per gallon for metered systems with genereic meters.
After the system is installed and the control head is programmed, it is usually a good idea to put the system through an immediate backwash cycle. This allows the system to rinse itself and ensures the media is evenly distributed and ready to filer your water. During the backwash cycle do not use water as it will be untreated and may interfere with the backwash process. This process typically lasts 30-45 minutes so plan around it. To initiate a immediate backwash, simply push the extra cycle button (the bottom that looks like arrows going in a circle) for 5-10 seconds. The upper left abbreviation should change to "BW", the display will show the length of that part of the cycle and you should hear water rushing through the system. Simply pressing the extra cycle button once will schedule a backwash at the set backwash time, overriding the standard backwash schedule. Remember: After the first few backwash cycles your water may be discolored. Simply run a nearby faucet until the water clears up.
Once the backwash cycle is complete, you can start using water as normal. Remember that the first few days you may have some discolored water. It is a good idea to let the water run through a close by faucet for a couple hours after install before a backwash to help flush air and dust from the media. You may also see some discolored water initially following the first few backwash cycles.
When installing an iron filter, it is a good idea to chlorinate your well and pipes. You can do this by pouring a gallon or two of bleach into your well, turning on water in the home until you smell chlorine, and then let it stand without being used for a few hours. Then run water for a while to flush it out. You can do a backwash on the iron filter at this point too. The iron filter media is actually rejuvenated by using chlorine helping the media to last longer. Chlorinating helps to remove existing iron and sulfur build up from your plumbing and hot water tank. It is a good idea to do this once or twice a year.
When installing the catalytic carbon filter for sulfur removal, it is a good idea to chlorinate your well and pipes. You can do this by pouring a gallon or two of bleach into your well, turning on water in the home until you smell chlorine, and then let it stand without being used for a few hours. Then run water for a while to flush it out. Chlorinating helps to remove existing sulfur build up from your plumbing and hot water tank. It is a good idea to do this once or twice a year.
ReplacingReplenishing the Media
Media life varies depending on a number of factors, but on average you can expect to add filter media on a yearly basis. Very low pH and high water use can increase the freqeuncy of media addition get 2-4 get 4-5 get 10-15 get 4-5 get 3-4 years of treatment before it needs to be changed out. High contaminate levels, high water use, improper or infrequent backwashing, can all shorten the life of your media and require more frequent media changes.
Filter media and gravel can be ordered from the products section of our web site when needed for replacement. To replace, close the bypass valve (turn the knobs on both sides clockwise until the holes are vertical) and initiate a manual regeneration. This will relieve pressure on the unit. Then disconnect the bypass valve from the control head by removing the 2 red clips that secure the bypass valve to the control head. Unscrew control head, siphon or pump out the water, & dump out the old filter media. If media is stuck inside the tank a hose or rod may be required to work it loose, just be careful to avoid breaking the riser tube or tank. Once the media has been removed put in the new gravel and filter media following instructions for loading above. Screw the control head back on, reconnect the bypass valve and ensure the control head is in the "service" position. Slowly open the bypass valve until you hear water entering the system. Once the system is full of water close the bypass valve and allow the system to sit for 24 - 48 hours. This will work out the air and speed up the cleansing of the media. Once the media has set, open the bypass valve and backwash the system. You may notice some discoloration to the water when you first start using it and after the first few backwash cycles. This is normal. The system is now ready to continue cleaning your water.Most pH filter systems have a "dome loading port" for easy addition of media. To add media, close the bypass valve (turn the knobs on both sides clockwise until the holes are vertical) and initiate a manual regeneration. This will relieve pressure on the unit. Unscrew the cap on the loading port and siphon or pump some of the water out of the tank. If the system does not have a loading port, disconnect the bypass valve from the control head by removing the 2 red clips that secure the bypass valve to the control head. Unscrew control head, siphon or pump out the water, and cover the riser tube to prevent media from getting in it. Add the pH media, filling the tank no fuller than 2/3 - 3/4 of the way. (Space is required at the top of the tank for backwashing). Once the media has been added, replace the loading port cap (or screw the control head back on the tank and reconnect the bypass valve). Slowly open the bypass valve until you hear water entering the system. Once the system is full of water open the bypass valve all the way and backwash the system. The system is now ready to continue treating your water.
| Problem | Possible Cause | Solution |
|---|---|---|
| System Does Not Backwash | 1. No Power | Ensure unit is plugged in and receiving power |
| 2. Power Failure | Reset time of day, check settings | |
| 3. Defective Motor | Replace Motor | |
| System Is Not Filtering | 1. Drain Line is Kinked | Ensure drain line is as straight as possible without any kinks |
| 2. Drain Fitting or Drain Line Blocked | Check drain fitting and drain line and clear any obstructions | |
| 3. System Is Not Backwashing Enough | Increase the backwash frequency | |
| 4. Distributor (Riser) Tube is Leaking | Ensure tube is not cracked or broken |
|
| 5. Media is fouled | Replace media | |
| 6. Potassium not being drawn | See "System Not Using Potassium" | |
| System Does Not Draw in Air | 1. Drain Line is Kinked | Ensure drain line is as straight as possible without any kinks |
| 2. Low Water Pressure | A minimum of water pressure 20psi is required at all times | |
| 3. Drain Fitting or Drain Line Blocked | Check drain fitting and drain line and clear any obstructions | |
| 4. Injectors or Screen Plugged | Clean injectors and screen, replace if necessary | |
| 5. Internal Leak in Control | Inspect piston, seals, & spacers, replace if necessary | |
| Water Continuously Runs to Drain | 1. Motor stopped or jammed | Check motor, replace if necessary |
| 2. Debris in Head | Remove piston and check for any debris, clean if necessary | |
| 3. Internal Leak | Inspect piston, seals, & spacers, replace if necessary | |
| Air in Pipes - Air From Faucets | 1. System is Trying to Backwash at Same Time as Another System | Set systems so backwash cycles do not overlap |
| System Not Using Potassium | 1. Brine line clogged | Check line for obstructions and remove |
| 2. Drain Fitting or Drain Line Blocked | Check drain fitting and drain line and clear any obstructions | |
| 3. Injector nozzle or throat clogged | Clean or replace injector nozzle and injector throat* | |
| Purple Water After Regeneration | 1. System Not Rinsing All Potassium Permanganate Off | Increase length of Rapid Rinse cycle by 5 or 6 minutes |
| 2. Too Much Potassium Permanganate Being Used | Lower float in chemical tank and/or Shorten brine fill cycle |
|
| If above measures do not work, a carbon filter may be placed after the system to remove excess potassium permanganate | ||
| *NOTE: If the brine line and drain line are fine and cleaning the injector pieces does not solve the problem, replace the injector parts. Sometimes the injector parts are clogged, even if it appears that they are clean. | ||
| Error Code | Error Type/Cause | Solution |
|---|---|---|
| 0 | Cam Sense Error |
Unplug the unit & examine the powerhead |
| 1 | Cycle Step Error |
Unplug the unit & examine the powerhead |
| 2 | Regen Failure |
Initiate a manual regeneration to reset the error code |
| 3 | Memory Error |
Press the up & down arrows together for about 25 seconds to perform a Master Reset |
- Abundant Flow Water Systems, Incorporated
- 2261 Schoenchen Rd. Pfeifer, KS 67660
- | Tel: 785-735-9769
- | Fax: 785-735-9589
- | Email: support@afwfilters.com
- Abundant Flow Water Systems, Inc. ©Copyright 2009 All Rights Reserved
